0
ASSAM POWER DISTRIBUTION COMPANY LTD. (CAR)
BIDDING DOCUMENT
CONSTRUCTION & COMMISSIONING WORKS UNDER PMAGY SCHEME
ON
“TURNKEY” BASIS
SCHEME: DEPOSIT
NIT REFERENCE: CEO/APDCL (CAR)/PMAGY (DEPOSIT)/ T-6 /13-14/2837
Dt: 8.1.14
1
ASSAM POWER DISTRIBUTION COMPANY LIMITED
Office of the Chief Executive Officer, Morigaon Electrical Circle, Morigaon
Phone No:- 03678-241968 E_mail:- [email protected]
NIT No: CEO/MEC/APDCL(CAR)/PMAGY(Deposit)/T-6/2014/2837 Dated:8.1.14
TENDER NOTICE
Sealed tenders are invited from experienced & financially sound Electrical Contractor(s)
(individual or joint venture)/Firm(s) having valid electrical contractor license up to 11 KV for 11 KV
line construction & 33 KV for 33/11 KV Sub-Station construction, issued by the competent authority
of the Govt. Of Assam for construction of the following works under Morigaon Electrical Circle of
APDCL(CAR).
Name of Work:
1) PMAGY(Dep/J/1):- Construction of new 11 Kv line (1.700 KM), LT 3 Ph 4 W line
(5.000KM), installation of new distribution transformers (100 KVA-1 nos., 63 KVA-1
nos.), and new service connections (128 nos.) under Jagiroad Electrical Sub-Division.
2) PMAGY(Dep/Jh/2):- Construction of new 11 KV line (3.179 KM), LT 3 Ph 4 W line
(2.830 KM), Conversion of 1 Ph 2 W LT line to 3Ph 4 W LT line(1.33 KM), installation
of new distribution transformers (100 KVA-2 nos., 63 KVA-2 nos.) augmentation of 16
KVA Sub-Station to 63 KVA Sub-Station (1 no) and new service connections(47 nos.)
under Jhargaon Electrical Sub-Division.
3) PMAGY(Dep/L/3):- Construction of new 11 KV line (3.600 KM), LT 3 Ph 4 W line
(5.500 KM),installation of new distribution transformers (100 KVA-1 nos., 63 KVA-3
nos.), and new service connections(59 nos.) under Laharighat Electrical Sub-Division.
4) PMAGY(Dep/M/4):- Construction of new 11 KV line (0.600 KM), LT 3 Ph 4 W line
(1.500 KM), installation of new distribution transformers (100 KVA-1 no.) and new
service connections (21 nos.) under Morigaon Electrical Sub-Division.
The last date of sale of tender document - 19.01.2014
Date of submission - 24.01.2014 (up to 13:00 Hrs.)
Date of opening - 24.01.2014 (at 13:30 Hrs.)
Detail information can be obtained in APDCL website www.apdcl.gov.in.
Chief Executive Officer
Morigaon Electrical Circle
APDCL(CAR), Morigaon
Memo No: CEO/MEC/APDCL(CAR)/PMAGY(Deposit)/T-6/2014/ 2837 Dated:8.1.14
Copy to:
1. The CGM(D), APDCL (CAR), Bijulee Bhawan, Guwahati-01 for favour of information.
2. The PRO, APDCL. He is requested to publish the tender notice in one issue of approved
English and an Assamese daily.
3. The OSD to CMD, APDCL. He is requested to upload the detail tender notice in APDCL’s
website.
Chief Executive Officer
Morigaon Electrical Circle
APDCL(CAR), Morigaon
2
SECTION-1 (NOTICE INVITING TENDER)
3
ASSAM POWER DISTRIBUTION COMPANY LIMITED
Office of the Chief Executive Officer, Morigaon Electrical Circle, Morigaon
Phone No:- 03678-241968 E_mail:- [email protected]
NIT No: CEO/MEC/APDCL(CAR)/PMAGY(Deposit)/T-6/2014/2837 Dated:8.1.14
TENDER NOTICE
Sealed tenders are invited from experienced & financially sound Electrical Contractor(s)
(individual or joint venture)/Firm(s) having valid electrical contractor license up to 11 KV for 11 KV
line construction & 33 KV for 33/11 KV Sub-Station construction, issued by the competent authority
of the Govt. Of Assam for construction of the following works under Morigaon Electrical Circle of
APDCL(CAR).
Name of Work:
5) PMAGY(Dep/J/1):- Construction of new 11 Kv line (1.700 KM), LT 3 Ph 4 W line
(5.000KM), installation of new distribution transformers (100 KVA-1 nos., 63 KVA-1
nos.), and new service connections (128 nos.) under Jagiroad Electrical Sub-Division.
6) PMAGY(Dep/Jh/2):- Construction of new 11 KV line (3.179 KM), LT 3 Ph 4 W line
(2.830 KM), Conversion of 1 Ph 2 W LT line to 3Ph 4 W LT line(1.33 KM), installation
of new distribution transformers (100 KVA-2 nos., 63 KVA-2 nos.) augmentation of 16
KVA Sub-Station to 63 KVA Sub-Station (1 no) and new service connections(47 nos.)
under Jhargaon Electrical Sub-Division.
7) PMAGY(Dep/L/3):- Construction of new 11 KV line (3.600 KM), LT 3 Ph 4 W line
(5.500 KM),installation of new distribution transformers (100 KVA-1 nos., 63 KVA-3
nos.), and new service connections(59 nos.) under Laharighat Electrical Sub-Division.
8) PMAGY(Dep/M/4):- Construction of new 11 KV line (0.600 KM), LT 3 Ph 4 W line
(1.500 KM), installation of new distribution transformers (100 KVA-1 no.) and new
service connections (21 nos.) under Morigaon Electrical Sub-Division.
The last date of sale of tender document - 20.01.2014
Date of submission - 27.01.2014 (up to 13:00 Hrs.)
Date of opening - 27.01.2014 (at 13:30 Hrs.)
Detail information can be obtained in APDCL website www.apdcl.gov.in.
Chief Executive Officer
Morigaon Electrical Circle
APDCL(CAR), Morigaon
Memo No: CEO/MEC/APDCL(CAR)/PMAGY(Deposit)/T-6/2014/ 2837 Dated:8.1.14
Copy to:
4. The CGM(D), APDCL (CAR), Bijulee Bhawan, Guwahati-01 for favour of information.
5. The PRO, APDCL. He is requested to publish the tender notice in one issue of approved
English and an Assamese daily.
6. The OSD to CMD, APDCL. He is requested to upload the detail tender notice in APDCL’s
website.
Chief Executive Officer
Morigaon Electrical Circle
APDCL(CAR), Morigaon
4
ASSAM POWER DISTRIBUTION CO. LTD CENTRAL ASSAM REGION
NIT No. CEO/MEC/APDCL(CAR)PMAGY(DEPOSIT)/T-6/2013-14/2837 Dtd.8.1.14
Sealed Tenders are invited from experienced & financially sound Electrical Contractor(s) (individual or joint
venture)/Firm(s) having valid electrical contractor license up to 11KV for 11KV Line construction & 33kV for 33/11 KV
S/S construction, issued by the competent authority of the Govt. of Assam for construction of the following works under
Morigaon Electrical Circle of APDCL (CAR).
Name of the work: As per table below.
Eligibility Criteria: Average annual turnover of the bidder for last three consecutive financial years against the package
should be as per the requirements shown in the table below.
Cost of Tender Paper for the Package:- Rs. 3,000.00 only for package No DEP/J/1, Rs. 3,000.00 for package No
DEP/JH/1, Rs. 3,000.00 only for package No DEP/L/1, Rs. 3,000.00 only for package No DEP/M/1, in the form of A/C
Payee Demand Draft/Banker‟s Cheque (non-refundable) duly pledged in favour of “CHIEF EXECUTIVE OFFICER,
MORIGAON ELECTRICAL CIRCLE, ASSAM POWER DISTRIBUTION COMPANY LIMITED (CAR)”.
Tender paper can be purchased on all working days w.e.f. 16.01.14 to 20.01.14 from the office of the Chief Executive
Officer, APDCL(CAR), Morigaon, the Bid document can be downloaded from the APDCL‟s website: www.apdcl.gov.in
for tender submission purpose. The bidder using downloaded document will attach with their Bid an A/C payee demand
draft/Banker‟s cheque (non- refundable) amounting to Rs. 3,000.00 only for package No DEP/J/1, Rs. 3,000.00 for
package No DEP/JH/1, Rs. 3,000.00 only for package No DEP/L/1, Rs. 3,000.00 only for package No DEP/M/1, duly
pledged in favour of “CHIEF EXECUTIVE OFFICER, MORIGAON ELECTRICAL CIRCLE, ASSAM POWER
DISTRIBUTION COMPANY LIMITED (CAR)” as cost of the tender paper.
Bidder will ensure that the payment instrument submitted against the Bid must be procured on or before the
closing date of sale for Bid documents & also ensure that the documents in full is downloaded and used.
Earnest money: As shown in the table below. However, in case of SC/ST/OBC bidders, the amount will be 50% of the
shown value.
Date of submission of Tenders: Up to 13-00 Hrs. of 27-01-2014.
Date of opening of Bid: Techno commercial bids will be opened at 13-30 Hrs. Of 27.01.14 and the price bid on a
date to be notified later on.
Package No.
Description of work
Completion
period
Earnest Money
(in Rs.)
Average annual
Turnover
requirement (in
Lacs)
PMAGY(Dep/J/1)
Construction of new 11 KV line (1.700
KM), LT 3 Ph 4 W line (5.000 KM),
installation of new distribution transformers
(100 KVA- 1 nos., 63 KVA- 1 nos.), and
new service connections (128 nos.) under
Jagiroad Electrical Sub-Division.
90 days
1,00,000.00
28.00
PMAGY(Dep/JH/2)
Construction of new 11 KV line (3.179
KM), LT 3 Ph 4 W line (2.830 KM),
conversion of 1 Ph 2 W LT line to 3 P
4 W LT line (1.33 KM), installation of
new distribution transformers (100
KVA- 2 nos., 63 KVA- 2 nos.),
augmentation of 16 KVA Sub-Station
to 63 KVA Sub-Station (1 no.) and new
service connections (47 nos.) under
Jhargaon Electrical Sub-Division.
90 days
1,00,000.00
30.00
PMAGY(Dep/L/3)
Construction of new 11 KV line (3.600
KM), LT 3 Ph 4 W line (5.500 KM),
installation of new distribution
transformers (100 KVA- 1 nos., 63
KVA- 3 nos.), and new service
connections (59 nos.) under Laharighat
Electrical Sub-Division.
90 days 1,00,000.00 35.00
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PMAGY(Dep/M/4)
Construction of new 11 KV line (0.600
KM), LT 3 Ph 4 W line (1.500 KM),
installation of new distribution
transformers (100 KVA- 1 no.) and
new service connections (21 nos.)
under Morigaon Electrical Sub-
Division.
45 days 20,000.00 7.00
Note:
1. The work should be carried out as per latest REC specification and construction standard.
2. The tenderers may submit tender(s) against one package or both the packages.
3. Bids must be submitted in two parts as Techno Commercial and Price bid in two separate envelope super
scribing (a) Tender No. (b) Name of the bidder with full address (c) Name of the package against which the
bid is offered.
4. The bid against each package should be submitted in separate sealed envelopes.
5. Earnest money as stipulated should be submitted with the Techno Commercial bid in the form of
NSC/KVP/Term Deposit/FD /Bank Call Deposit only, pledged in favour of “Chief Executive Officer,
Morigaon Electrical Circle, APDCL(CAR), Morigaon”. Any tender without earnest money in the form
mentioned, will be rejected outright.
6. Part-I of the Bid shall consists of information as required and all Technical Bidding Schedules (GTP), all
Price Bidding Schedules with all quantities filled up but without any Price, etc and Part-II shall consists of
Price Bidding Schedules with all quantities and prices filled up. Details are available in General Requirements
in Section-2, Volume-1 of the Bid Document
7. Quoted rate should be inclusive of all taxes and duties and firm. Taxes should be shown separately
8. Quote rate must valid for minimum 180 days.
9. The tender should be addressed and submitted in the office of the Chief Executive Officer, Morigaon
Electrical Circle, APDCL(CAR), Morigaon and will be opened on the scheduled date & time in presence of
the intending tenderers and/or their representative.
10. Only those bidders whose Part-I Bid i.e. Techno Commercial bid (Qualification) is found acceptable, shall
be considered for opening of Price Bid. The date and time of opening of Part-II Bid (Price) shall be
communicated to those bidders whose bids are qualified for opening.
11. The Company reserves the right to accept or reject any tender in part or in full or spilt the work of any
package without showing any reason thereof.
12. The bidding documents are not transferable and cost of bidding document is not refundable under any
circumstances.
13. The bidder who has downloaded the documents from our website must intimate the same to our e-mail
address without fail.
Details may be seen in the website www.apdcl.gov.in
Chief Executive Officer
Morigaon Electrical Circle
APDCL(CAR), Morigaon.
Memo No. CEO/MEC/APDCL(CAR)PMAGY(DEPOSIT)/T-6/2013-14/ 2837 -42 Dtd.8.1.14
Copy to: -
1.PS to the Chairman cum Managing Director, APDCL, Bijulee Bhawan for kind appraisal of the CMD.
2.The General Manager, N.A Zone, APDCL (CAR), Tezpur for information.
3.The DGM, Tezpur Electrical Circle, APDCL (CAR), Tezpur, for information & necessary action.
4.The PRO, ASEB, Bijiulee Bhawan, Paltan Bazar, Guwahati for publication of the above tender in one issue of local daily
in English & Assamese” on 08 /05/2013
5.The OSD to MD, APDCL, Bijiulee Bhawan, Paltan bazaar, Guwahati for publication in the official website.
Chief Executive Officer
Morigaon Electrical Circle
APDCL(CAR), Morigaon.
6
SECTION-2
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ASSAM POWER DISTRIBUTION COMPANY LTD
OFFICE OF THE CHIEF EXECUTIVE OFFICER, MORIGAON ELECTRICAL CIRCLE
APDCL, (CAR), MORIGAON. TENDER INVITING PROPOSALS WITH TERMS & CONDITIONS
FOR CONSTRUCTION OF 11 KV LINE, LT LINE & INSTALLATION OF 11/0.4 KV
DISTRIBUTION TRANSFORMER AND SERVICE CONNECTIONS ON TURNKEY BASIS
1. Intent of the Tender Enquiry
The intent of the Tender Enquiry is to invite proposals from the prospective and relevantly experienced and
financially sound contractor(s) (individual or joint venture)/firms to carry out the works of construction of
11 KV LINE, LT LINE & INSTALLATION OF 11/0.4 KV DISTRIBUTION TRANSFORMER AND
SERVICE CONNECTIONS on turnkey basis as per the scope of work described below.
2. Scope of Work
The various activities under the scope of work shall among other related aspects cover the following. i. Procurement and supply of all materials required for the work.
ii. Site unloading, storage and handling of all materials supplied including watch and ward for safe custody.
iii. Site fabrication work as per requirement.
iv. Submission of implementation schedule from the date of award of contract for: -
v. Project management and site organization.
vi. Obtaining clearance from statutory Agencies, Govt. Departments, and Village Panchayats etc.
vii. Submission of specification/Test Certificate/Drawings etc. of all materials supplied.
viii. A list of various items normally involved in proposed type of work is provided in this document. This,
however, is not to be considered as limiting but only typical. Vendors‟ scope will include all other items and
materials as may be required to effectively complete the work.
ix. Required Jungle cutting.
Above all, the scope of work of the vendor/contractor will include all items and facilities as may be necessary
to complete the electrification work on turnkey basis and as binding requirement.
3. Basic specification of the various equipment/ works to be supplied and carried out.
i. All equipment supplied shall conform to the requirement of relevant ISS (BIS) as approved by Company and
that of REC specification and construction standards.
ii. For ready reference, the basic specification of major items, namely- Conductor, Disc insulator 45 KN, Disc
attachment for Rabbit conductor and Weasel conductor, 11 KV Porcelain Pin insulator, M.S. Channel, HT
Stay set, Guy insulator, Stay wire, CI earth pipe, GI wire 8/6 SWG, Nuts & bolts, Danger plate, pole clamps,
11KV GOAB&D.O, XLPE cable,G.I. pipes,L.A, 11/0.4KV transformer etc. are to be provided in the
Technical Specification Section. Based on this, the vendor shall draw total specification for procurement after
approval of Company.
iii. All materials supplied shall be erected, protected as per approved standard practice for proposed type of electrical work so as to supply electricity to the consumer most effectively and in an intrinsically safe manner.
iv. All equipment supplied and installed shall provide easy and effective:
All equipment supplied and installed shall be provided stable and adequate weather protection, system
earthing etc.
v. All items, which may require frequent opening up/ dismantling for maintenance, shall be adequately sealed against any tampering/ theft etc.
vi. Supply and erection of materials and system shall meet the requirement laid down by REC for rural
electrification works.
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4. Submission of bid : The bid shall be submitted in a sealed envelope as follows:
i. Techno-commercial bid
The Techno Commercial Bid will include defined vendors scope of work, responsibilities, guarantees,
specification of equipment, commercial terms and conditions, vendor’s company credentials, experience of
similar assignments, registration details, etc. as per requirement. Tender format for techno-commercial Bid is
enclosed as Annexure-I.
ii. Price Bid
The Price Bid will include rates of supply and erection of different items for electrification according to the
BOQ. The tender format for price Bid is enclosed as Annexure-II. Note:-:
a. If there is discrepancy between the unit price and the total price that is obtained by multiplying the unit price
and quantity, the unit price shall prevail and total price should be corrected. If there is a discrepancy between
the words and figures, the amount in word should prevail. If the bidder does not accept the correction of the
errors as above, his bid will be rejected and the amount of bid guarantee/security will be forfeited.
For the items in the BOQ indicated as “APDCL Supply’’, the erecting and commissioning charges only to be
offered for such items in the price bid.
b. No separate declaration offering discount on price will be allowed. Offered price in the price schedule
will be final.
c. (A) Estimation of material requirement: The total quantity of materials required is indicated in the BOQ
B) Quantity Variation: There may be increase or decrease in quantity of individual item subject to the
condition that the corresponding change in total contract value does not increase or decrease by more than
15% keeping the unit rate of individual material and labour unchanged.
C) For the items in the BOQ indicated as “APDCL Supply’’, the erecting and commissioning charges only
to be offered for such items.
5. Estimation of material requirement: The total quantity of materials required in each package is indicated
in the BOQ in Section 1, as Annexure-III for Pkg-03, Annexure-IV for Pkg-04)
6. Award of work:
i) The evaluation of bids will be carried out, first of techno-commercial bid and thereafter opening the price
bid of only those bidders who qualify and meet the technical requirements.
ii) Company reserves the right not to order/ award the job to the price-wise lowest party if the party during
any part of evaluation is found technically non responsive.
iii) Work should be started within ten (10) days from the date of issue of the work order, failing which order
will be cancelled without further correspondence.
iv) The line & S/S after completion also should be under custody of the contractor till the date of
commissioning and charging. The properties will be taken over by APDCL only after satisfactory
commissioning and charging.
7. Period of completion:
a) 3(Three) months, for pkg. (03) from the date of award of work contract.
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8. Implementation schedule:
Construction of new 11 KV line (1.700 KM), LT 3 Ph 4 W line (5.000 KM), installation of new distribution transformers (100 KVA-
1 nos., 63 KVA- 1 nos.), and new service connections (128 nos.) under Jagiroad Electrical Sub-Division,
Construction of new 11 KV line (3.179 KM), LT 3 Ph 4 W line (2.830 KM), conversion of 1 Ph 2 W LT line to 3 P 4 W LT line (1.33
KM), installation of new distribution transformers (100 KVA- 2 nos., 63 KVA- 2 nos.), augmentation of 16 KVA Sub-Station to 63
KVA Sub-Station (1 no.) and new service connections (47 nos.) under Jhargaon Electrical Sub-Division.
Construction of new 11 KV line (3.600 KM), LT 3 Ph 4 W line (5.500 KM), installation of new distribution transformers (100 KVA-
1 nos., 63 KVA- 3 nos.), and new service connections (59 nos.) under Laharighat Electrical Sub-Division.
Construction of new 11 KV line (0.600 KM), LT 3 Ph 4 W line (1.500 KM), installation of new distribution transformers (100 KVA-
1 no.) and new service connections (21 nos.) under Morigaon Electrical Sub-Division.
For package : DEP/J/1, DEP/L/1, DEP/JH/1.
Sl
no. Description
EXECUTION PERIOD
5 d
ays
3 d
ays
30
days
30
days
1
0
days
12
days
1 Signing of Agreement
2 Survey works
3 Manufacture & supply of
materials
4 Erection of equipments
5 Testing & commissioning
For package : DEP/M/1
Sl
no. Description
EXECUTION PERIOD
5
days
3
days
10
days
10
days
8
days
9
days
1 Signing of Agreement
2 Survey works
3 Manufacture & supply of
materials
4 Erection of equipments
5 Testing & commissioning
P a g e |
9. Termination of work order: Company reserves the right to terminate the work order at any
stage in accordance with the Company’s General Condition of Supply and Erection.
10.1 Terms of Payment: During currency of the Contract, maximum 3(Three) nos. of
progressive Bills will be allowed. Each progressive Bill should contain items of works which are
completed in all respect of supply, erection for the identified locations. 80% of each progressive
Bill shall be paid retaining 20% by the company (APDCL). Final Bills will be paid comprising
balance works beyond the works already claimed in the progressive Bills along with 20% of the
amount retained against the progressive Bills subject to testing and commissioning & fulfilment
of clause-14(d).
10.2 Earnest Money Deposit (EMD): The Tender must be accompanied with earnest money as
mentioned in the NIT against each package to be deposited in the form of NSC/KVP/Term
Deposit/FD/Bank Call Deposit, pledged in favour of “CHIEF EXECUTIVE OFFICER,
MORIGAON ELECTRICAL CIRCLE, APDCL(CAR), MORIGAON”. The earnest money to the
unsuccessful bidders will be released on finalization of the tenders. The EMD to the successful
bidder will be released on submission of Security Deposit at the time of execution of the
agreement.
10.3 Security deposit and agreement: The successful bidders shall have to deposit security
money in the form of Bank Guarantee issued by any Nationalized Bank/Scheduled Bank in
Company‟s standard format on non-judicial stamp of appropriate value for an amount equal to
2.5% of the contract value at the time of execution of agreement. The security deposit is liable to
be forfeited in case of non-execution of contract/ work order. The security deposit will be
released on successful commissioning and testing of the materials ordered and after depositing
performance B/G as per clause 14(d).
11. Basic qualifying requirement: The prospective bidder must fulfil the following pre-bid
qualifying requirement
a. The bidder must have valid electrical Contractor Licence and Supervisor License (HT) up to
at least 11KV for Pkg.- 1,2,3 and 4 issued by the Licensing Authority of Govt. Of Assam. .
b. The bidder for must have adequate experience of doing similar 11KV and LT Line construction
job on turnkey basis for at least 15 KM in total and which must be in satisfactory operation for at
least 1(one) year as on the date of bid opening.
c. Average annual turnover of the bidder for last three consecutive financial years should be at
least as per the requirement shown in the table against particular package or packages and the
annual turnover should be certified by a registered Chartered Accountant with balance sheet.
d. The bidder shall furnish latest Income Tax clearance certificate and sales tax registration and
valid Labour License, Employees’ P.F registration and WCT registration Certificate.
e. The bidder shall furnish details of the work / works along with its value already in hand either
of APDCL, or in any other successor companies of ASEB along with date of completion as per
Letter of Award and actual date of completion duly certified by the competent authority as per
format enclosed as Annexure-IA. This requirement shall be treated as one of the major
qualifying criteria for technical evaluation of the bid.
f. Joint venture agreement should be a registered one or certified by Notary.
g. Power of attorney should be a registered one.
12. Other requirements: The Tenderer
i) Should be acquainted himself or his associate with relevant conditions of the local geography
and socio- economic setup of the different location of the State and being capable accordingly to
mobilize, organize and expedite the activities.
ii) Should have adequate working personnel comprising of Electrical/ Mechanical engineers,
electrical supervisor, skilled and unskilled labour to be deputed to the proposed assignment.
iii) Should be conversant with the code/ standards applicable to proposed type of work. ISS, REC
guidelines.
13. Project Management and site Organizations:
In Consideration of the tight schedule of the project, the successful bidder(s) /Contractor(s) shall
exercise systematic closely controlled project management system with the aid of commonly used
P a g e |
soft tools. Following are the major activities/deliverables to be organized /generated for
submission to the Board. (I) Work Progress Report:
milestones.
Fortnightly progress report will invariably be submitted to the concern Chief Executive
Officer, Assistant General Manager & Sub-Divisional Engineers.
The progress report will highlight the points like, work completion vis-à-vis planned, plan for
next working period, delay analysis vis-à-vis committed schedule with reasons and remedies etc.
(II) Site Organization.
The vendor at each working site shall establish the following.
All offices shall be adequately furnished and staffed so as to take all site decisions independently
without frequent references to head Work‟s/offices.
14. Guarantees and Penalties a) Liquidated Damages (LD): The proposed work is on top priority of Government of Assam and
therefore has to be completed within stipulated/agreed schedule. Any delay beyond that will
attract penalty as per Company’s general condition of supply and erection.
b) Equipment and system installed shall be guaranteed individually for integrated operations for a
period of 18 (Eighteen) months from date of commissioning of a system. In case of detection of
any defect in individual equipment or system as a whole, the same shall be replaced by the vendor
free of cost within 15 days of intimation by the Company’s representative.
c) Warranty from the manufacturer shall be produced along with manufacturer’s test certificate
for the following items
of Insulators with Hardware fittings.
PSC Pole
Transformer,
ally covered under Manufacturer’s warranty
d) A performance Bank Guarantee from a Nationalized Bank/Scheduled Bank in APDCL’s
standard format on Non judicial stamp paper of appropriate value with a validity of 18 (eighteen)
months @ 10% of total value of work executed shall have to be furnished by the Contractor
before final payment.
e) All Bank Guarantees (BG) to be submitted as per the clauses above should be from any branch of
nationalized or scheduled Bank of RBI having their regional offices in Assam. 15. Approvals/Clearances:
1. Concerned CEO, APDCL, Morigaon shall approve all site and documents prepared by the
contractor for construction of the Line.
2. GTP and drawings of all equipment/ materials shall be approved by CEO, APDCL (CAR),
Morigaon.
3. The contractor shall obtain all statutory approvals and clearances from the statutory authorities
before charging the system at his/her own
16. Environmental Considerations:
While carrying out the assignment, no damage to environment /forests will be caused by the
contractor. If so done, the contractor will have to compensate the same to the satisfaction of the
concerned authority.
17. Submission of documents.
a) With bids.- i) Detail list of makes and materials offered with catalogues, technical specification etc.
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ii) Certificates and testimonials in support of credentials of the bidder’s organization. Turnover of
the vendor has to be certified by Chartered Account.
iii) Details past experience.
iv) Brief write-up on methodology to carry out the assignment, if awarded.
v) Details of manpower to be engaged for the assignments, Employees’P.F. registration.
vi) Any other information, the vendor may feel facilitative in evaluating the bid.
vii) Copies of contractor and supervisor’s license, Income Tax clearance certificate, turnover, etc.
viii) Photo copy of the PAN card.
b) During project execution :-
i) All documents for approval shall be submitted in 2 copies.
ii) All final documents to be submitted to statutory organizations will be furnished as per
requirement of the authority.
18. Funding of the project.
The proposed work is to be done under PMAGY Scheme- Deposit Head.
19. Disclaimer:
While the Company will make every endeavour to extend necessary facilitation in expediting the
work, the contractor shall be responsible to organize and arrange all necessary inputs right from
mobilization activities up to completion of the project. Company will not entertain any failure /
delay on such accounts. Also, Company will not be responsible for any compensation,
replenishment, damage, theft etc. as may be caused due to negligent working, insufficient
coordination with Government / non Government / Local Authority by the contractor and/ or his
personnel deputed for work. The contractor shall take necessary coverage under LIC/GIC etc. for
his working personnel and the goods in store as well as in transit. The contractor will be deemed
to have made him acquainted with the local working conditions at site(s) and fully provide for
into the bid submitted.
20. Terms and conditions, which are not specified, herein above will be governed by the
Company’s General Terms and Conditions of supply and erection.
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Annexure - I Tender Proforma part – I (Techno-commercial Bid)
NIT No. CEO/MEC/APDCL(CAR)/PMAGY(DEPOSIT)/T-6/2013-2014/2837 dt: 8.1.14
Due date of Tender: 27.01.2014
1. Name and full address of the Tenderer.:
2. Particulars of payment made for Purpose of
tender documents money Receipt No: and Date.
3. Amount of earnest money paid with
Money receipt No and date Deposit No. and Date.:
4. Whether Sales Tax and Income Tax Yes / No
Clearance certificate submitted:
5. Sales Tax Registration No:
6. WCT registration certificate with validity:
7. P.F Registration No.:
8. Acceptance of guarantee clause of
Materials /equipment and system Installed individually
and for integrated operation.:
9. Acceptance of penalty clause:
10. Acceptance of terms of payment:
11. Certificate/ documents regarding works
Done with value with last three years if any
(Awarded by APDCL and other successor Companies)-
a separate sheet if required may be enclosed as per Annexure-I(A)
12. Details about carrying out electrification
Work of at least one (one) similar to this work:
13. Details of manpower and T&Ps including
Vehicles available with the firm to be enclosed separately:
14. List of documents enclosed with serial number:
(All enclosures should be in chronological order
as per the list of documents enclosed.)ANNEXURE I(B) . Signature With full name and Designation of the Bidder / (Authorized person)
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ANNEXURE-I(A)
List of ongoing & completed project of APDCL & other Successor companies .
Sl No
Name of work
Order No
Contact Value
Scheme Stipulated date of completion as per order
Date of actual completion ,(if not completed the present status).
Remarks
1
2
3
4
5
Note : This annexure must be certified by concern officer not less than the rank
of CEO.
BIDDER’S INFORMATION SHEET
Bidder’s Information
Bidder’s legal name
In case of JV, legal name of each partner
Bidder’s country of constitution
Bidder’s legal name on country of constitution
Bidder’s authorized representative
(name ,address, telephone no., email address.)
Attached are the copies of the following original documents.
a) In case of single entity, articles of incorporation or constitution of the legal entity named above, in
accordance with ITB 4.1. and 4.2.
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Sl
No. Qualification Requirement
Furnished
at
Annexure
Page
No. Remark
A LEGAL
1 Document in support of legal status of firm
2 Memorandum of Association &Registered/Notorised Joint venture Agreement if JV
3 Registered/Notaries power of attorney of the signatory of the Bidder to participate in the Bid.
4 Board resolution of the company to authorizing the signatory
5 Information regarding any litigation, current or during the last five years, in which the Bidder
is involved, the parties concerned, and disputed amount
6 Valid Electrical Contractor's License
7 Valid Electrical & Supervisory License
8 VAT,CST,WCT,Service Tax registration certificate
9 Provident Fund Registration Certificate
B Financial
1 Audited Balance sheet, Profit & Loss account, Auditor’s report for last three year
2 CA Certified Turnover of bidder during the last 3(three) years.
3 Evidence of adequacy of working capital for this contract (access to line (s) of credit and
availability of other financial resources)
4 Authority to seek references from the Bidder's Bankers
5 Income Tax return for last 3(three) years
6 Value of similar work performed by the bidder in each of the last five years - Statement
7 Proposals for subcontracting components of the Works amounting to more than 10 percent
of the Contract Price
8 Details of the EMD (FD/KVP/TD/Bank Call Deposit)
C Technical ability and experience
1 Experience in works of a similar nature and volume for each of the details of works under
way or contractually committed including full address of client for communication- Statement
2
Certificates issued by an Engineer not below the Cadre of Deputy General Manager/SE
along with supporting photo-copies of agreements for the works executed in any one year
(12 months)
3 Detailed activity plan and methodology supported with layout and necessary drawings and
calculations (detailed) to allow the employer to review their proposals.
4 Quality Assurance plan with Bar Chart
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5 List of technical personnel and their qualification and experience with organisation chart
6 Proof of availability of the tools, tackles, spare parts, etc. for carrying out the works.
D Technical particulars of equipments and Materials offered in the BOQ&their GTPs
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SECTION-3 BILL OF QUANTITY AND PRICE BID
SCHEDULE
ANNEXURE- I(B) Tender Proforma part-II (Price Bid)
NIT No. CEO/MEC/APDCL(CAR)/PMAGY(DEPOSIT)/T-6/2013-14/2837 Due date of Tender:
27.01.2014
P a g e |
Performa for unit rate inclusive of all duties & taxes in respect of supply, erection,testing and
commissioning
Package for which tendered: -
Name and full address of the Tenderer:
Sl. No Item Unit Quantity
Cost of materials
inclusive of freight,
insurance handling
from manufacturer
unit to work site
(inclusive of all taxes
& duties) Rs.
Cost of
erection/dismantling
of materials & testing
& commissioning
(inclusive of all taxes &
duties) Rs.
Grand total
in Rs.
Unit
Rate Total
Unit
Rate Total
1
2
3
4
5
6=(4x5)
7
8=(4x7)
9=(6+8)
As per
BOQ
As per
BOQ
As per
BOQ
Signature with full name
And designation of the Bidder
(Authorized person)
P a g e |
DETAIL WORK PARAMETER FOR Package PMAGY(Dep/J/1)
under Jagiroad Electrical Sub-Division.
Sl No Item of Description Unit
Quantity
1 Construction of 11KV Line on 8.5M PSC Pole
a) Borpak Jungle 0.7 Km
b) Thengbhanga 1.0 Km
Km
1.7 Km
2. Construction of LT Line 3Ph 4 Wire on 8.5M
PSC Pole
a) Borpak Jungle 1.0 Km
b) Thengbhanga 4.0 Km
Km
5.0 Km
3. Construction of 11/0.433 KV Sub Station
a) Borpak Jungle - 63KVA 1 No
b) Thengbhanga - 100 KVA 1 No
Total 100 KVA = 1 No
Total 63 KVA = 1 No
No
No
1 No
1 No
4. New Service Connection to the House hold
a) Borpak Jungle 49 Nos
b) Thengbhanga 5 Nos
c) Bodoloni 74 Nos
No
128 Nos
ANNEXURE – III
BOQ for Construction of new 11 KV line (1.700 KM), LT 3 Ph 4 W line (5.000 KM),
P a g e |
installation of new distribution transformers (100 KVA- 1 nos., 63 KVA- 1 nos.), and new
service connections (128 nos.) under Morigaon Electrical Circle under Jagiroad Electrical Sub-
Division.
( ERECTION OF THE MATERIALS INCLUDING FITTING ,FIXING, LAYING, DISMANTLING &
COMMISSIONING AS REQUIRED)
Sl.
No. Brief Item Description Unit Quantity
A Construction of 11 KV line with PSC Poles
1
Supply and erection of 8.5 Mtr PSC pole including boulder
packing for 11 KV line. No 37
2
Supply, Fitting and Fixing of MS Channel (100x50x6x2200
mm) on pole structure with necesssary pole clamp, nuts
and bolts, drilling of holes etc.
No 19
3
Supply, fitting and fixing of 11 KV T Cross arm, nuts and
bolts, drilling of holes etc. No 24
4
Supply, Fitting and Fixing of MS Channel (75x40x6x2200
mm) with necesssary pole clamp, nuts and bolts, drilling of
holes etc.
No 17
5
Supply, fitting and fixing of M.S. Angle for cross braching
(50x50x6x5000 mm) with nuts and bolts, drilling of holes
etc.
No 20
6
Supply, fitting and fixing of 11 KV Disc Insulator 45 KN
(T&C) with hardware fittings, tension clamps etc. as per
direction.
No 61
7 Supply, fitting and fixing of 11 KV Pin Insulator with GI Pin. No 97
8
Supply and stringing of AAA Rabbit Conductor, tensioning
with clamp, bindings, jumpering with PG clamps, jointing
sleeves for line
Cond. Km 5.610
9 Supply, fitting and fixing of HT stay set complete with
digging of earth along with fitting of stay wire 7/10 SWG
and HT guy insulator for line.
Set 14
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10 Supply, fitting and fixing of Barbed wire on HT poles @ 2 kg
per pole as anti climbing device. Kg 56
11
Supply, fitting and fixing of CI earth pipe by digging of pit as
per direction with necessary connection with strips, GI wire
6 SWG for earthing as per direction (for guard earthing).
No 9
12 Supply, fitting and fixing of HT Danger plate on 8.5 m PSC
pole No 37
B)
Construction of 11/0.4 KV 63 KVA Sub-Station, 11/0.4 KV
100 KVA Sub-Station, augmentation of 16 KVA to 63 KVA
Sub-Station including metering in LV side.
1 Supply and erection of 8.5 Mtr PSC pole including boulder
packing. No 4
2
Supply , installation and commissioning of 11/0.4 KV, 63
KVA Transformer including all accessories( Lugs, Clamps
and MS Nuts and Bolts etc.) with security fencing.
No 1
3
Supply , installation and commissioning of 11/0.4 KV, 100
KVA Transformer including all accessories( Lugs, Clamps
and MS Nuts and Bolts etc.) with security fencing.
No 1
4
Supply, Fitting and Fixing of MS Channel (100x50x6x2200
mm) on DP structure with necesssary MS pole clamp, nuts
and bolts, drilling of holes etc. for S/S.
No 16
5 Supply, Fitting and Fixing of LT Angle Cross Arm
(40x40x5x500 mm). No 12
6 Supply, fitting and fixing of 11 KV 9 KA L.A. on top channel
of Sub-Station as per direction. Set 2
7 Supply, fitting and fixing of 11 KV D.O. fuse set with M.S
Nuts and bolts on MS channel as per direction. Set 2
8
Supply, Fitting and Fixing of 11 KV GOAB switch with
necessary MS Nuts and Bolts on MS Channel and as per
direction for DTR Sub-Station
Set 2
9 Supply, fitting and fixing of 11 KV Pin Insulator with GI Pin. No 12
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10
Supply, fitting and fixing of CI earth pipe by digging of pit as
per direction with necessary connection with strips, GI wire
6 SWG for earthing as per direction (for sub-station
earthing).
No 12
11
Supply, fitting and fixing of Cubicle (with necessary bus bar,
Trivector meter, MCCB, LT CT etc.) suitable for 63 KVA
transformer
No 1
12
Supply, fitting and fixing of Cubicle (with necessary bus bar,
Trivector meter, MCCB, LT CT etc.) suitable for 100 KVA
transformer
No 1
13 Supply and stringing of AAA Rabbit Conductor with PG
clamps, bindings required in Sub-Station Km 0.060
14 Supply, fitting and fixing of 11 KV Danger plate on 8.5 m
PSC Pole No 4
15 Supply and fitting of L.T. XLPE Cable 1 core 120 sq. mm (Al)
for 63 KVA DTR Mtr 60
16 Supply and fitting of L.T. XLPE Cable 1 core 120 sq. mm (Al)
for 100 KVA DTR Mtr 60
17 Supply and fitting of H.T. bimetallic cable connector No 6
18 Supply and fitting of L.T. bimetallic cable connector No 8
C)
Construction of 3 Ph 4 Wire LT line with rabbit conductor
with conversion of 1 P 2 W to 3 P 4 W LT line .
1 Supply and erection of 8.5 Mtr PSC pole including boulder
packing for LT line. No 105
2
Supply, fitting and fixing of LT angle X arm (40x40x5x500)
with necessary MS pole clamps, MS nuts and bolts, drilling
of holes etc.
No 84
3 Supply , fitting and fixing of LT pin insulator with GI pin No 420
4 Supply, fitting and fixing of Shackle Insulator with shackle
straps with MS nuts and bolts No 160
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5
Supply, fitting and fixing of LT stay set complete with
digging of earth along with fitting with stay wire 7/14 SWG
and LT Guy Insulator for LT line
Set 40
6
Supply and stringing of AAA Rabbit conductor tensioning
with clamp, bindings, jointing sleeves etc. in LT line
including jungle cutting as per direction.
Cond. Km 22
7 Supply, fitting and fixing of LT Danger plate on 8.5 m PSC
Pole No 130
D) New Service Connection
1 Supply, fitting and fixing of GI Pipe 25 sq. mm Mtr 397
2 Supply, fitting and fixing of GI Bend 25 sq. mm No 256
3 Supply, fitting and fixing of Pipe clamps No 256
4 Supply, fitting and fixing of GI Socket 25 Sq. mm. No 256
5
Supply, fitting and fixing of CI earth pipe by digging of pit as
per direction with necessary connection with strips, GI wire
8 SWG for earthing as per direction.
No 128
6 Supply and fitting of PVC Cable 1 core 4 sq. mm. Mtr 5760
7 Supply, fitting and fixing of MCCB 32 A. No 128
8 Supply, fitting and fixing of Switch Board (Wooden) No 128
9 Supply of CFL bulb 15 W Philips/ Bajaj No 256
10 Supply, fitting and fixing of switch 5A (Havells make) No 256
N.B: Meter will be supplied by APDCL.
DETAIL WORK PARAMETER FOR Package PMAGY(Dep/JH/2) under
Jhargaon Electrical Sub-Division.
P a g e |
Sl No Item of Description Unit Quantity
1 Construction of 11KV Line on 8.5M PSC Pole
a) Baramari Pam 0.6 Km
b) 1 No Murakata 2.0 Km
c) 2 No Murakata 0.579Km Km 3.179 Km
2. Construction of LT Line 3Ph 4 Wire on 8.5M
PSC Pole
a) Baramari Pam 0.7 Km
b) 1 No Murakata 2.13 Km
c) 2 No Murakata Km 2.83 Km
3. Conversion of LT Line from 1Ph 2 Wire to
3 Ph 4 Wire
A) Baramari Pam 1.33 Km Km 1.33 Km
4. Construction of 11/0.433 KV Sub Station
a) Baramari Pam - 63KVA 1 No
b) 1 No Murakata - 63KVA+100KVA, 1+1 No
c) 2 No Murakata -100KVA 1 No
Total 100 KVA = 2 Nos No 2 Nos
Total 63 KVA = 2 Nos No 2 Nos
5. Augmentation of 16 KVA DTR to 63 KVA DTR
a) Baramari Pam 1 No No 1 No
6. New Service Connection to the House hold
a) Baramari Pam 21 Nos
b) 2 No Murakata 26 Nos No 47 Nos
P a g e |
ANNEXURE-IV
Name of work:- Construction of new 11 KV line (3.179 KM), LT 3 Ph 4 W line (2.830 KM), conversion of 1 Ph 2 W LT line to 3 P 4 W LT line (1.33 KM), installation of new distribution transformers (100 KVA- 2 nos., 63 KVA- 2 nos.), augmentation of 16 KVA Sub-Station to 63 KVA Sub-Station (1 no.) and new service connections (47 nos.) under Morigaon Electrical Circle under
PMAGY Scheme (JHARGAON PACKAGE). ( ERECTION OF THE MATERIALS INCLUDING
FITTING ,FIXING, LAYING, DISMANTLING & COMMISSIONING AS REQUIRED)
Sl. No. Brief Item Description Unit
Quantity
A Construction of 11 KV line with PSC Poles
1
Supply and erection of 8.5 Mtr PSC pole including boulder packing for 11 KV line.
No 70
2 Supply, Fitting and Fixing of MS Channel (100x50x6x2200 mm) on pole structure with necesssary pole clamp, nuts and bolts, drilling of holes etc.
No 35
3 Supply, fitting and fixing of 11 KV T Cross arm, nuts and bolts, drilling of holes etc.
No 45
4 Supply, Fitting and Fixing of MS Channel (75x40x6x2200 mm) with necesssary pole clamp, nuts and bolts, drilling of holes etc.
No 32
5 Supply, fitting and fixing of M.S. Angle for cross braching (50x50x6x5000 mm) with nuts and bolts, drilling of holes etc.
No 38
6 Supply, fitting and fixing of 11 KV Disc Insulator 45 KN (T&C) with
hardware fittings, tension clamps etc. as per direction. No 114
7 Supply, fitting and fixing of 11 KV Pin Insulator with GI Pin. No 181
8 Supply and stringing of AAA Rabbit Conductor, tensioning with clamp, bindings, jumpering with PG clamps, jointing sleeves for line
Cond. Km
10.491
9 Supply, fitting and fixing of HT stay set complete with digging of earth along with fitting of stay wire 7/10 SWG and HT guy insulator for line.
Set 25
10 Supply, fitting and fixing of Barbed wire on HT poles @ 2 kg per pole as anti climbing device.
Kg 105
11 Supply, fitting and fixing of CI earth pipe by digging of pit as per direction with necessary connection with strips, GI wire 6 SWG for earthing as per direction (for guard earthing).
No 16
12 Supply, fitting and fixing of HT Danger plate on 8.5 m PSC pole
No 70
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B) Construction of 11/0.4 KV 63 KVA Sub-Station, 11/0.4 KV 100 KVA Sub-Station, augmentation of 16 KVA to 63 KVA Sub-Station including metering in LV side.
1 Supply and erection of 8.5 Mtr PSC pole including boulder packing. No 8
2 Supply , installation and commissioning of 11/0.4 KV, 63 KVA Transformer including all accessories( Lugs, Clamps and MS Nuts and Bolts etc.) with security fencing.
No 3
3 Supply , installation and commissioning of 11/0.4 KV, 100 KVA Transformer including all accessories( Lugs, Clamps and MS Nuts and Bolts etc.) with security fencing.
No 2
4 Supply, Fitting and Fixing of MS Channel (100x50x6x2200 mm) on DP structure with necesssary MS pole clamp, nuts and bolts, drilling of holes etc. for S/S.
No 40
5 Supply, Fitting and Fixing of LT Angle Cross Arm (40x40x5x500 mm).
No 26
6 Supply, fitting and fixing of 11 KV 9 KA L.A. on top channel of Sub-Station as per direction.
Set 4
7 Supply, fitting and fixing of 11 KV D.O. fuse set with M.S Nuts and bolts on MS channel as per direction.
Set 5
8 Supply, Fitting and Fixing of 11 KV GOAB switch with necessary MS Nuts and Bolts on MS Channel and as per direction for DTR Sub-Station
Set 5
9 Supply, fitting and fixing of 11 KV Pin Insulator with GI Pin. No 24
10 Supply, fitting and fixing of CI earth pipe by digging of pit as per direction with necessary connection with strips, GI wire 6 SWG for earthing as per direction (for sub-station earthing).
No 30
11 Supply, fitting and fixing of Cubicle (with necessary bus bar, Trivector meter, MCCB, LT CT etc.) suitable for 63 KVA transformer
No 3
12 Supply, fitting and fixing of Cubicle (with necessary bus bar, Trivector meter, MCCB, LT CT etc.) suitable for 100 KVA transformer
No 2
13 Supply and stringing of AAA Rabbit Conductor with PG clamps, bindings required in Sub-Station
Km 0.120
14 Supply, fitting and fixing of 11 KV Danger plate on 8.5 m PSC Pole No 8
15 Supply and fitting of L.T. XLPE Cable 1 core 120 sq. mm (Al) for 63 KVA DTR
Mtr 180
16 Supply and fitting of L.T. XLPE Cable 1 core 120 sq. mm (Al) for 100 KVA DTR
Mtr 120
17 Supply and fitting of H.T. bimetallic cable connector No 15
18 Supply and fitting of L.T. bimetallic cable connector No 20
P a g e |
C)
Construction of 3 Ph 4 Wire LT line with rabbit conductor with conversion of 1 P 2 W to 3 P 4 W LT line .
1 Supply and erection of 8.5 Mtr PSC pole including boulder packing for LT line.
No 59
2 Supply, fitting and fixing of LT angle X arm (40x40x5x500) with necessary MS pole clamps, MS nuts and bolts, drilling of holes etc.
No 159
3 Supply , fitting and fixing of LT pin insulator with GI pin No 294
4 Supply, fitting and fixing of Shackle Insulator with shackle straps with MS nuts and bolts
No 112
5 Supply, fitting and fixing of LT stay set complete with digging of earth along with fitting with stay wire 7/14 SWG and LT Guy Insulator for LT line
Set 23
6 Supply and stringing of AAA Rabbit conductor tensioning with clamp, bindings, jointing sleeves etc. in LT line including jungle cutting as per direction.
Cond. Km
15
7 Supply, fitting and fixing of LT Danger plate on 8.5 m PSC Pole
No 74
D) New Service Connection 1 Supply, fitting and fixing of GI Pipe 25 sq. mm Mtr 146
2 Supply, fitting and fixing of GI Bend 25 sq. mm No 94
3 Supply, fitting and fixing of Pipe clamps No 94
4 Supply, fitting and fixing of GI Socket 25 Sq. mm. No 94
5 Supply, fitting and fixing of CI earth pipe by digging of pit as per direction with necessary connection with strips, GI wire 8 SWG for earthing as per direction.
No 96
6 Supply and fitting of PVC Cable 1 core 4 sq. mm. Mtr 2115
7 Supply, fitting and fixing of MCCB 32 A. No 47
8 Supply, fitting and fixing of Switch Board (Wooden) No 47
9 Supply of CFL bulb 15 W Philips/ Bajaj No 94
10 Supply, fitting and fixing of switch 5A (Havells make) No 94
N.B.: Meter will be supplied by APDCL.
DETAIL WORK PARAMETER FOR Package PMAGY(Dep/L/3) under
Laharighat Electrical Sub-Division.
Sl No Item of Description Unit Quantity
P a g e |
1 Construction of 11KV Line on 8.5M PSC Pole
a) Jengpori 1.5 Km
b) 1 No Borpathar 0.6 Km
c) 2 No Sundubatup 1.5Km Km 3.6 Km
2. Construction of LT Line 3Ph 4 Wire on 8.5M
PSC Pole
a) Jengpori 2.0 Km
b) 1 No Borpathar 1.0 Km
c) 2 No Sundubatup 2.5 Km Km 5.5 Km
3. Construction of 11/0.433 KV Sub Station
a) Jengpori - 63KVA 1 No
b) 1 No Borpathar - 100KVA 1 No
c) 2 No Sundubatup -63KVA 2 No
Total 100 KVA = 1 No No 1 No
Total 63 KVA = 3 Nos No 3 Nos
4. New Service Connection to the House hold
a) Jengpori 20 Nos
b) 1 No Borpathar 21 Nos
c) 2 No Sundubatup 18 Nos No 59 Nos
ANNEXURE-V
Name of work:- Construction of new 11 KV line (3.600 KM), LT 3 Ph 4 W line (5.500 KM), installation of new distribution transformers (100 KVA- 1 nos., 63 KVA- 3 nos.), and new service
P a g e |
connections (59 nos.) under Morigaon Electrical Circle under PMAGY Scheme. (LAHARIGHAT
PACKAGE). ( ERECTION OF THE MATERIALS INCLUDING FITTING ,FIXING, LAYING,
DISMANTLING & COMMISSIONING AS REQUIRED).
Sl. No. Brief Item Description Unit
Quantity
A Construction of 11 KV line with PSC Poles
1
Supply and erection of 8.5 Mtr PSC pole including boulder packing for 11 KV line.
No 79
2 Supply, Fitting and Fixing of MS Channel (100x50x6x2200 mm) on pole structure with necesssary pole clamp, nuts and bolts, drilling of holes etc.
No 40
3 Supply, fitting and fixing of 11 KV T Cross arm, nuts and bolts, drilling of holes etc.
No 50
4 Supply, Fitting and Fixing of MS Channel (75x40x6x2200 mm) with necesssary pole clamp, nuts and bolts, drilling of holes etc.
No 36
5 Supply, fitting and fixing of M.S. Angle for cross braching (50x50x6x5000 mm) with nuts and bolts, drilling of holes etc.
No 43
6 Supply, fitting and fixing of 11 KV Disc Insulator 45 KN (T&C) with
hardware fittings, tension clamps etc. as per direction. No 130
7 Supply, fitting and fixing of 11 KV Pin Insulator with GI Pin. No 205
8 Supply and stringing of AAA Rabbit Conductor, tensioning with clamp, bindings, jumpering with PG clamps, jointing sleeves for line
Cond. Km
11.880
9 Supply, fitting and fixing of HT stay set complete with digging of earth along with fitting of stay wire 7/10 SWG and HT guy insulator for line.
Set 29
10 Supply, fitting and fixing of Barbed wire on HT poles @ 2 kg per pole as anti climbing device.
Kg 119
11 Supply, fitting and fixing of CI earth pipe by digging of pit as per direction with necessary connection with strips, GI wire 6 SWG for earthing as per direction (for guard earthing).
No 18
12 Supply, fitting and fixing of HT Danger plate on 8.5 m PSC pole
No 79
P a g e |
B) Construction of 11/0.4 KV 63 KVA Sub-Station, 11/0.4 KV 100 KVA Sub-Station, augmentation of 16 KVA to 63 KVA Sub-Station including metering in LV side.
1 Supply and erection of 8.5 Mtr PSC pole including boulder packing. No 8
2 Supply , installation and commissioning of 11/0.4 KV, 63 KVA Transformer including all accessories( Lugs, Clamps and MS Nuts and Bolts etc.) with security fencing.
No 3
3 Supply , installation and commissioning of 11/0.4 KV, 100 KVA Transformer including all accessories( Lugs, Clamps and MS Nuts and Bolts etc.) with security fencing.
No 1
4 Supply, Fitting and Fixing of MS Channel (100x50x6x2200 mm) on DP structure with necesssary MS pole clamp, nuts and bolts, drilling of holes etc. for S/S.
No 32
5 Supply, Fitting and Fixing of LT Angle Cross Arm (40x40x5x500 mm).
No 24
6 Supply, fitting and fixing of 11 KV 9 KA L.A. on top channel of Sub-Station as per direction.
Set 4
7 Supply, fitting and fixing of 11 KV D.O. fuse set with M.S Nuts and bolts on MS channel as per direction.
Set 4
8 Supply, Fitting and Fixing of 11 KV GOAB switch with necessary MS Nuts and Bolts on MS Channel and as per direction for DTR Sub-Station
Set 4
9 Supply, fitting and fixing of 11 KV Pin Insulator with GI Pin. No 6
10 Supply, fitting and fixing of CI earth pipe by digging of pit as per direction with necessary connection with strips, GI wire 6 SWG for earthing as per direction (for sub-station earthing).
No 24
11 Supply, fitting and fixing of Cubicle (with necessary bus bar, Trivector meter, MCCB, LT CT etc.) suitable for 63 KVA transformer
No 3
12 Supply, fitting and fixing of Cubicle (with necessary bus bar, Trivector meter, MCCB, LT CT etc.) suitable for 100 KVA transformer
No 1
13 Supply and stringing of AAA Rabbit Conductor with PG clamps, bindings required in Sub-Station
Km 0.120
14 Supply, fitting and fixing of 11 KV Danger plate on 8.5 m PSC Pole
No 8
15 Supply and fitting of L.T. XLPE Cable 1 core 120 sq. mm (Al) for 63 KVA DTR
Mtr 240
16 Supply and fitting of L.T. XLPE Cable 1 core 120 sq. mm (Al) for 100 KVA DTR
Mtr 38
17 Supply and fitting of H.T. bimetallic cable connector No 12
18 Supply and fitting of L.T. bimetallic cable connector No 16
P a g e |
C)
Construction of 3 Ph 4 Wire LT line with rabbit conductor with conversion of 1 P 2 W to 3 P 4 W LT line .
1 Supply and erection of 8.5 Mtr PSC pole including boulder packing for LT line.
No 116
2 Supply, fitting and fixing of LT angle X arm (40x40x5x500) with necessary MS pole clamps, MS nuts and bolts, drilling of holes etc.
No 231
3 Supply , fitting and fixing of LT pin insulator with GI pin No 462
4 Supply, fitting and fixing of Shackle Insulator with shackle straps with MS nuts and bolts
No 176
5 Supply, fitting and fixing of LT stay set complete with digging of earth along with fitting with stay wire 7/14 SWG and LT Guy Insulator for LT line
Set 44
6 Supply and stringing of AAA Rabbit conductor tensioning with clamp, bindings, jointing sleeves etc. in LT line including jungle cutting as per direction.
Cond. Km
24
7 Supply, fitting and fixing of LT Danger plate on 8.5 m PSC Pole
No 143
D) New Service Connection 1 Supply, fitting and fixing of GI Pipe 25 sq. mm Mtr 183
2 Supply, fitting and fixing of GI Bend 25 sq. mm No 118
3 Supply, fitting and fixing of Pipe clamps No 118
4 Supply, fitting and fixing of GI Socket 25 Sq. mm. No 118
5 Supply, fitting and fixing of CI earth pipe by digging of pit as per direction with necessary connection with strips, GI wire 8 SWG for earthing as per direction.
No 59
6 Supply and fitting of PVC Cable 1 core 4 sq. mm. Mtr 2655
7 Supply, fitting and fixing of MCCB 32 A. No 59
8 Supply, fitting and fixing of Switch Board (Wooden) No 59
9 Supply of CFL bulb 15 W Philips/ Bajaj No 118
10 Supply, fitting and fixing of switch 5A (Havells make) No 118
N.B.: Meter will be supplied by APDCL.
DETAIL WORK PARAMETER FOR Package PMAGY(Dep/M/4) under
Morigaon Electrical Sub-Division.
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Item of Description Unit Quantity
1 Construction of 11KV Line on 8.5M PSC Pole
a) Chutagarjan 0.6 Km Km 0.6 Km
2. Construction of LT Line 3Ph 4 Wire on 7.5M
PSC Pole
a) Chutagarajan 1.5 Km Km 1.5 Km
3. Construction of 11/0.433 KV 100KVA Sub Station
a) Chutagarjan 1 No No 1 No
4. New Service Connection to House hold
a) Chutagarjan 21 Nos No 21 Nos
ANNEXURE-VI
Name of work:- Construction of new 11 KV line (0.600 KM), LT 3 Ph 4 W line (1.500 KM), installation of new distribution transformers (100 KVA- 1 no.) and new service connections (21
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nos.) under Morigaon Electrical Circle under PMAGY Scheme. (MORIGAON PACKAGE) ( ERECTION OF THE MATERIALS INCLUDING FITTING ,FIXING, LAYING,
DISMANTLING & COMMISSIONING AS REQUIRED).
Sl. No. Brief Item Description Unit
Quantity
A Construction of 11 KV line with PSC Poles
1
Supply and erection of 8.5 Mtr PSC pole including boulder packing for 11 KV line.
No 9
2 Supply, Fitting and Fixing of MS Channel (100x50x6x2200 mm) on pole structure with necesssary pole clamp, nuts and bolts, drilling of holes etc.
No 2
3 Supply, fitting and fixing of 11 KV T Cross arm, nuts and bolts, drilling of holes etc.
No 7
4 Supply, Fitting and Fixing of MS Channel (75x40x6x2200 mm) with necesssary pole clamp, nuts and bolts, drilling of holes etc.
No 6
5 Supply, fitting and fixing of M.S. Angle for cross braching (50x50x6x5000 mm) with nuts and bolts, drilling of holes etc.
No 0
6 Supply, fitting and fixing of 11 KV Disc Insulator 45 KN (T&C) with
hardware fittings, tension clamps etc. as per direction. No 24
7 Supply, fitting and fixing of 11 KV Pin Insulator with GI Pin. No 24
8 Supply and stringing of AAA Rabbit Conductor, tensioning with clamp, bindings, jumpering with PG clamps, jointing sleeves for line
Cond. Km
1.980
9 Supply, fitting and fixing of HT stay set complete with digging of earth along with fitting of stay wire 7/10 SWG and HT guy insulator for line.
Set 6
10 Supply, fitting and fixing of Barbed wire on HT poles @ 2 kg per pole as anti climbing device.
Kg 0
11 Supply, fitting and fixing of CI earth pipe by digging of pit as per direction with necessary connection with strips, GI wire 6 SWG for earthing as per direction (for guard earthing).
No 0
12 Supply, fitting and fixing of HT Danger plate on 8.5 m PSC pole
No 9
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B) Construction of 11/0.4 KV 63 KVA Sub-Station, 11/0.4 KV 100 KVA Sub-Station, augmentation of 16 KVA to 63 KVA Sub-Station including metering in LV side.
1 Supply and erection of 8.5 Mtr PSC pole including boulder packing. No 2
2 Supply , installation and commissioning of 11/0.4 KV, 63 KVA Transformer including all accessories( Lugs, Clamps and MS Nuts and Bolts etc.) with security fencing.
No 0
3 Supply , installation and commissioning of 11/0.4 KV, 100 KVA Transformer including all accessories( Lugs, Clamps and MS Nuts and Bolts etc.) with security fencing.
No 1
4 Supply, Fitting and Fixing of MS Channel (100x50x6x2200 mm) on DP structure with necesssary MS pole clamp, nuts and bolts, drilling of holes etc. for S/S.
No 6
5 Supply, Fitting and Fixing of LT Angle Cross Arm (40x40x5x500 mm).
No 0
6 Supply, fitting and fixing of 11 KV 9 KA L.A. on top channel of Sub-Station as per direction.
Set 1
7 Supply, fitting and fixing of 11 KV D.O. fuse set with M.S Nuts and bolts on MS channel as per direction.
Set 1
8 Supply, Fitting and Fixing of 11 KV GOAB switch with necessary MS Nuts and Bolts on MS Channel and as per direction for DTR Sub-Station
Set 0
9 Supply, fitting and fixing of 11 KV Pin Insulator with GI Pin. No 3
10 Supply, fitting and fixing of CI earth pipe by digging of pit as per direction with necessary connection with strips, GI wire 6 SWG for earthing as per direction (for sub-station earthing).
No 6
11 Supply, fitting and fixing of Cubicle (with necessary bus bar, Trivector meter, MCCB, LT CT etc.) suitable for 63 KVA transformer
No 0
12 Supply, fitting and fixing of Cubicle (with necessary bus bar, Trivector meter, MCCB, LT CT etc.) suitable for 100 KVA transformer
No 1
13 Supply and stringing of AAA Rabbit Conductor with PG clamps, bindings required in Sub-Station
Km 0.030
14 Supply, fitting and fixing of 11 KV Danger plate on 8.5 m PSC Pole
No 2
15 Supply and fitting of L.T. XLPE Cable 1 core 120 sq. mm (Al) for 63 KVA DTR
Mtr 0
16 Supply and fitting of L.T. XLPE Cable 1 core 120 sq. mm (Al) for 100 KVA DTR
Mtr 45
17 Supply and fitting of H.T. bimetallic cable connector No 0
18 Supply and fitting of L.T. bimetallic cable connector No 0
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C) Construction of 3 Ph 4 Wire LT line with Weasel conductor
1 Supply and erection of 7.5 Mtr PSC pole including boulder packing for LT line.
No 31
2 Supply, fitting and fixing of LT angle X arm (40x40x5x500) with necessary MS pole clamps, MS nuts and bolts, drilling of holes etc.
No 72
3 Supply , fitting and fixing of LT pin insulator with GI pin No 76
4 Supply, fitting and fixing of Shackle Insulator with shackle straps with MS nuts and bolts
No 72
5 Supply, fitting and fixing of LT stay set complete with digging of earth along with fitting with stay wire 7/14 SWG and LT Guy Insulator for LT line
Set 18
6 Supply and stringing of AAA Weasel conductor tensioning with clamp, bindings, jointing sleeves etc. in LT line including jungle cutting as per direction.
Cond. Km
6.60
7 Supply, fitting and fixing of LT Danger plate on 8.5 m PSC Pole
No 31
D) New Service Connection 1 Supply, fitting and fixing of GI Pipe 25 sq. mm Mtr 65
2 Supply, fitting and fixing of GI Bend 25 sq. mm No 42
3 Supply, fitting and fixing of Pipe clamps No 42
4 Supply, fitting and fixing of GI Socket 25 Sq. mm. No 42
5 Supply, fitting and fixing of CI earth pipe by digging of pit as per direction with necessary connection with strips, GI wire 8 SWG for earthing as per direction.
No 21
6 Supply and fitting of PVC Cable 1 core 4 sq. mm. Mtr 945
7 Supply, fitting and fixing of MCCB 32 A. No 21
8 Supply, fitting and fixing of Switch Board (Wooden) No 21
9 Supply of CFL bulb 15 W Philips/ Bajaj No 42
10 Supply, fitting and fixing of switch 5A (Havells make) No 42
N.B.: Meter will be supplied by APDCL.
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SECTION- 4
GENERAL REQUIREMENTS
GENERAL REQUIREMENTS
The bidder shall comply with the following general requirements along with other
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specifications.
1.0 QUALITY ASSURANCE PLAN
1.1 The bidder shall invariably furnish the following information along with his offer failing
which the offer shall be liable for rejection. Information shall be separately given for
individual type of equipment offered.
i) The structure of organization
ii) The duties and responsibilities assigned to staff ensuring quality of work
iii) The system of purchasing, taking delivery and verification of materials
iv) The system for ensuring quality of workmanship
v) The quality assurance arrangements shall confirm to the relevant requirement of
ISO 9001 on ISO 9002 as applicable.
vi) Statement giving list of important raw materials, names of sub-supplies for the raw
materials, list of standards according to which the raw material are tested, list of
tests normally carried out on raw material in the presence of suppliers
representative, copies of test certificates.
vii) Information and copies of test certificates as on (i) above in respect of bought out
items
viii) List of manufacturing facilities available
ix) Level of automation achieved and list of areas where manual processing exists. x) List of areas in manufacturing process, where stage inspections are normally
carried out for quality control and details of such test and inspection. xi) List of testing equipment available with the bidder for final testing of equipment
specified and test plant limitation, if any vis-à-vis the type. Special acceptance and
routine tests specified in the relevant standards. These limitations shall be very
clearly brought out in "Schedule of Deviations" from the specified test
requirement.
1.2 The contractor shall within 30 days of placement of order, submit the following
information to the purchaser.
i) List of the raw material as well as bought out accessories and the names of sub-
suppliers selected from those furnished along with the offer.
ii) Type test certificated of the raw material and bought out accessories if required
by the purchaser.
iii) Quality Assurance Plant (QAP) with hold points for purchasers’ inspection. QAP
and purchasers hold points shall be discussed between the purchaser and
contractor before the QAP is finalized.
The contractor shall submit the routine test certificates of bought out accessories and
central excise asses for raw material at the time of routine testing if required by the
purchaser and ensure that the quality assurance requirements of specification are
followed by the sub-contractor.
1.3 The Quality Assurance Program me shall give a description of the Quality System and
Quality Plans with the following details.
i) Quality System
The structure of the organization.
The duties and responsibilities assigned to staff ensuring quality of work.
The system of purchasing, taking delivery of verification of materials
The system of ensuring of quality workmanship.
The system of control of documentation.
The system of retention of records.
The arrangement of contractor internal auditing .
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A list of administrator and work procedures required to achieve contractors
quality requirements. These procedures shall be made readily available to
the purchaser for inspection on request.
ii) Quality Plans
An outline of the proposed work and program sequence.
The structure of contractor’s organizations for the contract.
The duties and responsibilities ensuring quality of work.
Hold and notification points.
Submission of engineering documents required by this specification.
The inspection of the materials and components on request.
Reference to contractors’ work procedures appropriate to each activity.
Inspection during fabrication /construction.
Final inspection and test.
2.0 Training of Personnel
The contractor shall provide necessary facilities for training personnel at their
works/principals works relating to design, manufacture, assembly and testing and operation
maintenance for six personnel free of cost. However, travel and incidental charges of the
personnel will be borne by the purchaser. 3.0 Inspection
3.1 The Owner's representative or third party nominee shall at all times be entitled to have access to the works and all places of manufacture, where insulator, and its component parts shall be manufactured and the representatives shall have full facilities for unrestricted inspection of the Contractor's and sub-Contractor's works, raw materials, manufacture of the material and for conducting necessary test as detailed herein.
3.2 The material for final inspection shall be offered by the Contractor only under
packed condition as detailed in the specification. The Owner shall select samples at
random from the packed lot for carrying out acceptance tests. Insulators shall
normally be offered for inspection in lots not exceeding 5000 nos. the lot should be
homogeneous and should contain insulators manufactured in the span of not more
than 3-4 consecutive weeks.
3.3 The Contractor shall keep the Owner informed in advance of the time of starting and
the progress of manufacture of material in their various stages so that arrangements
could be made for inspection.
3.4 No material shall be dispatched from its point of manufacture before it has been
satisfactorily inspected and tested unless the inspection is waived off by the Owner
in writing. In the latter case also the material shall be dispatched only after
satisfactory testing for all tests specified herein have been completed.
3.5 The acceptance of any quantity of material shall be no way relieve the Contractor of
his responsibility for meeting all the requirements of the specification and shall not
prevent subsequent rejection, if such material are later found to be defective.
4.0 Additional Tests
4.1 The Owner reserves the right of having at his own expense any other test(s) of
reasonable nature carried out at Contractor's premises, at site, or in any other place in
addition to the type, acceptance and routine tests specified in these bidding
documents against any equipments to satisfy himself that the material comply with
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the Specifications.
4.2 The Owner also reserves the right to conduct all the tests mentioned in this specification at his own expense on the samples drawn from the site at Contractor's premises or at any other test center. In case of evidence of noncompliance, it shall be binding on the part of the Contractor to prove the compliance of the items to the technical specifications by repeat tests or correction of deficiencies, or replacement of defective items, all without any extra cost to the Owner.
5.0 Test Reports
5.1 Copies of type test reports shall be furnished in at least six (6) copies along with one
original. One copy shall be returned duly certified by the Owner only after which the
commercial production of the concerned materials shall start.
5.2 Copies of acceptance test reports shall be furnished in at least six (6) copies. One
copy shall be returned duly certified by the Owner, only after which the material shall
be dispatched.
5.3 Record of routine test reports shall be maintained by the Contractor at his works for
periodic inspection by the Owner's representative.
5.4 Test certificates of test during manufacture shall be maintained by the Contractor.
These shall be produced for verification as and when desired by the Owner. 6.0 List of Drawings and Documents:
6.1 The bidder shall furnish the following along with bid. i) Two sets of drawings showing clearly the general arrangements, fitting details,
electrical connections etc.
ii) Technical leaflets (user’s manual) giving operating instructions.
iii) Three copies of dimensional drawings of the box for each quoted item.
The manufacturing of the equipment shall be strictly in accordance with the approved drawings and no deviation shall be permitted without the written approval of the purchaser. All manufacturing and fabrication work in connection with the equipment prior to the approval of the drawing shall be at the supplier's risk.
Approval of drawings/work by purchaser shall not relieve the supplier of his responsibility and liability for ensuring correctness and correct interpretation of the drawings for meeting the specification.
6.2 The requirements of the latest revision of application standards, rules and codes of
practices. The equipment shall conform in all respects to high standards of engineering,
design, workmanship and latest revisions of relevant standards at the time of ordering and
purchaser shall have the power to reject any work or materials which, in his judgment is
not in full accordance therewith.
6.3 The successful Bidder shall within 2 weeks of notification of award of contract submit
three sets of final versions of all the drawings as stipulated in the purchase order for
purchaser's approval. The purchaser shall communicate his comments/approval on the
drawings to the supplier within two weeks. The supplier shall, if necessary, modify the
drawings and resubmit three copies of the modified drawings for their approval. The
supplier shall within two weeks. Submit 30 prints and two good quality report copies of
the approved drawings for purchaser's use.
6.4 Eight sets of operating manuals/technical leaflets shall be supplied to each consignee for
the first instance of supply
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. 6.4.1 One set of routine test certificates shall accompany each dispatch consignment.
6.4.2 The acceptance test certificates in case pre-dispatch inspection or routine test certificates
in cases where inspection is' waived shall be got approved by the purchasers.
7.0 Any Item specification if not available in this document Contractor shall supply and execute the items meeting the relevant IS specification with the approval of the purchaser
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SECTION-5
FORMS OF BID
FORMA OF BANK GUARANTEE FOR BID GUARANTEE/SECURITY
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(To be stamped in accordance with Stamp Act)
The non-Judicial stamp paper should be in the name of issuing bank
Ref………………………….. Bank Guarantee No…………..
Date…………………….
To
The Chief Executive Officer,
Morigaon Electrical Circle.
APDCL, CAR, Morigaon
Dear Sirs/ Madam,
In accordance with invitation to bid under your Bid No………………. M/s………………. having its Registered/
Head Office at ……………..( hereinafter called the ‘Bidder’) wish to participate in the said Bid or …………………
and you, as a special favour have agreed to accept an irrevocable and unconditional Bank Guarantee for
an amount of ……………….. valid upto……………………. On behalf of Bidder in lieu of the Bid deposit required
to be made by the bidder, as a condition precedent for participation in the Said Bid.
We, the …………………. Bank at …………………… have our Head Office at…………..( local address) guarantee and
undertake to pay immediately on demand by Assam Power Distribution Company Limited, the Amount of
……………………………………………
…………………………………………………..( in words & figures) without any reservation, protest, demur and
recourse. Any such demand made by said ‘Owner’ shall be conclusive and
binding on us irrespective of any dispute or difference raised by the Bidder.
The Guarantee shall be irrevocable and shall remain valid up to and including …………. @....................... if
any further extension of this guarantee is required, the same shall be extended to such required
period ( not exceeding one year) on receiving instruction from M/s ………… … ………. on whose behalf this
guarantee is issued.
In witness whereof the Bank, through its authorized office, has set its hand and stamp on this
…………… day of ………………….. 20………… at …………………………
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WITNESS
……………………… …………………….
(Signature) ( Signature)
…………………….. ……………………
(Name) (Name)
……………………. ……………………
( Official Address) (Official Address)
@ This date shall be thirty (30) days after the last date for which the bid is valid.
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PROFORMA OF BANK GUARANTEE FOR CONTRACT PERFORMANCE
(To be stamped in accordance with Stamp Act)
Ref………………………….. Bank Guarantee No…………..
Date…………………….
To
The Chief Executive Officer,
Morigaon Electrical Circle.
APDCL, CAR, Morigaon
Dear Sirs/ Madam,
In consideration of Assam Power Distribution Company Ltd., (herein after referred to as the ‘Owner’
which expression shall unless repugnant to the context or meaning thereof include its successors,
administrators and assigns) having awarded to M/s…………… ….……………………….with registered/ Head
office at ……………….( hereinafter referred to as “ Contractor” which expression shall unless repugnant to
the context or meaning thereof include its successors, administrators, executors and assigns), a Contract
by issued of Owner’s Letter of Award No…………… dated……………….. and the same having been
acknowledged by the contractor, resulting in a contract bearing No…………….. dated contractor having
agreed to provide a Contract Performance Guarantee for the faithful performance of the entire Contract
equivalent to……………… being(%) (Percent *) of the said value Contract to the Owner.
We………………………………………………………………………………………….. (Name & Address) having its Head Office at
…………………( hereinafter referred to as the “ Bank” , which expression shall, unless repugnant to the
context or meaning thereof, include its successors, administrators, executors and assigns) do hereby
guarantee and undertake to pay the owner, on demand any all monies payable by the contractor to be
extent of …………………. As aforesaid at any time up to ………………………..**( day/month/year) without any
demur, reservation , contest , recourse or protest and / or without any reference to this contractor. Any
such demand made by the owner on the bank shall be conclusive and binding notwithstanding any
difference between the Owner the Contractor or any dispute pending before any Court, Tribunal,
Arbitrator or any other authority . The bank undertakes not to revoke this guarantee during its currency
without previous consent of the owner and further agrees that the guarantee herein contained shall
continue to be enforceable till the owner discharges this guarantee.
The Owner shall have the fullest liberty without affecting in any way the liability of the Bank under the
guarantee, from time to time to extend the time for performance or the contract by the contractor. The
owner shall have the fullest liberty, without affecting this guarantee, to postpone from time to time the
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exercise of any power vested in them or of any right which they might have against the contractor, and to
exercise the same at any time in any matter, and either to enforce or to for bear to enforce any
covenants, contained or implied, in the contract between the owner and the contractor or any other
course or remedy or security available to the owner. The Bank shall not be released to its obligations
under these presents by any exercise by the owner of its liberty with reference to the matters aforesaid or
any of them or by reason of any other act of omission or commission on the part of the owner or any
other indulgences shown by the owner or by any other matter or thing whatsoever which under law
would , but for this provision have the effect of relieving the Bank.
The bank also agrees that the owner at its option shall be entitled to enforce this guarantee against the
Bank as a principal debtor, in the first instance without proceeding against the contractor and not
withstanding any security or other guarantee the owner may have in relation to the Contractor’s
liabilities.
Notwithstanding anything contained herein above our liability under this guarantee is restricted to
……………………. And it shall remain in force up to an including …………………….. and shall be extended from
time to time for such period( not exceeding 1 year) as may be desired
M/s………………………………………………………….on whose behalf this guarantee has been given.
Dated this……………………. Day of ……………………….. 20……………… at…………
WITNESS
……………………………. ………………………
(Signature) (Signature)
…………………………… ……………………..
(Name) (Name)
………………………….. ……………………..
(Official address) (Official address)
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Attorney as per power
Of Attorney No…………..
Date……………………..
Notes
* This sum shall be 10%(Ten) of the Contract price.
** The date will be 90(Ninety) days after the end of the Warranty Period as specified in the contract.
1. The stamp paper of appropriate value shall be purchased in the name of issuing bank.
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PROFORMA OF EXTENSION OF BANK GUARANTEE
Ref………………………….. Date…………………….
To
The Chief Executive Officer,
Morigaon Electrical Circle.
APDCL, CAR, Morigaon
Dear Sirs/ Madam,
Sub: Extension of Bank Guarantee No……………….. for Rs…………………. Favouring yourselves , expiring on
…………………. On account of M/S………………………….. in respect of contract no……………………. dated
…………….. ( hereinafter called original Bank Guarantee).
At the request of M/s ……………………… we …………………… bank, branch office at ………………….. and having its
Head Office at ………………………. Do hereby extend our liability under the above mentioned Bank Guarantee
No………………… dated………………………for a further period of ……………………… ( Years/ Months)
from………………….. to expire on………………….. expect as provided above, all other terms and conditions of
the original Bank Guarantee No………………………. dated ………………. Shall remain unaltered and binding.
Please treat this as an integral part of the original Bank Guarantee to which it would be attached.
Yours faithfully
For………………………………
Manager/ Agent/Accountant …………………..
Power of attorney No……………………
Dated……………………………………
SEAL OF BANK
Note: The non-judicial stamp paper of appropriate value shall be purchased in the name of the Bank who
has issued the Bank Guarantee.
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PROFORMA OF BANK GUARANTEE FOR ADVANCEPAYMENT
( To be stamped in accordance with Stamp Act )
Ref………………………….. Bank guarantee No……………………
Date…………………….
To
The Chief Executive Officer,
Morigaon Electrical Circle.
APDCL, CAR, Morigaon
Dear Sirs/ Madam,
In consideration of Assam Power Distribution Company Ltd.(hereinafter referred to as the ‘Owner’, which
expressions shall unless repugnant to the context or meaning thereof include its successors,
administrators and assigns) having awarded to M/s…………………………… hereinafter referred to as the
‘Contractor’ which expression shall unless repugnant to the context or meaning thereof , include its
successors, administrators, executors and assigns), a Contract by issue of Owner’s letter of Award
No…………………… Dated……………………and the same having been acknowledged by the contractors,
resulting in a Contract bearing no…………………. Dated…………………. Valued (at………………………………( in words
and figures). For ………………………….Contract (space of work)………………………………….. (hereinafter called the
‘Contract’) and the Owner having agreed to make an advance payment to the Contractor for performance
of the above contract amounting ……………………………… (in words and figures) as an advance against Bank
Guarantee to be furnished by the Contractor.
We…………………………..( Name of the Bank) having its Head Office at……………………………… ( hereinafter
referred to as the ‘Bank’, which expression shall, unless repugnant to the context or meaning thereof ,
include its successors, administrators, executors and assigns) do hereby guarantee and undertake to pay
the owner , immediately on demand any or, all monies payable by the contractor to the extent of
………………..as aforesaid at any time upto…………………….. (a….) without any demur, reservation, contest,
recourse or protest and/or without any reference to the contractor. Any such demand made by the
Owner on the Bank shall be conclusive and binding notwithstanding any difference between the Owner
and the Contractor or any dispute pending before any Court, Tribunal, Arbitrator or any other authority.
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We agree that the guarantee herein contained shall be irrevocable and shall continue to be enforceable
till the owner discharge this guarantee.
The Owner shall have the fullest liberty without affecting in any way the liability of the Bank under this
guarantee, from time to time to vary the advance or to extent the time for performance of the contract by
the Contractor. The Owners shall have the fullest liberty without affecting this guarantee, to postpone
from time to time the exercise of any power vested in them or of any right which they might have against
the Contractor and to exercise the same at any time in any manner, and either to enforce any covenants,
contained or implied, in the contact between the Owner and the Contractor or any other course or
remedy or security available to the Owner. The Bank shall not be released of its obligations under this
presents by any exercise by the owner of its liberty with reference to the matter aforesaid of any of them
or by reason of any other act or forbearance or other acts of omission or commission on the part of the
owner or any other indulgence shown by the owner or by any other matter or thing whatsoever which
under law would be for this provision have the effect of relieving the Bank.
The Bank also agrees that the Owner at its option shall be entitled to enforce this guarantee against the
Bank as a principal debtor, in the first instance without proceeding against the contractor and not
withstanding any security or other guarantee that the owner may have in relation to the contractors
liabilities.
Notwithstanding anything hereinabove our liability under this guarantee is limited to………… and it shall
remain in force upto an including ……………………….( @ and shall be extended from time to time for such
period ( not exceeding 1 year as may be desired by M/s…………………………………………………………………...dated
this ………. Day of ……………….. 20……. At……………………………..
WITNESS……………………………………..
……………………………… …….………………………..
(Signature) (Signature)
……………………………. ………………………………
(Name) (Name)
…………………………..….
(Designation)
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(Official Address) (With Bank Stamp)
Attorney as per Power of attorney No……………………… …. Dated………………….
Strike whichever is not applicable
@ The date will be 90(ninety) days after the date of completion of the Contract.
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PROFORMA OF “AGREEMENT”
(To be executed on non-Judicial stamp paper)
This Agreement made this …………….. day of ………… two thousand……………. Between Assam Power
Distribution Company Ltd. having its head office at Bijulee Bhawan, Paltanbazar, Guwahati-1 ( hereinafter
referred to as ‘Owner’ or ‘APDCL’, which expression shall include its administrators, successors and assign
on one part and (hereinafter referred to as the ‘Contractors ‘X’ ( Name of the contracting Co.) which
expression shall include its administrators, successors, executors and permitted assigns) on the other part.
WHEREAS APDCL desirous of …………………….. in ……………. Circle associated with APDCL at
……………….(District) invited Bids for…………………………………………….. ………………………………. (Briefly describe
scope of works) for the first state of the project as per its Bid Specification No………………………………
AND WHEREAS……………………….”X” ………………………. Had participated in the above referred Bidding vide
their proposal No……………………. dated………………. And awarded the Contract to……………..” X”…………….. on
terms and conditions documents referred to therein which have been acknowledged
by……………….”X”…………………..resulting into a “Contract”
NOW THEREFORE THIS DEED WITNESS AS UNDER:-
1.0 Article
1.1 Award of Contract
APDCL awarded the contract to……………..”X”……………… for the work of …………… on the terms and
conditions contained in its letter of Award No…….. ………. Dated…………… and the documents referred to
therein. The award has taken effect from aforesaid letter of award. The terms and expression used in this
agreement shall have the same meaning as are assigned to them in the ‘Contract Documents’ referred to
in this succeeding Article.
2.0 Documentation
2.1 The contract shall be performed strictly as per the terms and condition stipulated herein and in the
following documents attached herewith( hereinafter referred to as “Contract Documents”.)
i) Section 1-11 of the Bidding Document.
ii) Proposal Sheets, Data Sheets, Drawing work schedule submitted by “X”.
APDCL’s Letter of Award No………….. dated……………….duly acknowledged by “X”.
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Quality Plans for manufacturing and field activities entitled as Quality Plan.
All the aforesaid Contract Documents shall form an integral part of this agreement , in so far as the same
or any part conform to the bidding documents and what has been specifically agreed to by the Owner in
its letter of Award. Any matter inconsistent therewith, contrary or repugnant thereto or any deviations
taken by the Contractor in its ‘Proposal’ but not agreed to specially by the Owner in its Letter of Award
shall be deemed to have been withdrawn b y the Contractor. For the sake of brevity, this agreement along
with its aforesaid Contract Documents shall be referred to as the ‘Agreement’.
3.0 Conditions & Covenants
3.1 The scope of Contract, Consideration, Terms of Payment, Price Adjustments, Taxes wherever
applicable, Insurance, Liquidated Damage, Performance Guarantees and all other terms and conditions
are contained in APDCL’s Letter of Award No………........... dated……………… read in conjunction with other
aforesaid contract documents. The contract shall be duly performed by the Contract Documents, but
which are needed for successful, efficient, safe and reliable operation of the equipment unless otherwise
specifically excluded in the specification under ‘exclusion’ or Letter of Award.
3.2 The scope of work shall also include supply and installation of all such items which are not specifically
mentioned in the contract Documents, but which are needed for successful, efficient, safe and reliable
operation of the equipment unless otherwise specifically excluded in the specifications under ‘exclusions’
or ‘Letter of Award’.
3.3 Time Schedule
3.3.1 Time is the essence of the Contract and schedules shall be strictly adhered to “X” shall perform the
work in accordance with the agreed schedules.
3.4 Quality Plans
3.4.1 The Contractor is responsible for the proper execution of the Quality Plans mentioned in Section 4.8
of GTC. The work beyond the customer’s hold points will progress only with the owners consent. The
Owner will also undertake quality surveillance and quality audit of the Contractor’s /Sub-contractor’s
works, systems and procedures and quality control activities. The Contractor further agrees that any
change in the Quality Plan will be made only with the Owner’s approval. The contractor shall also perform
all quality control activities, inspection and tests agreed with the Owner to demonstrate full compliance
with the contract requirements.
3.4.2 The contractor also agrees to provide the Owner with the necessary facilities for carrying out
inspection, quality audit and quality surveillance of contractors and its Subcontractor’s Quality Assurance
Systems and Manufacturing Activities.
These shall include but not limited to the following:
Relevant plant standards, drawing and procedures;
Detailed Quality Assurance System manuals for manufacturing activities.
Storage procedures and instructions weld, NDT, heat treatment prior to commencement of
manufacture;
Complete set of log sheets (blank) mentioned in the Quality Plans.
It is expressly agreed to by the contractor that the quality test and inspection by the owner shall not
in any way relief the contractor of its responsibilities for quality standards and performance guarantee
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and their other obligations under the Agreement. 3.4.4 “X’ agrees to submit quality Assurance Documents
to APDCL for review and record after completion and within 3 weeks of dispatch of material.
The package will include the following :
Factory test result, inspection report for testing required by this contract or applicable codes
and standards.
Two copies of inspection reports duly signed by Quality Assurance personnel of both APDCL
and “X” for the agreed customer hold points.
Report of the rectification works where and if applicable.
3.5 It is expressly agreed to by the Contractor that notwithstanding the fact that the Contract is termed as
Supply-cum-Erection Contract or indicates the break-up of the Contract consideration, for convenience of
operation and for payment of sale tax on supply portion, it is in fact one composite Contract on single
source responsibility basis and the Contractor is bound to perform the total Contract in its entirely and
non-performance of any part or portion of the Contract shall be deemed to be breach of the entire
Contract.
3.6 The Contractor guarantees that the equipment package under the Contract shall meet the ratings and
performance parameters as stipulated in the technical specifications (Section
10) and in the event of any deficiencies found in the requisite performance figures, the Owner may at its
option reject the equipment package or alternatively accept it on the terms and conditions and subject to
levy of the liquidated damages in terms of Contract documents. The amount of liquidated damages so
leviable shall be in accordance with the contract document and without any limitation.
3.7 It is further agreed by the contractor that the contract performance guarantee shall in no way be
constructed to limit or restrict the owner’s equipment right to recover the damages/compensation due to
shortfall in the equipment performance figures as stated in Para 3.6 above or under any other clause of
the agreement. The amount of damages/compensation shall be recoverable either by way of deduction
from the contract price, contract performance guarantee and or otherwise. The contract performance
guarantee furnished by the contractor is irrevocable and unconditional and the owner shall have the
power to invoke it notwithstanding any dispute or difference between the owner and the contractor
pending before any court tribunal, arbitrator or any other authority.
3.8 This Agreement constitutes full and complete understanding between the parties and terms of the
payment. It shall supersede all prior correspondence terms and conditions contained in the Agreement.
Any modification of the agreement shall be effected only by a written instrument signed by the
authorized representative of both the parties.
4.0 SETTLEMENT OF DISPUTES
4.1 It is specifically agreed between parties that all the differences or disputes arising out of the
agreement or touching the subject matter of the agreement shall be decided by process of settlement and
Arbitration as specified in clause 41 of the General Condition of the Contract and provision of the Indian
Arbitration Act, 1996 shall apply. Guwahati Courts alone shall have exclusive jurisdiction over the same.
4.2 NOTICE OF DEFAULT
Notice of default given by either party to the other under agreement shall be in writing and shall be
deemed to have been duly and properly served upon the parties hereto if delivered against
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acknowledgement or by telex or by registered mail with acknowledgements due addressed to the
signatories at the addresses mentioned at Guwahati.
IN WITNESS WHEROF, the parties through their duly authorized representatives have executed these
presents (execution where of has been approved by the competent authorities of both the parties) on the
day, month and year first above mentioned at Guwahati .
WITNESS:
1. ……………………….. (Owner’s signature) ( Printed Name)
2. ……………………… (Designation)( Company’s Stamp)
3. …………………….. (Contractor’s Signature)(Company’s Name)
4. …………………….. (Designation)(Company’s Stamp)
Applicable in case of single award is placed on one party on Supply-cum- Erection basis. In two
separate awards are placed on single party/two different parties this clause is to be modified
suitably while signing the contract agreement to be signed separately for two awards to
incorporate cross fall breach clause.
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FORM OF POWER OF ATTORNEY FOR JOINT VENTURE
(On Non-judicial Stamp Paper of Appropriate value to be Purchased
in the Name of Joint Venture)
KNOW ALL MEN BY THESE PRESENTS THAT WE, the Partners whose details are given
hereunder……................................................................. have formed a Joint Venture under the laws
of……………………..and having our Registered Office(s)/Head Office(s) at
………………………………………………………………………………………………………….....(he
rein after called the 'Joint Venture' which expression shall unless repugnant to the context or meaning
thereof, include its successors, administrators and assigns) acting thorough M/S………………
………………………………………………………………………….. being the Partner in-charge do
hereby' constitute, nominate and appoint M/S……………………………………
………………………………..a Company incorporated under the laws of arid having its Registered/Head
Office at..as our duly 'constituted lawful Attorney (hereinafter called "Attorney" or" Authorized
Representative" or "Partner In-charge") to exercise all or any of the powers for and on be.ha1f of, the
Joint Venture in regard* to ---------------------(Name of the Package) (Specification No.-----------------------
--) of Assam Power Distribution Company Ltd. Bijulee Bhawan, Paltan Bazar, GUWAHATI (hereinafter
called the "Owner"). and the bids for which' have been invited by the Owner, to undertake the following
acts:
i) To submit proposal and participate in the aforesaid Bid Specification of the Owner on behalf of
the “Joint Venture”.
ii) To negotiate with the Owner 'the terms and' conditions for award of the Contract pursuant to the
aforesaid Bid and to sign the Contract with the Owner for and on behalf of the "Joint Venture'.
iii) To do any other act or submit any document rated to the above.
iv) To receive, accept and execute .the Contract for and on behalf of the "Joint Venture".
It is clearly understood that the Partner In-charge (Lead Partner) shall ensure performance of the Contract(s)
and if one or more Partner fail to perform their respective portion of the Contract(s), the same shall be
deemed to be a default by all the Partners.
It is expressly understood that this Power of Attorney shall remain valid binding and irrevocable till
completion of the Defect Liability Period in terms of the Contract.
The Joint Venture hereby agrees and undertakes to ratify and confirm all the above whatsoever the said
Attorney/ Authorized Representative/Partner In-charge quotes in the bid, negotiates and signs the Contract
with the Owner and/or proposes to act on behalf of the joint Venture by virtue of this Power of Attorney and
the same shall bind the Joint Venture as if done by itself.
* Strike which is not applicable.
IN WITNESS THEREOF the Partners Constituting the Joint Venture as aforesaid have executed
these presents on this …………….. day of ……………....... under the Common Seal(s) of their
Companies.
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for and on behalf of
the Partners of Joint
Ventures
The Common Seal of the above Partners of the Joint Venture:
The Common Seal has been affixed there unto in the presence of :
WITNESS
1. Signature _________________________
Name___________________________
Designation_______________________
Occupation ________________________
2. Signature _________________________
Name___________________________
Designation_______________________
Occupation ________________________
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FORM OF JOINT VENTURE AGREEMENT
(ON NON-JUDICIAL STAMP PAPER OF APPROPRIATE VALUE TO BE PURCHASED IN
THE NAME OF JOINT VENTURE)
PROFORMA OF JOINT VENTURE AGREEMENT BETWEEN ______________________
______________________________ AND ____________________________________________
FOR BID SPECIFICATION No_______________________________OF ASSAM POWER
DISTRIBUTION COMPANY LTD.
THIS Joint Venture agreement executed on this _____day of ______________Two thousand eight and
between M/S _________________________________________________ a Company incorporated under
the laws of _______________________________ and having its registered office at
__________________________________ _____________________________ (herein after called the
“Lead Partner” which expression shall include its successors, executors and permitted assigns) and M/S
_______________________________________________ a Company incorporated under the laws of
_______________________________ and having its registered office at
________________________________________________________________ (herein after called the
“Partner” which expression shall include its successors, executors and permitted assigns) for purpose of
making a bid and entering into a contract* (in case of award) for Construction of
_______________________________(name of the package) against the specifications
No._____________________ of APDCL BIJULEE BHAWAN, PALTAN BAZAR, GUWAHATI –
781001, an Electricity Distribution Company registered under Indian Electricity Act, 2003 having its
registered office at Bijulee Bhawan, Paltan Bazar, Guwahati – 781001 (herein after called the “Owner”)
WHEREAS the Owner invited bids as per the above mentioned Specification for the design manufacture,
supply and erection, testing and commissioning of Equipment/Materials stipulated in the bidding
documents under subject Package*
For_________________ (Package Name) (Specification No.:_____________________)
AND WHEREAS Annexure – A (Qualification Requirement of the Bidder). Section-4, forming part of the
bidding documents, stipulates that a Joint Venture of two or more qualified firms as partners, meeting the
requirement of Annexure-A, Section 4 as applicable may bid, provided the .Joint Venture fulfills all other
requirements of Annexure-A, Section 4 and in such a case, the BID shall be signed by all the partners so as
to legally bind all the Partners of the .Joint Venture, who will be jointly and severally liable to perform the
Contract and all obligations hereunder .
* Strike which is not applicable.
The above clause further states that the Joint Venture agreement shall be attached to the bid and the
contract performance guarantee will be as per the format enclosed with the bidding document without any
restriction or liability for either party.
AND 'WHEREAS the bid has been submitted to the Owner vide proposal
No ................................. dated ............................................................ by Lead Partner based on the Joint
Venture agreement between all the Partners under these presents and the bid in accordance with the
requirements of Annexure-A (Qualification Requirements of the Bidders), Section -4 has been signed by all
the partners.
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NOW THIS INDENTURE WITNESSETH AS UNDER:
In consideration of the above premises and agreements all the Partners to this ,Joint Venture do hereby now
agree as follows:
1. In consideration of the award of the Contract by the Owner to the Joint
Venture partners, we, the Partners to the Joint Venture agreement do hereby agree that
M/S__________________ shall act as Lead Partner and further declare and confirm that we shall
jointly and severally be bound unto the Owner for the successful performance of the Contract and shall
be fully responsible for the design, manufacture, supply, and successful performance of the equipment
in accordance with the Contract.
2. In case of any breach of the said Contract by the Lead Partner or other
Partner(s) of the Joint Venture agreement, the Partner(s) do hereby agree to be fully responsible for the
successful performance of the Contract and to carry out all the obligations and responsibilities under
the Contract in accordance with the requirements of the Contract.
3. Further, if the Owner suffers any loss or damage on account of any
breach in the Contract or any shortfall in the performance of the equipment in meeting the
performance guaranteed as per the specification in terms of the Contract, tile Partner(s) of these
presents undertake to promptly make good such loss or damages caused to the Owner, on its demand
without any demur. It shall not be necessary or obligatory for the Owner to proceed against Lead
Partner to these presents before proceeding against or dealing with the other Partner(s)
4. The financial liability of the Partners of this Joint Venture agreement
to the Owner, with respect to any of the claims arising out of the performance of non-performance of
the obligations set forth in the said Joint Venture agreement, read in conjunction with the relevant
conditions of the Contract shall, however, not be limited in any way so as to restrict or limit the
liabilities of any of the Partners of the Joint Venture agreement.
5. It is expressly understood and agreed between the Partners to this
Joint Venture agreement that the responsibilities and obligations of each of the Partners shall be as
delineated in Appendix-I (*To be incorporated suitably by the Partners) to this agreement. It is
further agreed by the Partners that the above sharing of responsibilities and obligations shall not in
any way be a limitation of joint and several responsibilities of the Partners under this Contract.
6. This Joint Venture agreement shall be construed and interpreted in
accordance with the laws of India and the courts of Delhi shall have the exclusive jurisdiction in all
matters arising there under.
7. In case of an award of a Contract, We the Partners to the Joint
Venture agreement do hereby agree that we shall be jointly and severally responsible for furnishing
a contract performance security from a bank in favour of the Owner in the forms acceptable to
purchaser for value of 10% of the Contract Price in the currency/currencies of the Contract.
8. It is further agreed that the Joint Venture agreement shall be
irrevocable and shall form an integral part of the Contract, and shall continue to be enforceable till
the Owner discharges the same. It shall be effective from the date first mentioned above for all
purposes and intents.
IN WITNESS WHEREOF, the Partners to the Joint Venture agreement have through their authorised
representatives executed these presents and affixed Common Seals of their companies, on the day, month
and year first mentioned above.
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IN WITNESS WHEREOF, the Partners to the Joint Venture agreement have through their authorized
representatives executed these presents and affixed Common Seals of their companies, on the day,
month and year first mentioned above.
1. Common Seal of_________________
For Lead Partner
has been affixed in my/our presence
pursuant to the Board of Director's (Signature of authorized
resolution dated________________ representative)
Name
Signature
Designation
Name Common Seal of the Company
Designation
2. Common Seal of_________________
For Other Partner
has been affixed in my/our presence
pursuant to the Board of Director's (Signature of authorized
resolution dated_______________ representative)
Name
Signature
Designation
Name Common Seal of the Company
Designation
WITNESSES
1. Name . (Signature)
(Official address)
2. Name . (Signature)
(Official address)
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SECTION- 6
TECHNICAL SPECIFICATION
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CLIMATIC AND ISOCERAUNIC CONDITIONS
The climatic and isoceraunic conditions at site under which the materials /equipment shall operate
satisfactorily are as follows:-
a) Maximum temperature of air in shade: 40º C
b) Minimum temperature of air in shade: 2º C
c) Maximum Humidity: 93 %
d) Isoceraunic level: 60
e) Average of rainy days per annum: 150
f) Average number of days of thunderstorm per annum: 25
g) Average number of days of dust storm per annum: 10
h) Average annual rainfall: 2280 mm
i) Number of months of tropical monsoon per annum: 5 (May to Sept.)
j) Maximum wind pressure: 150Kg/sq. m.
k) Altitude (above mean sea level): 50 to 250m
a. The reference ambient temperatures assumed for the purpose of this specification are: a) Maximum ambient temperature: 45ºC
b) Maximum average daily ambient temperature: 35ºC
c) Maximum average yearly ambient temperature: 30º C
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6.1 TECHNICAL SPECIFICATION FOR EXECUTION OF WORK
(FOR 11 KV LINES)
1.0 SCOPE : ERECTION OF 33 KV AND LINES WITH 9.75 M PSC POLES The scope covers the survey of the proposed route, tree clearance wherever necessary transport of
materials to the locations, erection of the line testing of the line and handing over to the APDCL as
per specification. Materials such as steel, cement, PSC Poles, top cleats, clamps, washers, earth
wires, HBG metal, sand, water, cost of bolts and nuts etc., as given in Annexure-1 are to be procured
by the contractor cost of which shall be included in the bid.
1.1 General :The Contractor should be well acquainted with the IE Rules 1956 as amended from time to time and with the Indian Telegraph Act 1889 so that necessary provisions therein may be followed.
1.2 ELECTRICAL CLEARANCE As per Indian Electricity Rules, 1956 ( amended version )
Sl. No. Particulars 33 KV line 11 KV Lines
1 Minimum height of any conductor of an
overhead line across any street
6.4 metres 6.1M
2 Minimum height of any conductor of an
overhead line along any street
6.1 metres 5.8M
3 Minimum height of any conductor (bare )of an
overhead line erected elsewhere
5.2 metres 4.6M
4 Minimum height of any conductor (insulated
)of an overhead line erected elsewhere
4.0 metres 4M
5 Minimum Clearance of an overhead line from
building
3.7mtr. (vertical )
2.0 mtr. (
horizontal)
Same
6 Clearance between over-head line and
communica-tion line
2.130 meters 1.525M
7 Minimum Clearance from another line 0.270 meters 0.180M
8 Phase to phase clearance ( min) 1370 mm 900mm
9 Span 50 m 50M
10 Minimum clearance between LT line with 11
KV & 33 KV
6.1 6.2 2.44M
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1.3 SURVEY OF THE ROUTE
The Tentative route map of the line to be erected will be furnished by the APDCL to the Contractor
along with the copy of the concluded agreement.
The Contractor is required to carry out the detailed survey of the route of the line and fix up the
locations at the average span indicated in the schedule and mark the locations and submit a detailed
route map to the Engineer in charge of the work within 30 days for approval. In the course of
surveying by the contractor, any conspicuous variations in the change and physical feature to those
indicated in the route map and as actually existing are noticed, the deviations must be brought to
the notice of the APDCL Engineer. The APDCL Engineer if considered necessary shall make
alterations, which shall be carried out accordingly and the APDCL after inspecting the surveyed route
and the revised route map shall be given for final approval in writing. The contractor shall not
commence the work until the final approval of the route map is given by the Engineer in charge in
writing to the contractor.
1.4 WAY LEAVES AND TREE CUTTINGS
Proposals for way leaves and right of way shall be submitted by the contractor. Permission will be
obtained by the APDCL within reasonable time for which due notice shall be given by the Contractor.
The Contractor shall arrange for tree cutting or tree branches cutting also.
The widths of tree clearance to be adopted for lines of various voltages are as detailed below:
a. 33 KV LINE (Trunk Line) All growth within 6.096 M (20 ft) from the center line of support and all trees which may fall and
foul the line.
b. The Contractor shall take all possible steps to see that standing crops, etc. are not damaged while attending to tree cutting. When such damage is inevitable the compensation will be borne by the APDCL provided the damage is with the prior concurrence of the Engineer. The Contractor shall bear the compensation for damage caused by the gangs without prior concurrence of the Engineer concerned.
c. No trees shall be cut until the APDCL has made necessary arrangement with the authorities concerned and permission is given to the Contractor to fell such trees. The contractor shall arrange to remove the obstacles as soon as possible.
d. At such times, when it may not possible for APDCL, to arrange right-of-way for excavation of pole pits or erecting the poles of stringing the line, then at all such times, the contractor shall shift his gangs to other areas. The rates quoted shall cover all such contingencies and no extra payments shall be claimed for such contingencies.
1.3 EXCAVATION OF POLE PITS, STAY PITS AND D.P. PITS a. After the final survey of the line and after marking the pole locations with pegs, excavation work
has to be commenced in accordance to the approved route map. Excavation is generally done by pick axes, crow V-bars and showers although some times earth augers are used. Excavation of pole pits in very hard or rocky soil or in rock beds, may involve blasting with suitable explosives. The pits for the supports are excavated in the direction of the line as this will facilitate the erection of support are excavated in the direction of the line as this will facilitate the erection of support, in addition to giving greater lateral stability, the depth of the foundation to be
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excavated for poles shall be in accordance with relevant sketch for the erection of pole or stay of D.P. etc.
1.4 ERECTION OF POLES : a. PSC POLE :
PSC poles should be erected perpendicular to ground level including excavation of earth pit
having depth equal to 1/5 th the length of pole and cross-section 75 cm x 50 cm as directed by
department including dragging and carrying of pole to site as per soil condition as given below.
(i) earth filling with soil at bottom and surrounding with vigorous ramming;
(ii) earth filling with soil at bottom and surrounding with vigorous with boulder packing including
supply of boulder by contractor ( size of boulder 150mm x 200mm);
(iii) grouting and mufflering in proportion 1:2:4 RCC foundation and filling of cement concrete as
per specification including supply of cement , stone chips, shuttering etc. as directed ]
b. POLE CLAMP: The pole clamp is to be made of MS flat of size 40 mm x 6 mm with necessary drilling of holes
and painting with primer and anti corrosive paint suitable for different size of steel tubular pole
and PSC pole.
1.5 ERECTION OF SUPPORTS After the excavation of pits is completed the supports to be erected may be brought to the pits
location. Then the pole may be erected inside the pit. Wooden support may be utilized to
facilitate lifting of the pole at the pit locations.
Before the pole is put into pit, RCC padding may be laid below the pole to increase the surface
contact between the pole and the soil. The padding will distribute the weight of the pole
uniformly on the soil.
Having lifted the pole, the same should be kept in a vertical position with the help of manila rope
of 25 mm dia using the rope as a temporary anchor.
As the poles are being erected say from the pole already erected to the next location where the
pole is being erected, the alignment of the poles are to be checked and set right by visual check.
The verticality’s of the poles are to be checked with a spirit level on both transverse and
longitudinal directions.
Having satisfied that the verticality and alignment are all right, earth filling or concreting is to be
done.
In swampy and special locations, however, before earth filing, the poles are to be concreted up to
ground level of the pit.
After the poles have been set the temporary anchors are to be removed. The supports shall be
buried to a depth as per REC construction standard.
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1.6 ERECTION OF D.P. STRUCTURES FOR ANGLE LOCATIONS (FOR 11 KV LINES) Generally, for angles of deviation more than 20° double pole structures of spacing 1.2 mts (4.0 ft)
may be erected. The pits are to be excavated as per bisection of the angle of deviation.
After the poles are erected, the horizontal / cross bracing should be fitted and the supports held in a
vertical position with the help of temporary guys of manila rope of at least 25 mm dia. Ensuring that
the poles are held in a vertical position (this can be checked with a spirit level) the concreting of the
poles with cement, granite chips of size 20/30 mm mesh and sand in the ratio M400 conforming to
ISS is to be done from the bottom of the support to the ground level. Before lifting the pole in the
pit, concrete padding of not less than 75 mm thickness may be put for the distribution of the load of
the support on the soil.
After the concreting is done, the pit may be filled with earth after curing of the concrete is
completed.
Four stays along the line, two in each direction and two stays along the bisection of angle of
deviation are to be provided.
Stay concreting may be done with M 400 concrete mixture
The D.P. shall be erected as per the approved drawing.
1.7 ANCHORING AND PROVIDING GUYS FOR SUPPORTS Fitting of stay set on overhead line including digging of earth pit of area 90cm x 60 cm and depth of
1.4 m placing the stay rod with G.I stay wire Guy insulator on pole clamp , fixing of thimble bow etc
with hard soil packing and ramming to fill up pit to ground level.
Guys are to be provided to the supports at the following places (i) Angle locations, (ii) Dead end
locations, (iii) Tee-off points, (iv) Steep gradient locations to avoid uplifted on the poles.
The installation of guy will involve the following works:
i) Excavation of pit and fixing of stay rod. ii) Fastening guy wire to the support. iii) Tightening guy wire and fastening to the anchor
The marking of the guy pit for excavation, the excavation of pits and setting of the anchor rod must
be carefully carried out. The stay rod should be placed in the position such that the angle of
inclination of the rod with the vertical face of the point is 30°/45° as the case may be. The concreting
of the stay at the bottom should then be carried out. The back filling and ramming must be well done
thereafter, and allowed to set for at least 7 days. The free end of the guy wire is passed through the
eye of the anchor rod, bent back parallel to the main portion of the guy and bound after inserting
the G.I. Thimble. The loop is protected by the G.I. Thimble, where it bears on the anchor rod. Where
the existence of guy wire proves hazardous, it should be protected with suitable asbestos pipe, filled
with concrete of about 2 mts length above the ground level, duly painted with white and black stripe
so that it may be visible at night. The turn buckle shall be mounted at the pole end of the stay and
guy wire so fixed that the eye bolt turn buckle is half way in the working position, thus giving the
maximum movement for tightening or loosening.
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Guy insulators are placed to prevent the lower part of the guy from becoming electrically energized
by a contact of the guy when the conductors snap and fall on them of due leakage. No guy insulator
shall be located less than 2.6 mts. from the ground.
The anchoring and providing guys for supports (Single guy Bow guy fly guy) shall be done as per
sketch enclosed. Bow guy and fly guy shall be provided as per field conditions.
HT GUY INSULATOR
Power
line
Voltage
Designation
of Insulator
Dry one minute
power frequency
withstand voltage
Wet one minute
power frequency
withstand
voltage
Minimum failing
load
33 KV C 27 KV ( r.m.s) 13 KV ( r.m.s) 88 KN
[ for 33 KV , 2 insulators to be used in series]
1.8 FIXING OF CROSS ARMS INSULATORS
After the erection of supports and providing guys, the next step would be to mount the cross arms on
the support erected. The lineman should climb the support having requisite tools with him and the
cross arm is then tied to a hand line and pulled up by the ground man and should station himself well
to one side so that if any material drops from the top of the pole it may not strike him. All the
materials required should be lifted or lowered by means of the hand line. In no case, the materials of
the tools should be dropped or thrown from the pole top.
The fixing of 33 KV Cross arms shall be in accordance to spacing detailed in Sketch. G.I. bolts and nuts
and spring washers of good quality only shall be used which will have to be procured by the
contractor.
1.9 Back Clamps
The back clamps for fixing of the seating channels, “V” cross arms, horizontal cross arms and top
cleats will have to be procured by the contractor and shall be in accordance with sketch enclosed
and the clamp shall be fabricated with 75 X 8 mm M.S. Flat for 33 KV
2.0 Top Cleats
The top cleats shall be got fabricated with M.S. Channel of size 75 X 40 mm for 33 KV and shall be in
accordance with REC construction standard.
2.1 INSULATORS
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The pins for insulators shall be fixed in the holes provided in the cross arms and the pole top
brackets. The insulators shall be mounted in their places over pins and tightened. In the case of
strain or angles supports, where strain fittings are provided for this purpose, one strap of the strain
fitting is placed over the cross arm before placing the bolts in the hole of the cross arms. The nut of
the strap is so tightened that the strap can move freely in horizontal direction, as this is necessary to
fix the strain insulator.
The insulator shall be cleaned and examined for defects before fixing, it shall be ensured that all the
current carrying parts are smooth and without dirt, cracks or chips.
Disc Insulator Strings
Each insulator string shall consist of following numbers of Disc Insulator units.
Sl
No
Type of String No of Disc Insulator
Unit for 33 KV
No of Disc Insulator Unit
for 11 KV
1. Suspension 3 2
2. Tension 3 2
2.2 STRINGING OF THE LINE CONDUCTORS
For the guidance of the contractor certain do’s and don’ts are given below before the workmen
actually commence the stringing work.
a. Do’s and Don’ts DO’s
i. Use proper equipment for handling aluminum conductors at all times. ii. Use skids, or similar method for lowering reels or coils from transport or
ground. iii. Examine reel before unreeling for presence of nails or any other object, which
might damage the conductor. iv. Rotate the reel or coil while unwinding conductor. v. Grip all strands while pulling out the conductor. vi. Control the unreeling speed with suitable braking arrangement. vii. Use wooden guards of suitable braking arrangement. viii. Use long straight, parallel jaw grip with suitable liners when pulling conductor
thus avoiding nicking or kinking of the conductor. ix. Use free running sleeves or blocks with adequate grooves for drawing/paving
conductors. x. Use proper sag charts. xi. Mark conductors with crayons or adhesive tape of such (other) material, which
will not damage the strand. xii. Make all splicing with the proper tools. xiii. Use a twisting wrench for twisting the joints. xiv. Chromite or graphite conducting oxide-inhibiting grease should be used before
cleaning with wire brush. DON’Ts
i. Do not handle conductors without proper tools at any stage. ii. Do not pull conductors without ensuring that there are no obstructions on the
ground.
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iii. Do not pull out excess quantity of conductor than is required. iv. Do not make jumper connections on dirty or weathered conductor. v. Do not handle aluminum conductors in a rough fashion but handle it with care
it deserves. b. Conductor erections
The erection of overhead line conductor is a very important phase in construction. The erection
of conductors can be sub-divided into 4 separate parts as follows:
i. Transport of conductors to work site. ii. Paving and stringing of conductors. iii. Tensioning and sagging of conductors. iv. Joining of conductors. At the important crossing of roads, canals, navigable rivers, railways etc., flagmen should be in
attendance to ensure that normal services are not unduly interrupted. These crossing should only
be carried out in conjunction with and with the approval of the proper authorities concerned.
The conductor drums shall be transported to the tension point without injuring the conductor, if,
it is necessary to roll the drum on the ground for a small distance, it should be slowly rolled in the
direction of the marked on the drum. The drum should be so supported that it can be rotated
freely. For this purpose the drum should either be mounted on the cable drum supports of jacks
or hung by means of chain pulley of suitable capacity, suspended from a tripod. In case if it is not
possible to raise the conductor drum by any of the above method, a trench of suitable depth
slightly bigger than the conductor drum may be dug, so as to facilitate free rotation of the cable
drum when it is suspended in the trench by means of M.S. Shaft. While paving, care should be
taken to see that conductor does not rub against any metallic fitting of the pole or on the
bad/rocky ground. Wooden trusses should be used for this purpose to support the conductor.
The conductor should be passed over the poles on wooden or aluminum snatch pulley blocks
provided with low friction bearings. While conductor is being paved out slowly, some braking
arrangement should be made so that the rotation of the drum may be stopped in emergency.
In case the length of one piece of the conductor is less than the length of the section in which
conductor paving is being done, it is easy to stretch one length of all phases from one end the
remaining length from another end of the section any part of the conductor shall be left at a
height of less than that of 5 meters, above the ground by rough sagging.
c. Mid Span Jointing of Conductors The mid span jointing of conductors can be carried by twisting the joint at the ends and the wire
should project a few centimeter, beyond the end of the sleeves. The projected wires are given a
sharp bend to keep them from slipping out of the sleeve. The end of the sleeves are then held
tightly by twisting wrenches and then 4 to 5 turns in one direction generally anti-clock wise
direction. Crimping Tools are preferably to be used for joints and jumpers.
d. Sagging and tensioning On the completion of the paving of the conductors and making mid span joints if any, tensioning
operations will commence. Temporary guys will have to be provided for both the anchoring
supports in the section where the stringing has to be done. At the tensioning end, one of the
conductors is pulled manually up to a certain point and then come along clamp is fixed to the
conductor to be tensioned. The grip to the come along clamp is attached to double sleeve pulley
block or the pulley lift machine and gradually tensioned.
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The conductor should then be sagged in accordance with the sag temperature chart for the
particular conductor and span. The sag should then be adjusted in the middle span of the section.
The sag chart is to be provided. The stretch of the conductor has to be taken out before stringing
in order to avoid the gradual increase in sag due to the setting down of the individual wires.
There are ways of accomplishing this:
a) Pre-stressing In this method the conductor is pulled up to tension considerably above the correct figures, but
never exceeding 50% of breaking load for a short period of say twenty minutes. As this method
requires more time and involves the use of stronger tackle to secure the higher tension the other
method of over tensioning is commonly adopted.
b) Over-tensioning This method consists of pulling up the conductor to a tension a little above the theoretical
tension for prevailing temperature and fixed it up at that tension with correspondingly reduced
sag. After a certain time the conductor will settle down to the correct sag and tension. A tension
of five to eight percent more than the theoretical value has been found to be suitable for the
sizes of ACSR and AAAC conductors standardized by REC. The ambient temperature during
sagging may be recorded correctly.
Conductors can be sagged correctly only when the tension is the same in each span throughout
the entire length of section. Use of snatch blocks reduces the friction and chances of inequality of
tension in various spans.
Sagging can be accomplished by several different methods but most commonly used method is
“Slighting”. The slighting sag method of measuring sag is by the use of targets placed on the
supports below the cross arms. The targets may be light strip of wood clamped to the pole at a
distance equal to the sag below the conductor when the conductor is placed in snatch block. The
lineman sees the sag from the next pole. The tension of the conductor is then reduced or
increased, until the lowest part of the conductor in the span coincides with the lineman’s line of
sight.
When sagging is completed, the tension clamps shall be fixed. The clamp can be fitted on the
conductor without releasing the tension. A mark is made on the conductor at a distance from the
cross-arm equal to the length of complete strain insulator. Before the insulator set is raised to
position, all nuts should be free. Come along clamp is placed on the conductor beyond the
conductor clamp and attached to the pulling unit. The conductor is pulled in sufficiently to allow
the insulator assembly to be fitted to the clamp. After the conductor is clamped to insulator,
assembly unit may be released gradually.
If the tension is released with a jerk, an abnormal stress may be transferred to conductor and
support, which may result in the failure of the cross arm, stay or pole in some cases. After the
stringing is completed, all poles, cross arms, insulators, fittings etc. are checked upto ensure that
there have been no deformities etc.
The next step is to place the conductor on the top of the pin insulator from the snatch block and
removing snatch blocks. Conductors are then fastened to insulator by the use of aluminum wires.
The following points should be observed:
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i) Proper size of the tie binding wire which can be readily handled and with adequate strength is to be used.
ii) The length of tie wire should be sufficiently long for making complete tie including the end allowances for gripping with ends.
iii) A good tie should provide a secure binding between the line conductor and insulator and should reinforce the conductor on either side of the insulator.
iv) The use of cutting pliers for binding the tie wire should be avoided. v) The tie wire which has been used previously should be reused
Before tying the conductor to the insulator two layers of Aluminum tapes should be wrapped
over the conductor in the portion where it touches the insulator. The width and thickness of
aluminum tape to be used for a specific size of conductors has been specified in hand books of
aluminum conductor manufacturers and the same be referred to. The Aluminum tapes should
also be used at the tension clamp and for proper grip.
Normally in straight runs of line, the conductors are run on the top of insulators. When there is
small of deviation the conductor is placed inside groove and bound. Accordingly, there are two
methods of tying the conductors to insulators. The binding wire/tie wire has to be procured by
the contractor and the bid price shall include the cost of this.
The contractor shall be entirely responsible for any damage to the supports, other accessories
and conductor. He shall also be responsible for proper distribution of the conductor drums to
keep number and lengths of cut pieces of the conductor to a minimum.
e. Conductor damage and repair If the conductor is damaged for whatever reasons, and damage is not repaired by aluminum
sleeves, etc., it shall be brought to the notice of the Engineer and shall not be used without his
approval. Even repairing of conductor surfaces shall be done only in case of minor damages, scuff
marks etc., which are safe from both electrical and mechanical points of view. The final;
conductor surface shall be clean, smooth, without any projection sharp points, cut or abrasion
etc. giving satisfactory corona and R.I. performance.
No joints or splice be made in span’s crossing over main roads, railways, small rivers or intension
spans. Not more than one joint per conductor shall be allowed in one span. The strength of the
joint shall conform to IE Rule 75.
f. Stringing. Whatever necessary ground clearances have to be measured to ensure obtaining adequate line
clearance as per IE Rule 77 (i)
GUARDING :
When an overhead line crosses or is in proximity of any telecommunication line arrangement shall be made to provide protective device or guarding.
When an overhead line crosses or is in proximity of to another over head line or overhead lines of different voltage on same supporting structure guarding arrangement shall be provided so as to guard against the possibility of their coming into contact with each other.
Every guard-wire shall be an actual breaking strength of not less than 635 kg and if made of iron or steel shall be galvanize.
Every guard-wire shall be connected with earth at each point at which its electricity continuity is broken.
EARTHING
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g. Pipe earthling At D.P Locations, Pits are to be excavated the steel and metal parts are to be earthed by pipe
earthing as per the drawing or sketch enclosed to this specification. Duly filling the pits with
finely broken coke having granule sizes not more than 25 mm thick. The coke shall be maintained
up to a distance of 300 mm for the pipe on all sides. The top edge of the pipe shall be at least 200
mm below the ground level. The CI strips shall be fixed not less than 300 mm deep from the
ground level.
The tenders shall quote the charges for earthing inclusive of the cost of coke, excavation and
back filling.
h. Pole Earthing: All Supports shall be properly earthed.
2.3 CONCRETING
The cement concrete used for the foundations shall be of M 400 grade.
The full concreting for the poles if erected in excavated act shall be done so that the complete
block will be of dimensions( 0.6 X 0.6 X 1.6) + 0.2 X 0.2 Mtr. (0.6 X 0.6 X 1/35) + 0.2 X 0.2 X 0.2
Mtrs. so as to maintain as exposed portion for 0.2 Mtrs height above the ground level.
If augur is used for making pole pits, ramming shall be done after erection of pole.
2.4 WORKMANSHIP
The contractor shall entirely be responsible for correct erection of all support as per the
approved drawings, and their correct setting and alignment, as approved by the engineer. If the
supports and D.P. structures after the erection are found to differ from approved route maps and
drawings or to be out of alignment, the contractor shall dismantle and re-erect them correctly at
his own cost without extension of time. The supports must be truly vertical and in plumb after
erection and no straining will be permitted to bring them to vertical position. Verticality of each
support shall be measured by the contractor and furnished to the Engineer.
2.4.1 Location numbers for each pole shall be painted on the pole.
2.4.2 Anti-climbing devices, and danger boards are to be provided at all railway crossings and road
crossings. No extra charges shall be admissible even though separate gangs may have to be sent
by the contractor for fitting these accessories and attachments on the support at the appropriate
time.
2.5 FINAL CHECKING, TESTING AND COMMISSIONING
After the completion of the work final patrolling and checking of the line shall be done by the
contractor to ensure that all foundations work, pole erection and stringing have been done as
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approved by the Engineer, and also to ensure that they are completed in all respects. Contractor
shall prepare pole schedules and hand it over to the Engineer. All works shall be thoroughly
inspected keeping in view of the following main points.
i) Sufficient back filled earth is lying over each foundation pit and it is adequately compacted.
ii) Concreting and coping of poles are in good and finally shaped conditions. iii) All the accessories and insulators are strictly as per drawings and are free from any
defects or damages, what-so-ever. iv) All the bolts and nuts should be of G.I material and as per contractual provisions. v) The stringing on the conductor has been done as per approved sag and desired
clearances are available. vi) No damage, minor or major to the conductor, earth wire, accessories and insulator
strings still unattended are noticed. vii) For all points double jumpers shall be provided to each phase. The jumpers provided at
the cut points are connected rigidly to the tension hardware utilizing all the jointing bolts provided for the purpose.
The contractor shall submit a report to the above effect to the Engineer. In case, it is noticed
later that some or any of the above are not fulfilled the Engineer will get such items rectified
through other agencies and recover the cost of such works from the bills payable to the
contractor against that contract or any other contract executed by him for APDCL.
After final checking, the lines shall be tested for insulation in accordance with tests prescribed by
the Engineer. All arrangements for such testing or any other tests desired by the Engineer shall
be done by the Contractor and necessary labour, transport and equipment shall be provided by
him. Any defects found out as a result of such tests, shall be rectified by the Contractor,
forthwith, without any extra charges to APDCL,.
In addition to the above, the Contractor shall be responsible for testing and ensuring that the
total and relative sags of the conductors are within the specified tolerance. Such tests shall be
carried out at selected points along the route as required by the Engineer and the Contractor
shall provide all necessary equipment and labour to enable the tests to be carried out.
The APDCL, will arrange statutory inspection of the line and indicate the defects noticed. The
Contractor has to rectify all such defects and intimate to APDCL, Engineer.
After satisfactory tests on the line and an approval by the Engineer the line shall be energized at
full operating voltage before handing over.
2.6 SUPPLY OF CONSTRUCTION MATERIALS BY THE CONTRACTOR
The Contractor has to make his own arrangements for procurement, supply and use of
construction materials like cement, M.S. rounds, HBG metal and sand.
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2.6.1 CEMENT
The contractor has to make his own arrangements for the procurement of cement to require
specifications required for the work subjected to the follows:
a) The contractor shall procure cement, required for the works only from reputed cement
factories (Man producer) acceptable to the Project Manager. The contractor shall be required to
be furnished to the Engineer-in –Charge bills of payment and test certificates issued by the
manufacturers to authenticate procurement of quality cement from the approved cement
factory. The contractor shall make his own arrangement for adequate storage of cement.
b) The contractor shall procure cement in standard packing of all 50 kg per bag from the
authorized manufactures. The contactor shall make necessary arrangement at his own cost to
the satisfaction of Project Manager for actual weighment of random sample from the available
stock and shall conform to the specification laid down by the Indian Standard Institution or other
standard foreign institutions as the case may be. Cement shall be got tested for all the tests as
directed by Project Manager at least one month in advance before the use of cement hags
brought and kept on site Godown. Cement bags required for testing shall be supplied by the
contractor free of cost. However, the testing charges for cement will be borne by the APDCL. If
the tests prove unsatisfactorily, then the charges for cement will be borne by the contractor.
c) The contractor should store the cement of 60 days requirement at least one month in advance
to ensure the quality of cement so brought to site and shall not remove the same without the
written permission of the Project Manager.
The contractor shall forthwith remove from the works area any cement that the Project Manager
may disallow for use, an account of failure to meet with required quality and standard.
d) The contractor shall further, at all times satisfy the Project Manager on demand, by production
of records and books or by submission of returns and other proofs as directed, that the cement is
being used as rested and approved by Project Manager for the purpose and the contractor shall
at all times, keep his records upto date to enable the Project Manager to apply such checks as he
may desire.
e) Cement which has been unduly long in storage with the contractor or alternatively has
deteriorated due to inadequate storage and thus become unfit for use in the works will be
rejected by the department and no claim will be entertained. The contractor shall forthwith
remove from the work area, any cement the Project Manager may disallow for use on work and
replace it by cement complying with the relevant Indian Standards.
2.6.2 STEEL
The contractor shall procure mild steel reinforcement bars, high yield strength deformed(HYSD)
bars, rods and structural steel etc. required for the works only from the main or secondary
producers manufacturing steel to the prescribed specifications of Bureau of Indian Standards or
equivalent and licensed to affix ISI or other equivalent certification marks and acceptable to the
Project Manager. Necessary ISI list certificates are to be produced to Project Manager before use
on works. The unit weight and dimensions shall be as prescribed in the relevant Indian Standard
specification for steel.
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2.7 INFORMATION AND DATA
a) The information furnished is the best available however, the APDCL does not guarantee the correctness of interpretations, deductions or conclusions which are given as supplementary information in the Bid Documents or in any reports, maps, drawings, diagrams or in other reference information available to the bidder from APDCL of or otherwise. The information has been produced as found, communicated to ascertained or
otherwise/learned by the APDCL.
b) it will be the Bidder’s responsibility to satisfy himself from the “Reference Information” supplied and or inspection of the site that sufficient quantities of construction materials required for the works shall exist in the designated borrow areas or quarry sites. The APDCL does not accept any responsibility either in handing over the quarries or
procuring the materials or any other facilities. The Tenderer will not be entitled for any extra
rate or claim for the misjudgment on his part for the quantity and quality of materials
available in the quarries.
Failure by the Bidder to have done all the timings which is in accordance with this condition
he is deemed to have done shall not relieve the successful Bidder of the responsibility for
satisfactorily completing the work as required at the rates quoted by him.
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6.2 TECHNICAL SPECIFICATION FOR PSC POLES [9.75 M]
1.0 SCOPE
This covers design manufacturing, testing at works, transport to site, insurance, storage, erection
and commissioning of PSC poles shall be of solid rectangular with an overall length of 9.75M
suitable for use in overhead 33KV / 11 KV lines
2.0 Applicable Standards
The pre-stressed concrete pole (psc ) shall comply with the relevant provisions mentioned' in the'
following Indian Standards or the latest versions thereof or equivalent international specifications.
a) IS: 1678, Specification for pre-stressed concrete poles for overhead power, traction and
telecommunication lines.
b) IS: 2905, Method of test for concrete poles for overhead power and telecommunication lines.
c) IS: 7321, Code of Practice for selection, handling and erection of concrete poles for overhead
power and telecommunication lines.
REQUIRED TECHNICAL PARAMETERS FOR 9.75 M PSC POLES
3.0 Terminology
For the purpose of this specification, following definitions shall apply:
3.1 Average Permanent Load
That fraction of the working load which may be considered of long duration over a period of one
year.
3.2 Load Factor
The ratio of ultimate transverse load to the transverse load at first crack.
3.3 Transverse
The direction of the line bisecting the angle contained by the conductor at the pole. In the case of
a straight run, this will be normal to the run of the line.
3.4 Transverse Load at First Crack
For design, the transverse load at first crack shall be taken as not less than the value of the
working load.
3.5 Working Load
The maximum load in the transverse direction, that is ever likely to occur, including the wind
pressure on the pole. This load is assumed to act at a point· 600 mm below the top with the butt
end of the pole planted to the required depth as intended in the design.
3.6 Ultimate Failure
The condition existing when the pole ceases to sustain a load increment owing to either crushing
of concrete, or snapping of the pre-stressing tendon or permanent stretching of the steel in any part
of the pole.
3.7 Ultimate Transverse Load
The load at which failure occurs, when it is applied at a point 600 mm below the top and
perpendicular to the axis of the pole along the transverse direction with the butt end of the pole
planted to the required depth as intended in the design.
4.0 Application
4.1 9.75 M PSC Pole
4.2 These poles shall be used for 33 kV lines, and for special locations in 11 kV lines, such as road
crossings, etc.
5.0 Material
6.0 Cement
The cement used in the manufacture of pre-stressed concrete poles shall be ordinary or rapid
hardening Portland cement conforming to IS: 269 (Specification for ordinary and low heat Portland
cement) or IS: 8041 E (Specification for rapid hardening Portland cement), or high strength
ordinary Portland cement conforming to IS: 8112 (Specification of high strength ordinary Portland
cement).
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7.0 Aggregates
Aggregates used for the manufacture of pre-stressed concrete poles shall confirm to IS: 383
(Specification for coarse and fine aggregates from natural sources for concrete) or equivalent
international specifications. The nominal maximum size of aggregates shall in no case exceed 10
mm (for poles above 9.0 M) and 12 mm (for 7.5 and 8.0 M poles).
8.0 Water
Water should be free from chlorides, sulphates, other salts and organic matter, Potable water will
be generally suitable.
8.1 Admixture
Admixture should not contain Calcium Chloride or other chlorides and salts which are likely to
promote corrosion of pre-stressing steel.
8.2 Pre-stressing Steel
The pre-stressing steel wires including those used as un-tensioned wires (See Annexure. I, II &
III), should conform to IS: 1785 (part-I) (Specification for plain hard-drawn steel wire for pre-
stressed concrete. Part-I cold drawn stress relieved wire), IS: 1785 (part-II) (Specification for
plain hard-drawn steel wire) or IS: 6003 (Specification for indented wire for pre-stressed
concrete). The type designs given in Annexure-I, II and III are for plain wires of 4 mm diameter
with a guaranteed ultimate strength of 175 kg/mm2.
The concrete mix shall be designed to the requirements laid down for controlled concrete (also
called design mix concrete) in IS: 1343 (Code of practice for pre-stressed concrete) and IS: 456
(Code of practice for plain and reinforced concrete), subject to the following special conditions:
a) Maximum works cube strength at 28 days should be at least 400 kg/cm2 (for poles above 9.0 M) and
420 kg/cm2 (for 7.5 and 8.0 M poles).
b) The concrete strength at transfer should be at least 200 kg/cm2 (for poles above 9.0 M) ·and 210
kg/cm2 (for 7.5 and 8.0 M poles).
c) The mix should' contain at least 380 kg of cement per cubic meter of concrete.
d) The mix should contain as Iowa water content as is consistent with adequate workability. If it becomes
necessary to add water to increase the workability, the cement content also should be raised in such a
way that the original value of water cement ratio is maintained.
9.0 DESIGN REQUIREMENTS
The poles shall be designed for the following requirements:
a) The poles shall be planted directly in the ground with a planting depth as per IS:
1678 or equivalent international specifications.
b) The working load on the poles should correspond to those that are likely to come on the pole
during their service life. Designs given in Annexure I,ll and III are for 140 kg, 200 kg, 300 kg,
and 400 kg., applied at 0.6 M from top.
c) The factor of safety for all poles above 9.5 M shall not be less than 2.0. For 7.5 M and 8.5 M
poles, the factor of safety shall not be less than 2.5.
d) The average permanent load shall be 40% of the working load.
e) The F.O.S. against first load shall be 1.0.
f) At average permanent load, permissible tensile stress in concrete shall be 30 kg/cm2.
g) At the design value of first crack load, the modulus of rupture shall not exceed 53.0 kg/cm2
for M-400 concrete and 55.2 kg/cm2 for M-420 concrete.
h) At the design value of first crack load, the modulus of rupture shall not exceed 53.0 kg/cm2
for M-400 concrete.
i) The ultimate moment capacity in the longitudinal direction should be at least
one fourth of that il1 the transverse direction.
j) The maximum compressive stress in concrete at the time of transfer of pre-stress should not exceed
0.8 times the cube strength.
k) The concrete strength at transfer shall not be less than half the 28 days strength ensured in the design,
i.e., 400 x 0.5 = 200 kg/cm2 or 420 x 0.5 = 210 kg/cm
2.
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10.0 Service Conditions
PSC poles have to be designed to suit the following climatic conditions:
a) Maximum temperature of air in shade 40°C
b) Minimum temperature of air in shade 2°C
c) Maximum temperature of air in sun 45°C
d) Maximum humidity 93%
e) Average number of thunder storm days per 45 Days
annum
f) Maximum rainfall per annum 3500 mm
g) Average rainfall per annum 2200 mm
h) Wind pressure 97.8 Kg/m2
i) Altitude above MSL 100 to 1000 M
11.0 Dimensions and Reinforcements
The cross-sectional dimensions and the details of pre-stressing wires should conform to the
particulars given in Annexure-I, II and III.
The provisions of holes for fixing cross-arms and other fixtures should conform to the REC
standards .
12.0 Manufacture
12.1 Attire--stressing wires and reinforcements shall be accurately fixed as shown in drawings and
maintained in position during manufacture. The un-tensioned reinforcement, as indicated in the
drawings, should be held in position by the use of stirrups which should go round all the wires.
AII wires shall be accurately stretched with uniform pre-stress in each wire. Each wire or a group
of wires shall be anchored positively during casing. Care should be taken to see that the
anchorages do not yield before the concrete attains the necessary strength.
13.0 Cover
The cover of concrete measured from the outside of pre-stressing tendon shall be normally 20 Nm.
14.0 Welding and Lapping of Steel
The high tensile steel wire shall be continuous over the entire length of the tendon. Welding shall
not be allowed in any case. However, jointing or coupling may be permitted provided the strength
of the joint or coupling is not less than the strength of each individual wire.
15.0 Compacting Concrete shall be compacted by spinning, vibrating, shocking or other suitable mechanical means.
Hand compaction shall not be permitted.
16.0 Curing The concrete shall be covered with a layer of sacking, canvass, Hessian or similar absorbent
material and kept constantly wet up to the time when the strength of concrete is at least equal to
the minimum strength of concrete at transfer of pre-stress. Thereafter, the pole may be removed
from the mould and watered at intervals to prevent surface cracking of the unit, the interval
should depend on the atmospheric humidity and temperature.
The pre-stressing wires shall be detensioned only after the concrete has attained the specified
strength at transfer (i.e., 200 or 210 kg/cm2 as applicable). The cubes cast for the purpose of
determining the strength at transfer should be cured, as far as possible, under conditions similar to
those under which the poles are cured. The transfer stage shall be determined based on the daily
tests carried out on concrete cubes till the specified strength indicated above is reached.
Thereafter the test on concrete shall be carried out as detailed in IS: 1343 (Code of practice for
pre-stressed concrete). The manufacturer shall supply, when required by the owner or his
representative, result of compressive test conducted in accordance with IS: 456 (Code of practice
for plain and reinforced concrete) on concrete cubes made from the concrete used for the poles. If
the owner so desired, the manufacturer shall supply cubes for test purposes and such cubes shall
be tested in accordance with IS: 456 (Code of practice for plain and reinforced concrete).
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The detensioning shall be done by slowly releasing the wires, without imparting shock or sudden
load to the poles. The rate of detensioning may be controlled by any suitable means either
mechanical (screw type) or hydraulic.
The poles shall not be detensioned or released by cutting the pre-stressing wires using flames or
bar croppers while the wires are still under tension.
Separate eye-hooks or holes shall be provided for handling the transport, one each at a distance of
0.15 times the overall length, from either end of the pole. Eye-hooks, if provided, should be
properly anchored and should be on the face that has the shorter dimension of the cross-section.
Holes, if provided for lifting purposes, should be perpendicular to the broad face of the pole.
Stacking should be done in such a manner that the broad side of the pole is vertical. Each tier in
the stack should be supported on timber sleeper located as 0.15 times the overall length,
measured from the end. The timber supported in the stack should be aligned in a vertical line.
Poles should be transported with their broad faces placed vertically and, in such a manner that the
shocks are avoided. Supports should be so arranged that they are located approximately at a
distance equal to 0.15 times the overall length from the ends. The erection of the pole should be
carried out in such a way that the erection loads are applied so as to cause moment with respect to
the major axis, i.e., the rope used for hoisting the pole should be parallel to the broader face of
the pole.
17.0 Earthing
17.1 Earthing shall be provided by having length of 8 SWG GI wire embedded in concrete during
manufacture and the ends of the wires left projecting from the pole to a length of 100 mm at 250
mm from top and 150 mm below ground level.
17.2 Earth wire shall not be allowed to come in contract with the pre-stressing wires.
17.3 Tests
18.0 Transverse Strength Test
Poles made from ordinary Portland cement shall be tested only on the completion of 28 days and
poles made from rapid hardening cement only on the completion of 14 days, after the day of
manufacture.
The poles may be tested in either horizontal or vertical position. If tested in horizontal position,
provisions shall be made to compensate for the overhanging weight of the pole, for this purposed,
the overhanging portion of the pole may be supported on a movable trolley or similar device.
The pole shall be rigidly supported at the butt end for a distance equal to the agreed depth of
planting.
Load shall be applied at a point 600 mm from the top of the pole and shall be steadily and
gradually increased to the design value of the transverse load at first crack. The deflection at this
load shall be measured.
A pre-stressed concrete pole shall be deemed not to have passed the test if visible cracks appear at
a stage prior to the application of the design transverse load for the first crack.
The load then be reduced to zero and increased gradually to a load equal to the first crack load plus
10% of the minimum ultimate transverse load, and held up for 2 minutes. This procedure shall be
repeated until the load reaches the value of 80 per cent of the minimum ultimate transverse load
and thereafter increased by 5 per cent of the minimum ultimate transverse load until failure occurs.
Each time the load is applied, it shall be held for 2 minutes. The load applied to pre-stressed
concrete pole at the point of failure shall be measured to the nearest five Kilograms.
The pole shall be deemed not to have passed the test if the observed ultimate transverse load is
less than the design ultimate transverse load.
19.0 Measurement of Cover
After completion of the transverse strength test, the sample pole shall be taken and checked for
cover. The cover of the pole shall be measured at 3 points, one within 1.8 meter from the butt end
of the pole. the ·second within 0.6 meters from the top and the third at an intermediate point and
the mean value compared with the specified value.
The mean value of the measured cover should not differ by more than (±) 1 mrn from the specified
cover. The individual values should not differ by more than (±) 3 mm from the specified value.
If these requirements are not met, the workmanship with reference to aligning of the end plates
and pre-stressing wires and assembly of moulds should be improved and inspection at pre-
production stage tightened suitably.
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20.0 Marking
The pole shall be clearly and indelibly marked with the following particulars either during or after
manufacture but before testing at a position so as to be easily read after erection in position.
a) Month and year of manufacture
b) Transverse strength of pole in Kg
c) Maker's serial No and mark and Project .
21.0 Inspection
Inspection may be carried out by the purchaser or third party nominee at any stage of manufacture.
The supplier shall grant free access to the purchaser's representative or third party nominee at a
reasonable time when the work is in progress. Inspection and acceptance of any equipment under
this specification by the purchaser shall not relieve the supplier of his obligation of furnishing
equipment in accordance with the specification and shall not prevent subsequent rejection if the
equipment is found defective.
SL
NO
ITEM PARAMETERS
1 Type of Pole 9.75 M P.S.C pole 8.5 M PSC Pole 7.5 M P.S.C pole
3 Length of pole 9.75 Mts. 8.5 Mts. 7.5 Mts.
4 Depth of Plantation 1.8 Mts. 1.5 Mts. 1.5 Mts.
5 Bottom Depth 350 mm 300 mm 250 mm
6 Top Depth 175 mm 162 mm 140 mm
7 Breath 120 mm 112 mm 105 mm
8 Diameter of pre-stressing wire 4 mm 4 mm 4 mm
9 No. of tensioned wire per pole 22 Nos of 4mm
dia.
16 Nos of 4mm
dia.
12 Nos of 4mm
dia.
10 Minimum Ultimate Tensile strength of
4 MM HT wire
175 KG / SQMM 175 KG / SQMM 175 KG / SQMM
11 Minimum initial pull of 4 mm wire 1865 kg / wire 1865 kg / wire 1750 kg / wire
12 Spacing HT wires As per IS : 1343
/1960
As per IS : 1343
/1960
As per IS : 1343
/1960
13 Quantity of HT wire/ pole 21.45 KG 13.60 KG 9.0 KG
14 Link & spiral 3.540 KG ( 4 nos
,5 mm in bottom
& 4 nos ,5 mm in
top
4 nos ,5 mm in
bottom & 4 nos ,5
mm in top )
4 nos ,5 mm in
bottom & 4 nos ,5
mm in top )
15 M.S spiral 3 mm dia of 150
c/c
3 mm dia of 150
c/c
3 mm dia of 150
c/c
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16 Maximum Aggregate size 12 mm 12 mm 12 mm
17 Total weight per pole 750 KG 550 KG 360 KG
18 Minimum clear cover 20 mm 20 mm 20 mm
19 Factor of safety 2.5 2.5 2.5
20 Concrete grade M-420 M-420 M-420
21 Ultimate Load 675 KG 500 KG 350KG
22 Earthing shall be provided by 4 MM
dia. Galvanized iron wire embedded in
concrete
Projecting from
the pole at length
of 50 MM at 215
from top & 150
MM below
ground level
Projecting from
the pole at length
of 50 MM at 215
from top & 150
MM below
ground level
Projecting from
the pole at length
of 50 MM at 215
from top & 150
MM below ground
level
23 one marks to be provided at ground
level
at 1.8 M at 1.5 M At 1.25 M
24 28 days cube strength of concrete (
Min) as per IS : 456/2000.
420 KG / SQ.CM 420 KG / SQ.CM 420KG/SQ.CM
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6.3 TECHNICAL SPECIFICATION FOR STEEL TUBULAR
POLES FOR OVERHEAD LINES
1.0 Scope : 1.1 This specification covers the general requirements towards design, manufacture, testing at
manufacturers works, supply and delivery for tubular steel poles of circular cross section ( swaged
type ) for overhead lines.
2.0 Standard :
2.1. The tubular steel poles shall conform to the latest edition of Indian Standard specification
IS: 2713 ( Part – I, III ) : 1980 Specification for Steel Tubular poles
The Steel Tubular Poles conforming to other internationally accepted, which ensure equal or higher quality than the standards, mentioned above also be acceptable. In case the bidder who wish to offer material conforming to the other standards, salient points of difference between adopted and specific standards with authentic English Translation shall be furnished.
3.0 Topography and Climatic Condition :
3.1. The materials offered, shall be suitable for operation in tropical climate and will be subjected to
the sun and inclement weather and shall be able to withstand wide range of temperature variation.
For the purpose of design, average atmospheric temperature may be considered to be 50 °C with
humidity nearing saturation.
4.0 Materials :
4.1. The materials used in construction of tubular steel poles shall be of the tested quality of steels of
minimum tensile strength 540 MPa ( : 55 Kgf/mm2 ). Or 410MPa as the case may be.
4.2. The materials, when analysed in accordance with IS : 228 ( Part-III : 1972 ) and
IS : 228 ( Part-IX) shall not show sulpher and phosphorous contents of more than 0.060
percent each.
5.0 Types, Size and construction :
5.1. Tubular Steel Poles shall be swaged type.
5.2. Swaged poles shall be made of seamless or welded tubes of suitable lengths swaged and jointed
together. No circumferential joints shall be permitted in the individual tube lengths of the poles. If
welded tubes are used they shall have one longitudinal weld seam only : and thelongitudinal
welds shall be staggered at each swaged joint.
5.3. Swaging may be done by any mechanical process. The upper edge of each joint shall be
chamfered if at an angle of about 45o. The upper edge need not be chamfered if a circumferential
weld is to be deposited in accordance with clause No. 5.3 2 of IS: 2713 ( Part-I) :1980.
5.4. The length of joints on swaged poles shall be in accordance with clause No. 5.4 of IS: 2713(Par-
I): 1980.
5.5. Poles shall be well-finished, clean and free from harmful surface defects. Ends of the poles shall
be cut square. Poles shall be straight, smooth and cylindrical. The weld joints, if any, shall be of
good quality, free from scale, surface defects, cracks, etc.
5.6. Tolerances for outside diameter, thickness, length, weight and straightness shall be in accordance
with IS: 2713 (Part-I) : 1980.
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5.7. The poles shall be coated with black bituminous paint conforming to IS : 158-1968 throughout,
internally and externally, upto the level which goes inside the earth. The remaining portion of the
exterior shall be painted with one coat of red oxide primer as specified in IS: 2074-1979 or
equivalent international specifications.
6.0 Earthing Arrangements :
6.1. For earthing arrangement a through hole of 14mm diameter shall be provided in each pole at a
height of 300mm above the planting depth.
7.0 Principal parameters:
Sl.
No.
ITEM DESCRIPTION PARAMETERS PARAMETER PARAMETERS
1. Type of Pole SP-76 SP-66 SP-60
2. Overall Length 14.5 M 12.0 M 12.0 M
3. Planting Depth 2.0 M 2.0 M 2.0 M
4. Load Applied from top at
a distance of
0.60 M 0.60 M 0.60 M
5. Height above ground 12.5 M 10.0 M 10.0 M
6. Length of sections
a. a Bottom 6.5 M 5.80 M 5.80 M
b. Middle 4.0 M 3.10 M 3.10 M
c. Top 4.0 M 3.10 M 3.10 M
7. Outside Diameter &
thickness of section
A Bottom, MM 219.1 x5.90 219.1 x5.90 165.1 x 5.40
B Middle ,MM 193.7 x4.85 193.7 x4.85 139.7 x 4.50
C Top,MM 165.1 x 4.5 165.1 x 4.5 114.3 x 3.65
8. Approx. Wt of pole 380 KG 322 KG 208 KG
9. crippling load 514 kgf 650 kgf 333 kgf
10. breaking load 724 kgf 916 kgf 469 kgf
11. Ultimate tensile strength 410 MPa ( 42 KGf /
mm2 )
410 MPa ( 42 KGf
/ mm2 )
410 MPa ( 42 KGf /
mm2 )
12. Base Plate A Mild Steel base
plate of size 400
mm x 400 mm x 8
mm shall be
welded at the
bottom of the
pole.
A Mild Steel base
plate of size
400×400×8 mm
shall be welded
at the bottom of
the pole.
A Mild Steel base
plate of size
400×400×8 mm shall
be welded at the
bottom of the pole.
13. Painting The inner side &
outer underground
portion of the pole
is to be painted
The inner side &
outer
underground
portion of the
The inner side &
outer underground
portion of the pole is
to be painted with
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with black
bituminous paint
conforming to IS :
158-1968
throughout,[
internally and
externally, up to
the level which
goes inside the
earth]. The balance
outer portion of the
pole 9 12.5m) is to
be painted with 2
coat of metal
primer and 2 coats
of aluminium paint.
pole is to be
painted with
black bituminous
paint conforming
to IS : 158-1968
throughout,[
internally and
externally, up to
the level which
goes inside the
earth]. The
balance outer
portion of the
pole 9 12.5m) is
to be painted
with 2 coat of
metal primer and
2 coats of
aluminium paint.
black bituminous
paint conforming to
IS : 158-1968
throughout,[
internally and
externally, up to the
level which goes
inside the earth]. The
balance outer
portion of the pole 9
12.5m) is to be
painted with 2 coat
of metal primer and
2 coats of aluminium
paint.
8.0 Tests and Test Certificates :
8.1. The following tests shall be conducted on finished poles :
A. Tensile test and chemical analysis for sulpher and phosphorous ,
B. Deflocation test,
C. Permanent set test, and
D. Drop test.
8.2. In addition to above verification of dimensions as per IS : 2713 (Part-III) : 1980 shall be carried
out during acceptance of lots.
8.3. Number of poles selected for conducting different tests shall be in accordance to clause No.10.1.1
and No. 10.1.12: of IS: 2713 (Part-I) 1980.
8.4. Tests shall be carried out before supply of each consignment at the manufacturers woks and test
certificates should be submitted to the purchaser for approval prior to delivery.
8.5. Re-tests, if any, shall be made in accordance with IS: 2713 (Part-I) 1980.
8.6. Purchaser reserves the right to inspect during manufacturing and depute his representative to
inspect/test at the works.
8.7. If any extra cost is required for carrying out the above specified tests, the same shall be borne by
the tenderer.
9.0 Marking :
9.1. The poles shall be marked with designation, manufacturer’s identification, year of manufacture
and name of the purchaser: APDCL
9.2. The poles may also be marked with the ISI certification mark if applicable.
10.0 Performance :-
10.1. The bidder shall furnish a list of the major supplies effected during the last 3 (three) years
indicating the volume of supply and actual delivery dates alongwith the bids.
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10.2. Bids may not be considered if the past manufacturing experience is found to be less that 3 (three)
years.
11.0 Deviation :-
13.1 Any deviation in technical specification shall be clearly indicated with sufficient reasons thereof.
Purchaser shall however reserve the right to accept and/or reject the same without assigning
any reasons what-so-ever.
12.0 Guaranteed technical particulars :
12.1. The tenderer shall furnish all necessary guaranteed technical particulars in the prescribed
proforma enclosed hereinafter.
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Annexure ‘B’
TECHNICAL GUARANTEED AND OTHER PARTICULARS.
(To be filled in by the Tenderer)
1. Type of Pole offered
2. a) Whether tubes are of seamless
constn. Or welded type.
b) Is it manually welded tubes? If so,
state name/address of manufacturer
c) It is ERW tubes? If so, state
name/address of manufacturer
3. Overall length
4. Effective length of section
a) Bottom
b) Middle
c) Top
5. Effective dia thickness of section
a) Bottom
b) Middle
c) Top
6. Approximate weight (Kg.)
7. Breaking Load (Kg.)
8. Working Load (Kg.)
9. Weight/Mtr.
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i) Top Section (kg)
ii) Middle Section (kg)
iii) Bottom Section (kg)
10. Crippling load (kg)
11. Load for permanent set
12. Load for temporary deflection
13. Joint length
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6.4 TECHNICAL SPECIFICATION FOR GALVANIZED CHANNEL CROSS ARMS
1.0 Scope : This specification covers the design, manufacture, testing at manufacturer's works, transport to
site, insurance, storage, erection and commissioning of Galvanized Cross Arm and Channel
used for 33KV and 11 KV line complete with all accessories as specified.
2.0 Standards
The M.S Cross Arm and channel supplied under this specification shall conform to the latest issue of the
relevant Indian Standards IS – 226:1975, Regulations etc. except where specified otherwise.
The rolling and cutting tolerance for steel product conforming to IS: 266 shall be those specified in the
IS: 1852-1973 with latest revision.
Galvanization conforming to latest version of 1S:2629 or equivalent international specifications
In the event of conforming to any standards other than the Indian Standards, the salient features of
comparison shall be clearly set out separately.
3.0 General requirement :
i. The cross arm shall be fabricated grade of mild steel of channel section as per requirement.
ii. All steel members and other parts of fabricated material as delivered shall be free of warps, local
deformation, unauthorized splices, or unauthorized bends.
iii. Bending of flat strap shall be carried out cold. Straightening shall be carried out by pressure and not by
hammering. Straightness is of particular importance if the alignment of bolt holes along a member is
referred to its edges.
iv. Holes and other provisions for field assembly shall be properly marked and cross referenced. Where
required, either by notations on the drawing or by the necessity of proper identification and fittings for
field assembly, the connection shall be match marked.
v. A tolerance of not more than 1mm shall be permitted in the distance between the center lines of bolt
holes. The holes may be either drilled or punched and, unless otherwise stated, shall be not more than
2mm greater in diameter than the bolts.
vi. When assembling the components force may be used to bring the bolt holes together (provided neither
members nor holes are thereby distorted) but all force must be removed before the bolt is inserted.
Otherwise strain shall be deemed to be present and the structure may be rejected even though it may be,
in all other respects, in conformity with the specification.
vii. The back of the inner angle irons of lap joints shall be chamfered and the ends of the members cut where
necessary and such other measures taken as will ensure that all members can be bolted together without
strain or distortion. In particular, steps shall be taken to relieve stress in cold worked steel so as to
prevent the onset of embitterment during galvanizing.
viii. Similar parts shall be interchangeable.
ix. Shapes and plates shall be fabricated and assembled in the shop to the greatest extent practicable.
Shearing flame cutting and chipping shall be done carefully, neatly and accurately. Holes shall be cut,
drilled or punched at right angles to the surface and shall not be made or enlarged by burning. Holes
shall be clean-cut without torn or ragged edges, and burrs resulting from drilling or reaming operations
shall be removed with the proper tool.
x. Shapes and plates shall be fabricated to the tolerance that will permit fielderection within tolerance,
except as otherwise specified. All fabrication shall be carried out in a neat and workmanlike manner so
as to facilitate cleaning,
painting, galvanizing and inspection and to avoid areas in which water and other matter can lodge.
xi. Contact surfaces at all connections shall be free of loose scale, dirt, burrs, oil and other foreign materials
that might prevent solid seating of the parts.
xii. Welded joints not permissible.
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xiii. The rolling and cutting tolerance for steel product conforming to IS: 266 shall be those specified in the
IS: 1852-1973 with latest revision.
all dimensions are subject to the following tolerances:
a) dimensions up to and including 50mm:+1mm: and
b) dimensions greater than 50mm: +2%
xiv. The channel cross arm shall be properly brushed to make it free from rust.
xv. For galvanized channel : All ferrous parts including all sizes of nuts, bolts, plain and spring washers, support channels,
structures, shall; be hot dip galvanized conforming to latest version of 1S:2629 or any other equivalent
authoritative standard. The zinc coating shall be smooth, continuous and uniform. It shall be free from
acid spot and shall not scale, blister or be removable by handling or packing. There shall be no
impurities in the zinc or additives to the galvanic bath which could have a detrimental effect on the
durability of the zinc coating. Before picking, all welding, drilling, cutting, grinding and other finishing
operations must be completed and all grease, paints, varnish, oil, welding slag and other foreign matter
completely removed. All protuberances, which would affect the life of galvanizing shall also be
removed.
The weight of zinc deposited shall be in accordance with that stated in Standard IS 2629 and shall not
less than 0.61kg/m² with a minimum thickness of 86 microns for items of thickness more than 5mm,
0.46kg/m² (64 microns) for items of thickness between 2mm and 5mm and 0.33kg/m² (47 microns)
for items less than 2mm thick.
xvi. The raw materials and fabrication thereof in respect of cross arm shall be furnished along with
dimension.
xvii. The hole for fixing of insulator and pole clamp shall be provided as per requirement.
xviii. One copy of the drawing of cross arm for each size shall be furnished along with the technical bid.
a. REQUIRED TECHNICAL SPECIFICATION FOR GI CHANNEL CROSS ARM
[100x50x6x3200 ]
Sl. No. Description Particular
1 Type of cross arm G.I Channel cross arm
2 Size 100 x 50x 6 x 3200 mm
3 Material Mild Steel channel
4 Length 3200 mm
5 Breath 100 mm
6 Width 50 mm
7 Thickness 6 mm
8 Hole for fixing of insulator 26 mm
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9 Center to center distance of hole 1525 mm
10 Hole for pole clamp 18 mm
11 Weight 29.5 kg (approx)
12 Galvanization The cross arm shall be properly brushed to make it
free from rust and hot dip galvanized confirming
to IS: 2629 or equivalent international
specifications.
13 Standard applicable IS: 266; IS: 1852-1973 or equivalent international
specifications
b. REQUIRED TECHNICAL SPECIFICATION FOR GI CHANNEL CROSS ARM [75 x 40x 40x6 x 2200 ]
Sl No. Description Particular
1 Type of cross arm GI Channel cross arm
2 Size 75 x 40x 40x6 x 2200 mm
3 Material Mild Steel channel( galvanized)
4 Length 2200 mm
5 Breath 75 mm
6 Width 40 mm
7 Thickness 6 mm
8 Hole for foxing of insulator 20 mm
9 Center to center distance for
hole 1070mm
10 Weight 16 kg (approx)
11 Galvanization
The cross arm shall be properly brushed to make it
free from rust and hot dip galvanized confirming to IS:
2629 or equivalent international specifications.
6.5 TECHNICAL SPECIFICATION FOR 33 KV & 11KV DISC INSULATOR (B&S)
70 KN i) Scope: -
This specification covers design, manufacture, testing at manufacturers’ works, supply and delivery
of strain insulators use on 11 KV and 33 KV overhead power line.
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ii) Standard: - a) Strain insulators Ball & Socket type suitable for 11 kV & 33 kV lines shall be conforming to Indian
standard Specification IS: 731:1971 and IS: 3188 with its latest amendments and revisions and having mechanical failing load of 70 KN.
b) Insulators conforming to any other internationally accepted standard which ensure equal or higher quality than the standard mentioned will be acceptable.
c) Where the material is offered according to the internationally accepted standard a copy of the specification shall be attached with the tender.
iii) General requirements: - a) The porcelain shall be sound, free from defects, thoroughly vitrified and smoothly glazed. Unless
and otherwise specified glaze shall be brown in colour. The glaze shall cover all the porcelain parts of the insulator except those areas which serve as support during firing or are left unglazed for purpose of assembly.
b) The design of the insulator shall be such that stress due to expansion and contraction in any parts in any parts of the insulator shall not lead to deterioration. The porcelain shall not engage directly with hard matel.
c) Cement used in the construction of insulator shall not cause fracture by expansion or loosening by contraction and proper care shall be taken to locate the individuals’ parts correctly during commencing. The cement shall not give rise to chemical reaction with metal fittings and its thickness shall be uniform as possible.
i) The insulator shall be multi petticoat type./The insulator shall be in one piece.
iv) Basic Parameter: -
Sl.
No.
Item Particular
1 Type of insulator Disc insulator, 70 KV (B&S type)
2 Applicable Standard IS: 731:1971 and IS: 3188, IS: 2544/1973
3 Material Porcelain [sound, free from defects,
thoroughly vitrified and smoothly glazed]
4 Type Ball & Socket
5 Colour Brown
6 Size 255x145 mm
7 Minimum failing load 70 KN
8 Socket cap Malleable cast iron hot dip galvanized of size
16 mm dia
9 Ball pin High tensile/ forged hot dip galvanized
10 Security clip Phosphor bronze ‘W’ type
11 Creepage distance 580mm ( for 33 KV)& 400 mm ( for 11 KV)
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12 Nominal System voltage 33kV/11 KV
13 Highest system voltage (rms) 36 KV/12 KV
14 Wet one minute power frequency test(rms) 75 KV/35 KV
15 Dry one minute power frequency test (rms) 75 KV /35 KV
16 Power frequency puncture withstand (rms) 180 KV /105 KV
17 Impulse voltage withstand test(Peak) 170 KV / 75 KV
18 Power frequency flush and voltage (dry)
95 KV ( r.m.s)
19 Power frequency flush and voltage (wet)
80 KV ( r.m.s)
20 Visible discharge test 27 KV ( r.m.s)
v) Mechanical Load: - a) The minimum failing load of the insulator shall 70 KN and the load shall be applied transverse.
vi) Creepage Distance: - a) The minimum total creepage distance for insulator shall be suitable for heavily polluted and
humid atmospheric conditions and shall be 400mm (for 11KV) & 900mm (for 33 K) in vertical position.
vii) Marking: - a) Each insulator shall be legibly and indelibly marked to show the following: i) Name and trade mark of the manufacturer ii) Month and year of manufacture iii) Minimum failing load in KN iv) Country of manufacturer. v) ISI certificate marking if any The marking on porcelain shall be printed and shall be applied before firing.
viii) Packing: - a) All insulators shall be suitably packed and crated to standard packing practice as required
under Railway Regulation to withstand rough handling during transit.
ix) Tests: - The insulator shall stand the entire following test as per IS: 731/1971 (incorporating latest
amendments and revisions) or equivalent international specifications.
a) Type tests – The following type tests shall be conducted on the insulators (which have already passed the routine
test):
i) Visible discharge test (power frequency voltage) ii) Impulse voltage withstand test iii) Impulse voltage flashover test
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iv) Verification of dimension v) Wet one minute power frequency test and wet flashover tests vi) Visual examination vii) Mechanical failing load test viii) Porosity test b) The tenderer shall furnish copies of test certificates of the type test carried on identical
manufacturer with guaranteed performance data for the insulators which they offer for supply. The report of type tests (on the insulator which is passed the routine tests) tested in the National Test House, Alipore and or such similar Government recognized Test House/ Institutions shall be invariably submitted along with the tender.
c) Sample/ Acceptance tests: - The samples (after withstanding the routine test) shall also be subjected to the following sample
acceptance tests as per ISS.
ix) Verification of dimensions x) Temperature cycle test xi) Mechanical failing load test xii) Power frequency puncture withstands test xiii) Porosity test
d) The following routine and factory tests shall be conducted at the time of manufacture as per ISS.
xiv) Visual examination xv) Electrical test
x) Guaranteed technical particulars: - (To be filled by the tenderer)
1) Name and address of manufacturer. 2) Trade mark of manufacturer to the legibly marked in the insulator. 3) Mechanical characteristic. a. Total creepage distance in mm. b. Overall height of insulator in mm c. Overall diameter of insulator in mm. d. Overall weight of insulator in Kg. e. Minimum failing load in KN.
4) Electrical characteristic a. Visibly discharge voltage. (power frequency voltage) b. Dry one minute power frequency withstands voltage. c. Wet one minute power frequency withstands voltage. d. Power frequency puncture withstands voltage. e. Impulse (1/50 micro second wave) withstands voltage. f. Impulse flashover (1/50 micro second wave) voltage. g. Impulse flashover (1/50 micro second wave) voltage negative. h. Dry flash over voltage. i. Wet flash over voltage.
5) Standard specification to which insulator will conform. 6) Other particulars, if any.
xi) Inspection: -
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All tests and inspections shall be carried out at the place of manufacturer unless otherwise agreed
by the purchaser and the manufacturer at the time of purchase. The manufacturer shall afford the
inspector representing the purchaser all reasonable facilities, without charge to satisfy that the
materials are being purchased as per specifications. The purchaser reserves the right to have tests
carried out at his own cost by an independent agency, whenever there is dispute regarding the
quality of the material supplied.
xii) Drawing and Sample: - Drawing specifically showing all dimensions is to be submitted along with technical bids.
Sample should be furnished alongwith the tender for verifications. Firms whose samples have been
approved earlier need not submit the same.
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6.6 TECHNICAL SPECIFICATION FOR 33 KV COMPOSITE POLYMERIC
DISC INSULATORS 70 KN
1.0 SCOPE
This specification cover the design, manufactures, testing at manufacturer's works, transport
to site, insurance, storage, erection and commissioning of 33 kV composite polymeric disc
insulator for 33 kV line.
2.0 STANDARD
Strain insulators Tongue and Clevis type/ ball and socket type, suitable for 33 KV lines shall be
conforming to IEC : 1109 with its latest amendments and revision and having mechanical failing
load of 70 K.N. Insulators conforming to any other internationally accepted standards which ensure
equal or higher quality than the standard mentioned would also be acceptable. A high class quality,
corrosion resistant, fiberglass reinforced rod is the core of every insulator with ultimate mechanical
strength at least twice the maximum working load.
Where the material is offered according to the inter-national accepted standard a copy of the
specification shall be attached with the tender. The insulator should be of reputed make namely
Compaq International, Gold Stone, RELCO & Naresh potteries.
2.1 GENERAL REQUIREMENT:
The composite polymer insulator should be uni-body design and injection molded directly to the rod
and sealed to the end fittings with bead of silicon to give the insulator high dielectric strength and
protect it from all environmental conditions. The design of the insulator shall be such that stress due
to expansion and contraction in any part of the insulator shall not lead to deterioration.
2.2 The insulator shall be in one piece.
2.3 CLIMATIC CONDITIONS.:
i. Maximum ambient temperature in shade : 40°C
ii. Minimum daily average ambient air temperature : 35°C
iii. Maximum yearly average ambient air temperature : 30°C
iv. Maximum ambient temperature :2°C
v. Maximum relative humidity : 93%
vi. Average number of thunder storms days per annum : 45 days
vii. Average number of rainy days per annum : 150 days
viii. Average annual rainfall :2280 mm
ix. Number of months of tropical monsoon conditions : 5 months
x. Maximum wind pressure : 150 Kg/sq.m
xi. Altitude not exceeding :1000 M
2.4 BASIC INSULATION LEVEL
The test voltage (minimum requirement) of the insulator shall be as follows:
a) Highest system voltage : 36 KV(rms)
b) Min. Creepage distance : 1050mm
c) Section length : 680mm
d) Rated mechanical tensile load : 70 KN
e) Wet frequency 1 min. withstand voltage : 85KV
f) Dry lighting impulse withstand voltage : 230KV
2.5 MARKING
2.6 Each insulator shall be legibly and indelibly marked to show the following:
a) Name or trade mark of the manufacturer
b) Month and year of manufacture
c) Minimum failing load in KN
d) Country of manufacture
e) ISI certificate mark and name of the project under "TDF 2010-11"
The marking on insulator shall be printed and shall be applied before suitably.
3 TEST
3.1 Type test
The following type tests shall be conducted on a suitable number of individual insulator unit,
components, materials or complete strings:
3.2 Verification of dimensions
3.3 Thermal mechanical performance test
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3.4 Power frequency voltage withstand and flashover test (i) dry (ii) wet
3.5 Impulse voltage withstand and flashover test (dry)
3.6 Visible discharge test (dry)
3.7 RIV test (dry)
3.8 Mechanical failing Load Test (for pin insulator only)
3.9 24 hrs. mechanical strength test (for strain I string insulator only)
4.0 Acceptance Tests
a) Visual examination
b) Verification of dimensions
c) Temperature cycle test
d) Galvanizing test
e) Mechanical performance test
f) Test on locking device for ball and socket coupling
g) Eccentricity test
h) Metallurgical test
i) Grain size
j) Inclusion rating
k) Chemical analysis
l) Microstructure
m) Mechanical failing load test (for Pin Insulator only)
n) Electro-mechanical strength test (for Strain insulator only)
o) Porosity test
p) Puncture test (for strain Insulator only)
4.1 Routine Tests
a. Visual Inspection
b. Mechanical routine test for Strain Insulator only)
c. Electrical routine test (for Strain Insulator only)
4.2 Tests During Manufacture
On all components as applicable
a) Chemical analysis of zinc used for galvanizing
b) Chemical analysis, mechanical, metallographic test and magnetic particle inspection
for malleable castings.
c) Chemical analysis hardness tests and magnetic particle inspection for forgings
d) Hydraulic Internal Pressure tests On disc insulator shells
4.3 Test Reports
4.4 Copies of type test reports shall be furnished in at least six (6)' copies along with one original. One
copy shall be returned duly certified by the Owner only after which the commercial production of the
concerned materials shall start.
4.5 Copies of acceptance test reports shall be furnished in at least six (6) copies. One copy shall be
returned duly certified by the Owner, only after which the material shall be despatch.
4.6 Record of routine test reports shall be maintained by the Contractor at his works for periodic
inspection by the Owner's representative.
4.7 Test certificates of test during manufacture shall be maintained by the Contractor. These shall be
produced for verification as and 'When desired by the Owner.
5.0 INSPECTION
5.1 The Owner's representative or third party nominee shall at all times be entitled to have access to the
works and all places of manufacture, where insulator, and its component parts shall be manufactured
and the representatives shall have full facilities for unrestricted inspection of the Contractor's and sub
Contractor's works, raw materials, manufacture of the material and for conducting necessary test as
detailed herein.
5.2 The material for final inspection shall be offered by the Contractor only under packed condition as
detailed in the specification. The Owner shall select samples at random from the packed lot for
carrying out acceptance tests.
5.3 After placement of award, the Contractor shall submit fully dimensioned insulator drawings
containing all the details, in four (4) copies to Owner for approval. After getting approval from
Owner and successful completion of all the type tests, the Contractor shall submit 20 more copies of
the same drawing to the Owner for further distribution and field use at Owner's end.
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6.7 TECHNICAL SPECIFICATION FOR 11 KV COMPOSITE POLYMERIC
INSULATORS
1.0 SCOPE
This section covers the specifications for design, manufacture, shop & laboratory testing before
despatch of 11 kv composite polymeric pin insulators .The Composite insulator shall be pin insulator
for straight line location and Long rod insulator for conductors in tension application at angle/ cut
point, the insulator shall be of boll and socket type or tongue & Clevis type.
1.1 STANDARDS
Sl.
No.
Indian
Standard Title
International
Standard
1.
Definition, test method and acceptance criteria for
composite insulators for a. c. overhead lines above. IEC:61109
2. IS:731
Porcelain insulators for overhead power lines with a
nominal voltage greater than 1000V IEC:60383
3. IS:2071 Methods of High voltage testing IEC:60060-1
4.
IS:2486
Specification for insulator fitting for overhead power
lines with a nominal voltage greater than 1000V
General Requirements and tests Dimensional
Requirements locking devices.
IEC:60120
IEC:60372
5.
Thermal mechanical performances test on string
insulator units. IEC:60575
6. IS:13134
Guide for the selection of insulators in respect of
polluted conditions. IEC:60815
7.
Characteristics of string insulator units of the long
rod type. IEC:60433
8. Hydrophobicity classification STRI GUIDE 1.92/1
9.
Radio interference characteristics of overhead power
lines and high-voltage equipment CISPR:18-2 PART2
10. IS:8263 Methods of RI test of HV insulators IEC:60437
11.
Standard for insulators- composite distribution dead
end type ANSI c29.13-2000
12. IS:4759
Hot dip Zinc coatings on structural steel & other
allied products.
ISO:1459
ISO:1461
13. IS:2629
Recommendation of weight for hot, dip
galvanization for iron and steel ISO:1461(E)
14. IS:6745
Determination of weight of Zinc coatings on zinc
coated iron and steel articles ISO:1460
15. IS:3203
Method of testing of local thickness of electroplated
coating ISO:2178
16. IS:2633
Testing of uniformity of coating of zinc coated
articles
17. Standard specification for glass fiber standards ASTM D 578-05
18.
Standard test method for compositional analysis of
thermogravimetry ASTME 1131- 03
19. IS:4699 Specification for refined secondary Zinc
1.2 SERVICE CONDITION
Maximum ambient temperature :* *480 C
Minimum ambient temperature : - 50 C
Relative humidity : 0 to 100%
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The size of composite insulator, minimum creepage distance and mechanical strength alongwith hardware
fittings shall be as follows.
Sl.
No.
Type of
composi
te
insulato
r
Nomin
al
system
voltage
KV
(rms)
Higest
system
voltage
KV (rms)
Visible
discharge
test
voltage
KV (rms
Wet
power
frequen
cy
withstan
d
voltage
KV
(rms
Impulse
withstan
d
voltage
KV (rms
Minimum Creepage
distance (mm)
Min.
Failing
load KN
Pin
ball
shank
diame
ter
mm
Normal
&
moderat
ely
polluted
(20mm/
KV)
Hea
vily
pollu
ted
(25mm
/ KV)
I Long
rod
insulato
r
11 12 9 35 75 240 320 45 16
33 36 27 75 170 720 900 45/70**
Ii Post/
pin
insulato
r
11 12 9 35 75 240 320 5
33 36 27 75 170 720 900 10
Dimensional Tolerance of composite insulators ±(0.04d=1.5) mm when d < 300 mm
±(0.025d=6) mm when d < 300 mm
REQUIRED TECHNLCAL PARICULARS OF COMPOSIT POLYMERIC INSULATOR
FOR 11 KV , 5 KN PIN INSULATOR TYPE
Sl. no Description Unit 11KV , 5 KN , PIN INSULATOR
1. Type of Insulator Composite polymeric Insulators
2. Standard according to which the
Insulator manufacture and tested
IES-61109 with up to date
amendments
3. Name of material used in manufacture
Of the insulator with class/grade
Silicon/ Polyolefin material
(a) Material of core (FRP rod)
i) E-glass or ECR- glass
ii) Boron content
ECR glass boron content free
(b) Material of housing &Weather sheds
Silicon content by weight
36%
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(c) ( material of end fitting ) Hot dip galvanized high strength
steel
(d) Sealing compound for end fittings Silicon based sealants
4. Color Grey/ Red
5. Electrical characteristics
(a) Normal system voltage KV(rms ) 11 KV
(b) Highest system voltage KV(rms) 12 KV
(c) Dry power Frequency withstand voltage KV(rms ) 35 KV
(d) Wet power frequency withstand voltage KV (rms ) 35 KV
(e) Dry flashover voltage KV(rms) >35KV
(f) Wet flashover voltage KV(rms) >35KV
(g) Dry lighting impulse withstand voltage
a) Positive
b)Negative
KV(peak)
KV(peak)
75KV
75 KV
(h) Dry lighting impulse flashover voltage
c) positive
d) Negative
KV(peak)
KV(peak)
95KV
95 KV
(i) R/V at 1MHz when energized at
10KV/30KV(rms) under dry condition
Microvolt As per IES specification
(j) Creepage distance (mm) mm 320 mm
6. Mechanical characteristics
(a) Minimum failing load KN 5KN
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REQUIRED TECHNLCAL PARICULARS OF COMPOSIT POLYMERIC INSULATOR
FOR 11 KV , 45 KN ( T & C ) TYPE
Sl. no Description Unit 11KV , 45 KN , T& C type
1. Type of Insulator Composite polymeric Insulators
2. Standard according to which the
Insulator manufacture and tested
IES-61109 with up to date amendments
3. Name of material used in manufacture
Of the insulator with class/grade
Silicon/ Polyolefin material
(a) Material of core (FRP rod)
i) E-glass or ECR- glass
ii) Boron content
ECR glass boron content free
(b) Material of housing &Weather sheds
Silicon content by weight
36%
(c) ( material of end fitting ) Hot dip galvanized high strength steel
(d) Sealing compound for end fittings Silicon based sealants
4. Color Grey/ Red
5. Electrical characteristics
(a) Normal system voltage KV(rms ) 11 KV
(b) Highest system voltage KV(rms) 12 KV
(c) Dry power Frequency withstand voltage KV(rms ) 35 KV
(d) Wet power frequency withstand voltage KV (rms ) 35 KV
(e) Dry flashover voltage KV(rms) >35KV
(f) Wet flashover voltage KV(rms) >35KV
(g) Dry lighting impulse withstand voltage
a) Positive
b)Negative
KV(peak)
KV(peak)
75KV
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75 KV
(h) Dry lighting impulse flashover voltage
c) positive
d) Negative
KV(peak)
KV(peak)
95KV
95 KV
(i) R/V at 1MHz when energized at
10KV/30KV(rms) under dry condition
Microvolt As per IES specification
(j) Creepage distance (mm) mm 320 mm
6. Mechanical characteristics
(a) Minimum failing load KN 45KN
7. Dimension of insulator
Inter changeability The composite insulators including the end fitting connection shall be of standard design suitable for
use with the hardware fittings of any make conforming to relevant IEC/IS standards.
Corona and RI performance
All surfaces shall be clean, smooth without cuts, abrasions or projections. No parts shall be subjected
to excessive localized pressure. The insulator and metal parts shall be so designed and manufactured that it
shall avoid local corona formation and not generate any radio interference beyond specified limit under the
operating conditions.
Core
It shall be a glass – fiber reinforce epoxy resin rod of high strength (FRP rod). Glass fibers and resin
shall be optimized in the FRP rod. Glass fibers shall be Boron free electrically corrosion resistant(ECR)
glass fiber or boron free E- class and shall exhibit both high electrical integrity and high resistance to acid
corrosion . the matrix of the FRP rod shall be Hydrolysis resistant. The FRP rod shall be manufactured
through pultrusion process . the FRP rod shall be void free.
Housing (Sheath)
The FRP rod shall be covered by a seamless sheath of a silicon elastometric compound or silicon
alloy compound of a thickness of 3 mm minimum.
It should protect the FRP rod against environment influences, external pollution and humidity. It shall be
excluded or directly moulded on the core and shall have chemical bonding with the FRP rod. The strength of
the bond shall be greater than the tearing strength of the polymer. Sheath material in the bulk as in the
sealing/ bonding area shall be free from voids.
Weather sheds
The composite polymer weather sheds made of silicon elastomeric compound of silicon alloy shall
be firmly bounded to the sheath, vulcanized to the sheath or moulded as part of the sheath and shall be free
from imperfections. The weather sheds should have silicon content of minimum 30% by weight. The
strength of the weather sheds to sheath interface shall be greater than the tearing strength of the polymer.
The interface, if any, between sheds and sheath (housing) shall be free from voids.
End Fittings
End fittings transmit then mechanical load to the core. They shall be made of spheroid graphite cast
iron, malleable cast iron or forged steel or aluminium alloy. They shall be connected to the rod by means of a
controlled compression technique. The gap between fitting and sheath shall be sealed by a flexible silicon
elastomeric compound or silicon alloy compound sealant. System of attachment of end fitting to the rod shall
provide superior sealing performance between housing, i.e. seamless sheath and metal connection. The
sealing must be moisture proof.
The dimensions of end fittings of Insulators shall be in accordance with the standard dimensions stated in
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IS:2486/IEC:60120
Equipment Marking
5.1 Each insulator unit shall be legibly and marked with the following details as per IEC-61109
(a) Month & Year of manufacture
(b) Min. Failing load/ guaranteed mechanical strength in kilo Newton followed by the word KN to
facilitate easy identification.
(c) Manufacture’s name / trade mark.
5.2 One 10mm thick ring or 20mm thick spot of suitable quality of paint shall be marked on the end
fitting of each composite long rod of [particular strength in case of 33 KV insulators for identification in
case both type of insulators are procured by the utility. The paint shall be not have deteriorating effect on
the insulator performance, following codes shall be used as identification mark:
For 45 KN Long unit : Blue
For 70 KN Long unit : Red
6.0 Bid Drawings
6.1 The full description and illustration of the materials offered.
6.2 The bidder furnish alongwith the bid the outline drawing ( 3 copies ) of each insulator unit
including a cross sectional view of the long rod insulator unit. The drawing shall include but not be limited
to the following information.
(a) Long rod diameter with manufacturing tolerance.
(b) Minimum creepage distance with positive tolerance.
(c) Protected creepage distance.
(d) Eccentricity of the long rod unit
(i) Axial run out
(ii) Radial run out
(e) Unit mechanical and electrical characteristics
(f) Size and weight of ball and socket/ tongue & cleaves
(g) Weight of composite long rod units
(h) Materials
(i) Identification Mark
(ii) Manufacturer’s catalogue number
7.0 Type tests
Sl.
No.
Description of type test Test procedure / standard
1. Dry lightning impulse withstand voltage
test
As per IEC 61109 (Clause 6.1)
2. Wet power frequency test As per IEC 61109 (Clause 6.2)
3. Mechanical load- time test As per IEC 61109 (Clause 6.4)
4. Radio Interference test As per IEC 61109 (Clause 6.5) revised
5. Recovery of Hydrophobicity test Annexure-B This test may be repeated every
3 yrs by the manufacturer
6. Chemical composition test for silicon
content
Annexure-B or any other test method
acceptable to the owner
7. Brittle fracture resistance test Annexure-B
8.0 Acceptance (Sample) Tests
8.1 For Composite Insulators
A Verification of dimensions Clause 7.2 IEC:61109
B Verification of the locking system ( if possible) Clause 7.3 IEC:61109
C Galvanizing Test IS 2633 / IS 6745
D Verification of the specified mechanical load Clause 7.4 IEC:61109
8.2 Routine Tests
Sl.
No.
Description Standard
1. Identification of marking As per IEC:61109 Clause 8.1
2. Visual Inspection As per IEC:61109 Clause 8.2
3. Mechanical routine test As per IEC:61109 Clause 8.3
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8.3 Tests During Manufacture
Following tests shall also be carried our
A Chemical analysis of zinc used for galvanizing
B Chemical analysis, mechanical, metallographic test and magnetic particle inspection
for malleable castings
C Chemical analysis, hardness and magnetic particle inspection for forigngs
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6.8 TECHNICAL SPECIFICATION FOR HARDWARE FITTING FOR DISC INSULATOR,
70 KN( B&S)
1.0 Scope: - This specification covers design, drawings, manufacture, testing at manufacturers’ works, supply
and delivery of hardware fittings for strain insulator of ball & socket type .
The fitting shall consist of the following component conforming to relevant IS or equivalent
international specifications :
a) Cross arm strap conforming to IS: 2486 ( Pt-II)-1989. b) Forged steel ball eye for attaching the socket end of the strain insulator to the cross arm
strap. Forging shall be made of steel as per IS : 2004-1978. c) Aluminium alloy thimble socket made out of permanent mould cast , high strength
aluminium alloy for attaching to the strain insulator on one end and for accommodating the loop of the helically formed dead-end fittings at the other end in its smooth internal contour. The thimble socket shall be attached to the strain insulator with the help of locking pin as per the dimension given in IS: 2486(PT-II)-1989
d) Helically formed dead-end grip having a pre-fabricated loop to fit ito the grooved contour to the thimble on one end and for application over the conductor at the other end. The formed fitting shall conform to the requirement of IS:12048-1987.
2.0 Tests: The helically formed fittings for strain insulators shall be subjected to tests as per IS:12048-1987
and the other hardware fittings shall be tested as per IS:2486 (Part-I) or equivalent international
specifications.
3.0 Packing: For packing of strain clamps and related hardware, double gunny bags or wooden cases shall be
used. The fittings shall be properly protected against damage.
The gross weight of the packing shall not normally exceed 50 Kg. Helically formed fittings shall be
packed in card board / wooden boxes. Fittings for different sizes of conductors shall be packed in
different boxes and shall be complete with their minor accessories fitted in place and colour codes
on tags / fittings shall be marked to identify suitability for different sizes of conductors as per
IS:12048-1987 or equivalent international specifications.
4.0 Inspection: All tests and inspections shall be made at the place of manufactur unless otherwise especially
agreed upon by the manufacturer and purchaser at the time of purchase. The manufacturer shall
afford the inspector representing the purchaser all reasonable facilities, without charge, to satisfy
him that the material is being furnished in accordance with this specification.
The purchaser has the right to have the tests carried out at his own cost by an independent agency
whenever there is dispute regarding the quality of supply.
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6.9 TECHNICAL SPECIFICATION FOR POLYMERIC 33 KV AND 11 KV PIN INSULATOR
1.0 Scope
This specification covers design, manufacture, testing at manufacturer’s works, transport
to site, storage, insurance, erection and commissioning of polymeric 33 KV pin insulator
for 33 kV lines.
2.0 Standard
Polymeric compact insulator with suitable groove in upper pin and long threads in lower
part of the pin with nuts, suitable for 33 KV lines shall be conforming to IEC : 1109 with its latest
amendments and revision and having minimum mechanical failing load of 10 K.N. Insulators
conforming to any other internationally accepted standards which ensure equal or higher quality
than the standard mentioned would also be acceptable. A high class quality, corrosion resistant,
fiberglass reinforced rod is the core of every insulator with ultimate mechanical strength at least
twice the maximum working load.
3.0 General Requirements
4.0 The composite polymer insulator should be uni-body design and injection molded directly to the
rod and sealed to the end fittings with bead of silicon to give the insulator high dielectric strength
and protect it from all environmental conditions. The design of the insulator shall be such that
stress due to expansion and contraction in any part of the insulator shall not lead to deterioration.
5.0 The insulator shall be in one piece.
The dimensions of the pins insulator shall be as follows:
33 KV 11KV
a) Composite insulator length 310 mm 210 MM
b) Failing minimum load 10 KN 5 KN
c) Creepage distance (min) mm 925 mm 580 mm
d) Dry power frequency 1 min withstand voltage 70 kV (RMS) 70 kV(RMS)
e) Wet power frequency 1 min withstand voltage 70 kV (RMS) 70 KV(RMS)
f) Dry lightning impulse withstand voltage 170 Kvp 145 Kvp
6.0 Tests
Pin shall comply with the following tests.
1.1 Type test:
a) Visual examination test
b) Verification of dimensions
c) Checking of threads
d) Galvanizing test
e) Mechanical strength tests
1.2 Routine test:
a) Visual examination test
1.3 Acceptance test:
Checking of threads on heads
a) Galvanizing test
b) Mechanical test
7.0 Inspection
All tests and inspections or shall be carried out at the place of manufacturers unless otherwise
agreed by the purchaser and the manufacturers at the time of purchase. A manufacturer shall
afford the inspector or third party nominee representing the purchaser all reasonable facilities,
without charge to satisfy that the materials are being purchased as per specification. The purchaser
reserved the right to have the test carried out at his co.st by an independent agency, whenever
there is dispute regarding the quality of the materials supplied.
8.0 Marking
The pins shall be marked with name of manufacturer, year and name of project.
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6.10 TECHNICAL SPECIFICATION FOR 33 kV AND 11kV PIN INSULATOR
1.0 SCOPE
This specification covers the design, manufacture, testing at manufacturer's works, transport to
site, insurance, storage, erection and commissioning of insulators required for 33 kV and 11kV
lines.
2.0 STANDARD
The pin insulators shall comply with the Indian Standard specification IS : 731/1971 as amended
from time to time having mechanical failing load of 10 K.N for 33 kV insulator and 5KN for
11kV insulator.
Insulators conforming to any other internationally accreted standards which ensure equal
or higher quality than the standard mentioned would also be acceptable.
Where the material is offered according to the inter-national standard a copy of the
specification shall be attached with the tender.
2.1 General requirement: The porcelain should be sound, free from defects, thoroughly vitrified and
smoothly glazed.
2.2 Unless otherwise specified, the glaze shall be brown colour. The glaze shall cover all the porcelain
parts of the insulators except those areas which serve as support during firing or are left unglazed
for purpose of assembly.
2.3 The design of the insulator shall be such that stress due to expansion and contraction in any part of
the insulator shall not lead to deterioration. The porcelain shall not engage directly with hard
metal.
2.4 Cement used in the construction of insulator shall not cause fracture by expansion or loosening by
contraction and proper care shall be taken to locate the individual parts correctly during
cementing. The cement shall not give rise to chemical reaction with metal fitting and its thickness
shall be as uniform as possible.
2.5 The insulator shall be multi-petty-coat type.
3.0 BASIC PARAMETER:
Sl No Particulars
1 Type of insulator 33 KV Pin Insulator 11kV Pin Insulator
2 Applicable Standard IS : 731/1971
3 Material Porcelain sound, free from defects, thoroughly vitrified
and smoothly glazed.
4 Dimension 210x280x145 mm 155x160 mm
5 Minimum failing load 10 KN 5KN
6 Creepage distance 580 mm 320mm
7 Nominal System voltage 33kV
11kV
8 Highest system voltage
(rms)
36 KV
12kV
9 Wet one minute power
frequency test(rms)
75 KV
10 Dry one minute power
frequency test (rms)
95 KV
11 Power frequency flush
over voltage (Dry)
95 KV
12 Power frequency flush
over voltage (Wet)
80 KV
13 Power frequency puncture
withstand (rms)
180 KV
14 Impulse withstand voltage
test(Peak)
170 KV
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4.0 MECHANICAL LOADS
The minimum failing load of the insulators shall be 10 KN for 33 kV and 5KN for
11kV and the load shall be applied in transverse direction.
4.0 CREEPAGE DISTANCE
The minimum total creepage distance for 33kV insulators shall be 580 mm and 320mm
for 11 kV insulators.
5.0 MARKING
Each insulator shall be legibly and indelibly marked to show the following:
a. Name or trade mark of the manufacturer
b. Month and year of manufacture
c. Minimum failing load in KN
d. Country of manufacture
e. ISI certificate mark, if any
f. Name of the Project
The marking on porcelain shall be printed and shall be applied before firing.
6.0 Type Tests
The following type tests shall be conducted on 'a suitable number of individual insulator
unit, components, materials or complete strings:
a) Verification of dimensions
b) Thermal mechanical performance test
c) Power frequency voltage withstand and flashover test (i) dry (ii) wet
d) Impulse voltage withstand and flashover test (dry)
e) Visible discharge test (dry)
f) RIV test (dry)
g) Mechanical failing Load Test (for pin insulator only)
h) 24 hrs. mechanical strength test (for strain / string insulator only)
7.0 Acceptance Test
a) Visual examination
b) Verification of dimension
c) Temperature cycle test
d) Galvanizing test
e) Mechanical performance test
f) Test on locking device for ball and socket coupling
g) Eccentricity test
h) Metallurgical test
i) Grain test
j) Inclusion rating For metal fittings only (in black condition)
k) Chemical analysis
l) Microstructure.
m) Mechanical failing load test (for Pin Insulator only)
n) Electro-mechanical strength test (for strain insulator only)
o) Porosity test
p) Puncture test(for Strain Insulator only)
8.0 ROUTINE TEST
a) Visual Inspection
b) Mechanical routine test (for Strain Insulator only)
c) Electrical routine test (for Strain Insulator only)
9.0 Tests During Manufacture
On all components as applicable
a) Chemical analysis of zinc used for galvanizing
b) Chemical analysis, mechanical, metallographic test and magnetic particle inspection for
malleable castings.
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c) Chemical analysis hardness tests and magnetic particle inspection for forgings
d) Hydraulic Internal Pressure tests On disc insulator shells
10.0 Test Reports
11.1 Copies of type test reports shall be furnished in at least three (3) copies along with one original.
One copy shall be returned duly certified by the Owner only after which the commercial
production of the concerned materials shall start.
Copies of acceptance test reports shall be furnished in at least six (6) copies. One copy shall be
returned duly certified by the Owner, only after which the material shall be despatch. 11.2
Record of routine test reports shall be maintained by the Contractor at his works for periodic
inspection by the Owner's representative.
11.3 Test certificates of test during manufacture shall be maintained by the Contractor. These shall be
produced for verification as and when desired by the Owner.
11.0 Inspection
a) The Owner's representative or third party nominee shall at all times be entitled to have access
to the works and all places of manufacture, where. insulator, and its component parts shall be
manufactured and the representatives shall have full facilities for unrestricted inspection of
the Contractor's and ;1ub-Contractor's works, raw materials, manufacture of th::; material and
for conducting necessary test as detailed herein.
b) The material for final inspection shall be offered by the Contractor only under packed
condition as detailed in the specification. The Owner shall select samples at random from the
packed lot for carrying out acceptance tests. Insulators shall normally be offered for
inspection in lots not exceeding 5000 nos. the lot should be homogeneous and should contain
insulators manufactured in the span of not more than 3-4 consecutive weeks.
c) The bidder shall keep the Owner informed in advance of the time of starting and the progress
of manufacture of material in their various stages so that arrangements could be made for
inspection.
d) No material shall be dispatched from its point of manufacture before it has been satisfactorily
inspected and tested unless the inspection is waived off by the Owner in writing. In the latter
case also the material shall be dispatched only after satisfactory testing for all tests specified
herein have been completed.
e) The acceptance of any quantity of material shall be no way relieve the Contractor of his
responsibility for meeting all the requirements of the specification and shall not prevent
subsequent rejection, if such material are later found to be defective.
12.0 BID DRAWING
The Bidder shall furnish full description and illustration of the material offered.
The Bidder shall furnish along with the bid the outline drawing (6 copies) of each insulator unit
including a cross sectional view of the insulator shell. The drawing shall include but not limited
to the following information:
a. Dimensions with manufacturing tolerances
b. Minimum creepage distance with positive tolerance
c. Protected creepage distance
d. Eccentricity of the disc
i. Axial run out
ii. Radial run out
e. Unit mechanical and electrical characteristics
f. Size and weight of Pin Ball Shank / ball and socket parts
g. Weight of unit insulator disc
h. Materials
i. Identification mark
j. Manufacturer's catalogue number
After placement of award, the Contractor shall submit fully dimensioned insulator drawings
containing all the details, in four (4) 'copies to Owner for approval. After getting approval from
Owner and successful completion of all the type tests, the Contractor shall submit 20 more copies
of the same drawing to the Owner for further distribution and field use at Owner's end.
14.0 Guaranteed Technical Particulars
The guaranteed technical particulars in respect of the Pin Insulators offered shall be submitted
along with the tender.
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6.11 TECHNICAL SPECIFICATION FOR G.I. PIN OF 33kV and 11kV PIN INSULATOR
1.0 Scope 1.1. This specification covers design, manufacture, testing at manufacturer’s works, transport
to site, storage, insurance, erection and commissioning of galvanized forged steel pins for use in 11 KV and 33 kV lines.
2.0 Standard 2.1. The galvanized Iron forged steel pins shall be of type L-230 N conforming to IS 2486 (PT-I/1971) and
IS: 2486 (PT-11/1963) having stalk length of 300 mm and shank length of 150 mm with minimum failing load of 10 kN. Details of the pin are shown in the drawing.
2.2. The pins conforming to any other internationally accepted standards which ensure equal or higher quality than the standard mentioned would also be acceptable.
3.0 General Requirements 3.1. The pins shall be single piece obtained by process of forging. They shall not be made by joining,
welding, shrink fitting or any other process for more than one piece of materials. They shall be of good finish, free from flaws and other defects. The finish of the collar and the shank is avoided.
3.2. All ferrous pins, nuts spring washers shall be galvanized and small fittings like spring washers, nuts etc. may be electroplated with zinc. The threads of nuts and tapped holes etc. shall be rounded. The galvanizing should be as per ISS: 2633/1964.
3.3. The dimensions of the 33kV Pins shall be as follows:
Particulars 33kV Pin 11kV Pin
Minimum failing load 10KN 5KN
Stalk length 230mm 165mm
Shank length 150 mm 150mm
Thickness of collar 6 mm
5mm
Diameter of collar 50 mm 40mm
Diameter of shank 24 mm 20mm
Threaded length of shank 100 mm 100mm
Diameter of stalk head 27.78 mm 18.29
Threaded length of stalk 47 mm 40mm
3.4. The pins shall have minimum failing load of 10 kN and 5KN for 33 kV.and 11kV Pin respectively. 3.5. Tests
Pin shall comply with the following tests.
3.6. Type test: e) Visual examination test
f) Verification of dimensions
g) Checking of threads
h) Galvanizing test
e) Mechanical strength tests
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3.7. Routine test: a) Visual examination test
3.8. Acceptance test: Checking of threads on heads
c) Galvanizing test
d) Mechanical test
4.0 Inspection 4.1. All tests and inspections or shall be carried out at the place of manufacturers unless otherwise
agreed by the purchaser and the manufacturers at the time of purchase. A manufacturer shall afford the inspector or third party nominee representing the purchaser all reasonable facilities, without charge to satisfy that the materials are being purchased as per specification. The purchaser reserved the right to have the test carried out at his cost by an independent agency, whenever there is dispute regarding the quality of the materials supplied.
4.2. Marking The pins shall be marked with name of manufacturer, year and name of project.
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6.12 TECHNICAL SPECIFICATION FOR AAA “WOLF” & “RACCOON” CONDUCTOR
1.0 Scope This specification covers design, manufacture, testing at works, transport, insurance, storage,
erection and commissioning of All Aluminum Alloy Stranded Conductors at site in 33 KV.
2.0 Conductor Size xiii) 19/3.40 mm (175 mm² Alloy Area) – wolf xiv) 7/3.81 mm ( 80 mm² Alloy Area ) - Raccoon
3.0 Applicable Standards Unless otherwise stipulated in this specification, the conductor shall comply with IS:398 (Part-IV)-
1994 or the latest version thereof.
4.0 Properties of Wires
The properties of Aluminium alloy wires to be used in the construction of the stranded conductors
shall be as in the following Table-1
Table-1
Diameter
Cross area
of
nominal
Dia wire
Mass
Maximum
breaking
load after
stranding
Resistance at 20° C
Nominal Min Max Max Stamdard
Mm mm mm mm2 Kg/Km KN Ohm/Km Ohm/Km
3.40 3.37 3.43 9.079 24.51 2.80 3.67 3.96
3.81 3.77 3.85 11.401 30.78 3.34 2.938 2.851
5.0 Properties of Conductors The properties of stranded all aluminium alloy conductors of various sizes shall be as in the following
table-II
All Aluminium Alloy Conductors ( AAAC)
Nominal
Alloy
Area
Stranding &
Wire dia
Sectional
area
Approx.
overall dia
Approx.
Mass
Calculated
resistance at
20° C (Max)
Approx
calculated
breaking
load
1 2 3 4 5 6 7
mm2 Mm mm
2 mm Kg/Km Ohm/Km KN
173 19/3.40 172.52 17.00 474.02 0.1969 50.54
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80 7/3.81 79.81 11.43 218.26 0.425 23.41
6.0 Free From Defects The wire shall be smooth and free from all imperfection such as spills, splits etc.
7.0 Joints in Wires Conductors containing three/seven wires. There shall be no joint in any wire of a stranded conductor
containing three/seven wires except those made in the base rod or wire before final drawing.
8.0 Stranding 8.1 The wires used in the construction of a stranded conductor shall before stranding satisfy all the
relevant requirements of this standard.
8.2 The lay shall be within the limits given in Table-III
Lay Ratios for Aluminium Alloy Stranded Conductors
No. of wires in conductors Lay ration
Min. Max
7 10 14
19 10 16
8.3 The outer layer shall be right handed. The wires in each layer shall be evenly and closely stranded.
9.0 Climatic Conditions The conductor shall be designed to suit for the climatic conditions specified in these bidding
documents.
10.0 Tests The samples of individual wires for the test shall normally be taken before stranding. The
manufacturer shall carry out test on samples taken out at least from 10% of aluminium wire spools.
However, when desired by the purchaser, the test sample may be taken form the stranded wires.
However the minimum breaking load test shall be done on a sample taken from stranded wires and
the minimum breaking load shall not be less than the value indicated in Table-I.
The wires for alloy conductors shall comply with the following tests as per IS: 398(Part-IV)-1994
i) Breaking loads test. ii) Elongation test iii) Resistance test
11.0 Packing and Marking The conductors shall be owned in reels or drums conforming to the latest version of IS: 1778-1980 “
Specification for reels and drums for bare wire and name of the project TDF shall be indicated clearly
on the drums.
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10.1 Packing
10.1.1 The gross mass of packing of various conductors shall not exceed by more than 10% of the values
given in the following table:
Conductor size Gross Mass
175 mm2
alloy area ( 19/3.40mm) 2500
80 mm² Alloy Area (7/3.81 mm) 1600 KG
10.1.2 The normal length of various conductors shall be as given in the following table:
Conductor size Normal Length
175 mm2
alloy area ( 19/3.40mm) 1.1 Km
80 mm² Alloy Area (7/3.81 mm) 1.3 KM
10.1.3 Longer lengths shall be acceptable. 10.1.4 Short length , not less than 50% of the normal length shall be acceptable to the maximum extent of
10% of the quantity ordered 10.2 marking.
The following information be marked on each package.
a) Manufacturer’s name. b) Trade Mark, if any. c) Drum or identification number. d) Size of conductor e) Number & lengths of conductor f) Gross Mass of the package g) Net mass of the conductor h) ISI certification mark. i) Name of the Project TDF
11 INSPECTION All tests and inspection shall be made at the place of manufacture. The manufacturer shall afford the
inspection representing the purchaser or third party nominee all reasonable facilities without charge
to satisfy him that the material is being furnished in accordance with this specification.
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6.13 TECHNICAL SPECIFICATION FOR HARDWARE FITTINGS
INCLUDING TENSION CLAMP ASSEMBLY (Aluminium Alloy) FOR “RACCOON” AND
“WOLF” CONDUCTOR
1.0 Scope: - This specification covers design, drawings, manufacture, testing at manufacturers’ works, supply and
delivery of suspension clamp for use with Raccoon (7/3.81mm-80 sqmm)/Wolf (19/3.4mm-175
sqmm )conductors within the state of Assam.
2.0 Standard: - The material and process adopted in the manufacture shall conform to the provision of the following
standards amended up-to-date IS: 2486 specification or equivalent international specifications for
Insulator fitting for overhead power lines.
3.0 General: - The tension clamps offered shall be made of die cast high strength aluminium alloy and shall be
suitable for use with “Raccoon and Wolf” conductors together with one set of preformed armour
rods. Suitable sheet metal liner shall be provided.
The clamp shall move easy oscillation around horizontal axis.
The bidder is to quote separately for suspension clamp:
i) Envelope type ii) Bottom free centre type design. The single tension clamp shall consist of the following components: -
Description Quantity Material
1. Ball hook without provision for 1 no. Forged Steel
Arching horn
2. Socket type without provision for 1set. MCI
Arching horn
1. Tension clamp for AAAC 1 no Alumium alloy Raccoon /Wolf conductors
The clamp shall be of high corrosion resistant, light in weight, have low effective power loss and
small moment of inertia enabling it to follows freely the movements of the conductor
The tension clamp shall also be provided with suitable socket or clevis eye for connecting it to the
insulator string.
The seat and clamping surface should be smooth, without any projections or sharp bends and should
be formed to support the conductor on long, easy curves at the comparatively sharp bends.
Minimum failing load = 70 KN.
The slip strength of tension clamp shall not exceed 15% of the breaking load of the conductor.
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4.0 Tests: - The hardware fittings shall be subjected to all the tests in accordance with relevant Indian Standard
Specifications. The purchaser shall have the right to carryout acceptance tests, in the presence of
representatives of the purchaser.
The bidder shall submit type test certificate along with the tenders.
The following tests shall be carried out.
i) Type Test: -
(a) Slip Strength test for clamp. (b) Mechanical test for clamp & fittings (c) Heating cycle test. (d) Verification of dimensions. (e) Galvanizing / Electroplating test. (f) Visual examination test
ii) Acceptance Test:
a) Dimensional test. b) Galvanizing test. c) Mechanical test for clamp & fittings d) Electrical Resistance Test.
iii) Routine Test:
a) Visual examination test.
b) Routine mechanical test.
Guaranteed Technical Particulars (GTP) and drawing specifically showing all dimensions are
to be submitted along with technical bids.
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6.14 TECHNICAL SPECIFICATION FOR P.G CLAMP FOR AAA RACOON /WOLF CONDUCTOR
1.0 Scope:
The scope covers design, manufacturing, testing at work, transport at site, insurance,
storage, erection and commissioning of P.G. Clamp suitable for Conductor size
Wolf/Raccoon/Weasel/3 Bolt Type strictly conforming to the following standards:
2.0 Standards:
P.G. Clamps suitable for conductor size, wolf/raccoon/weasel 3 bolt types strictly conforming
to IS : 2121 and galvanizing conforming to IS: 2633 or equivalent international specifications
as per the following:
P.G. clamp body to be made from aluminium alloy
Clamps nuts and bolt and washer should be made of hot deep galvanized steel
Spring washer be made of electro-galvanize special steel.
Style
No.
Conductor Maximum
conductor
diameter in
mm
Dimensions
No of
Bolts
Approx.
Weight
Kg.
A
mm
B
mm
C
mm
D
mm
E
mm
A-83 Wolf
20.78 140 76 42 5/8 1 3 0.51
A-81 Racoon
14.45 95 57 30 1/2 2 2 0.18
3.0 Inspection may be carried out by the purchaser or third party nominee at any stage of
manufacture. The supplier shall grant free access to the purchaser's representative or third
party nominee at a reasonable time when the work is in progress. Inspection and acceptance of
any equipment under this specification by the purchaser shall not relieve the supplier of his
obligation of furnishing equipment in accordance with the specification and shall not prevent
subsequent rejection if the equipment is found defective.
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6.15 TECHNICAL SPECIFICATION FOR STAY SET (HT )
1.0 Scope: 1.1. This specification covers the design, manufacture testing at manufacturer's works, transport to
site, insurance, storage, erection and commissioning of the Stay Sets (HT) required from the distribution lines at designated locations.
2.0 Standard: 2.1. All the materials of stay sets shall comply in all respects with the requirements of the latest
edition of the relevant Indian or British Standard specification except in so far as they are modified this specification.
3.0 Design Consideration: 3.1. Stay Rods shall be Galvanised and shall be of circular Cross-section with bow, thimble, nuts and
bolts. The Rods shall be threaded at one end up to a minimum of 30 cm length and shall be complete with Galvanised M.S. Anchor Plates with all necessary accessories. All parts shall be heavily galvanised.
4.0 Testing: 4.1. Type and Routine Tests should be carried on different components of each stay sets as per
relevant Indian Standard specification and certified copies of the above should be submitted along with the tender.
5.0 Schedule Requirement: Stay sets complete with Thimble bow stay Rod/Anchor plate with nuts etc. and made of Rolled
mild Steel Rod and plates as per detailed given below:
5.1. Anchor Plate: I) Thickness not below 5 mm.
II) Size not below 300 mmX300 mm with smooth edges (for HT)
III) Well galvanised
IV) Materials M.S. Rolled plate
V) About 20 mm square hole at centre for locking the plate with the Anchor Rod (for HT)
5.2. Anchor Rod: VI) Length 1800 mm or above
VII) Threaded length 30 cm or above
VIII) Diameter 18 mm or above (for HT)
IX) Anchor plate and head: square size 30mm X 30mm with thickness 25 mm having
matching square size shank for locking the Anchor plate.
X) One ratched lock nuts, grooves must match the grooves at bow flange
XI) One check nut.
XII) Materials H.S.
XIII) Component well galvanised with extra care for the threaded portion.
XIV) Both lock and check nuts should be matching to the Anchor Rod thread such that
punching of thread after assembly at site safeguards them against removal.
5.3. Thimble: The match bow diameter and bend should be well galvanised. 5.4. Bow: Rod diameter 12mm/16mm or above overall length 35cm/40cm or above. Flange with well
formed locking grooves matching the locking nut, bow ends will be riveted securely with the flange. All items to be galvanised.
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6.0 Inspection: 6.1. All tests and inspections shall be carried out at the place of manufacturer unless
otherwise agreed by the purchaser and the manufacturers at the time of purchase. A manufacturer shall afford the inspector representing the purchaser or third party nominee, all reasonable facilities, without charge to satisfy that the materials are being purchased as per specification. The purchaser reserves the right to have the test carried out at his cost by an independent agency, whenever there is dispute regarding the quality of the materials supplied.
7.0 Marking: The equipments shall be marked with name of manufacturer, year and name of project.
6.16 TECHNICAL SPECIFICATION FOR G.I. STAY WIRE
1.0 Scope
The specification covers design, manufacturing and testing, transporting to site, insurance, storage,
erection and commissioning of G.I. Stay Wire 7/10SWG and 7/14SWG.
2.0 Materials.
The wire shall be manufactured from steel, made by any suitable process and shall not contain
sulphur and phosphorus exceeding 0.065 percent each.
The wires shall be coated with Zinc Grade Zn 98 of IS:209-1966
The general requirements for the supply of Galvanized stay strand shall be in accordance with
IS:1387-1967 or equivalent international specifications.
3.0 Construction
3.1 Grades: The wire shall be of Grade-I and tensile strength range 45 up to and including Kg/mm
3.2 The Galvanized stay strand shall be of 7/2 mm and 7/3.15 mm. the lay of the strands shall be of the
length of 7/2 mm and Tables-I of IS: 2141-1963. the wires shall be so stranded together that when
and evenly distributed pull is applied at the end of the completed strand each wire will take equal
share of the pull.
3.3 The length of the strand which may be supplied without joints in the individual wires comprising
it, depend on the length of wire which may be carried by the bobbin in a normal stranding
machine. The normal lengths of strand which shall be supplied without joints in the individual
wires, excluding welds made in the rod before drawing shall be as given below. The lengths may
be exceeded by agreement between the manufacturer and the purchaser.
Diameter of wire in strand Normal length without joints of weld
3.15 mm 1000 M
2.0 mm 3000 M
3.4 In cases where joints are permitted, they shall be made by welding of brazing joints in the same
wire shall be separated by a length of not less than that shown in 3.3 and joints in different wires in
a strand shall not be less than 20 M apart.
4.0 Freedom from Defects :
4.1 Each coil shall be warranted to contain no weld joint or splice other than in the rod before it is
drawn and those permitted in 3.4. The wire shall be circular and shall be free scale, irregularities
imperfections flaws splits and other defects. The Zinc coating shall be smooth, even the bright.
5.0 Tests:
5.1 Chemical Analysis: Unless otherwise agreed to between the purchaser and the supplier, the
chemical analysis be carried out.
5.2 Tensile Test: The wire when tested in accordance with IS: 1521-1960, on gauge length of 100 mm
shall have the minimum tensile strength specified in Tables 1 of IS : 2141/1968 according to the
grade of the wire.
5.2.1 The tensile strength of the finalised strand shall be not less tI~an 93 percent of the aggregate of the
single wires.
5.3 Delivery test: The wire shall be subjected to the wrapping test in accordance with IS : 1755/1961.
When wrapped eight times round its own diameter and on being subsequently strengthened the
wire shall not break or split.
5.3.1 Coating test: The uniformity of Zinc coating shall be tested by the method specified in IS :
2633/1964. The wire shall withstand the number or dips as specified in IS : 4826-1968.
6.0 Marking:
6.1 Each coil shall be provided with a label, fixed firmly on the inneJ part of the coil, bearing 'the
following information.
a. Manufacturer's name or trade mark
b. Lot number and coil number
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c. A brief description and quality of the materials.
d. Weight and
e. Any other particulars specified by the purchaser
f. Name of the project TDF.
6.2 The label may also be marked with the ISI certification mark.
7.0 Inspection: The test should be carried out in presence of the inspecting officer deputed by purchaser or third
party nominee and the test should be in conformity with relevant IS .
6.17 TECHNICAL SPECIFICATION OF HT GUY INSULATOR
1.0 Scope
This specification covers design, manufacture, testing, transport to site, insurance, storage,
erection and commissioning of the strain type porcelain Guy Insulator used in distribution
overhead power lines.
2.0 Standard
This insulators shall comply with Indian Standard specification IS: 5500/1969 and as amended
from time to time except where they conflict with the requirements in this specification.
Offers conforming to any other internationally accepted standard which ensure equal or higher
quality than the standard mentioned will be acceptable.
3.0 General Requirements
This porcelain shall be sound, free from defects, thoroughly vitrified and smooth glazed.
The design of the insulator shall be such that stresses to expansion and contraction at any part of
the insulator shall not load to its deterioration.
The glaze, unless otherwise specified, shall be brown in colour. The glaze shall cover the entire
porcelain surface parts except those areas that serves as supports during firing or area otherwise
required to be left unglazed.
4.0 Insulator Characteristics
The Guy Strain Insulators shall have the electrical and mechanical characteristics as shown
below:
H.T. Strain Type Porcelain Guy Insulator
1)Length 140 mm
2)Diameter 85 mm
3)Cable hole dia 25 mm + 1.5
4)Minimum failing load 88 KN
5)Creepage distance 48 mm
6) Dry one minute power frequency withstand 27 KV (rms) voltage
7) Wet one minute power frequency withstand 13 KV (rms) voltage
5.0 Test
All insulators shall comply the following test as per IS : 5300
A) Routine test:
The following shall be carried out as., routine test.
a) Visual Examination
Every insulators shall be visually examined. The insulators shall be free from physical distortion of
shape and defects, and thoroughly verified and smoothly glazed. They should be free from cracks or
any other defects likely to be prejudicial to the satisfactory performance in service.
b) Type test:
The following shall constitute the type test and those shall be conducted in the order given below:
i. Visual examination
ii. Verification of dimensions
iii. Temperature cycle test
iv. Dry one minute power frequency voltage withstand test
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v. Wet one minute power frequency voltage withstand test
vi. Mechanical strength test
vii. Porosity test.
The number of samples for type test are to be agreed to between the purchaser and the supplier.
c) Acceptance Test (to be conducted in the following order)
i. Verification of Dimensions
ii. Temperature cycle test
iii. Mechanical strength test
iv. Porosity test
The number of samples for acceptance test shall be in accordance to IS: 5300.
d) Type test certificate from National Test House/ Govt. recognized institutions/ Govt.
recognized public Testing Laboratories are also to be submitted along with the offer, failing
which the offer is liable for rejection.
6.0 Marking
Each insulator shall be legibly and indelibly marked to shown the following:
a.Name of trade mark of the manufacturer
b.Year of manufacture and name of project TDF 2010-11
Marking on porcelain shall be printed and shall be applied before firing. Insulators may also be
marked with the ISI certification mark.
7.0 Inspection
All tests and inspections shall be carried out at the place of manufacturer unless otherwise agreed
by the purchaser and the manufacturer at the time of purchase. The manufacturer shall afford the
inspector representing the purchaser or the third party nominee, all reasonable facilities, without
charge, to satisfy that materials are being furnished in accordance with the specification. The
purchaser reserves the right to have the test carried out at his own cost by an independent agency
whenever there is dispute regarding the quality of materials supplied.
8.0 Drawing
Drawing specifically showing all dimensions is to be submitted along with technical bid.
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6.18 TECHNICAL SPECIFICATION FOR G.I. WIRE
1.0 Scope
This specification covers the manufacturing, testing at works, transport to site, insurance,
storage, erection and commissioning of Galvanised Iron Wire of sizes 4 mm and 5 mm
diameter.
2.0 General requirements
It relating to the supply of mild steel wire shall be as per IS: 1387/1967 or equivalent
international specifications and the wire shall be drawn from the wire rods conforming to IS:
7887/1975 or equivalent international specifications.
The requirements for chemical composition for the wires shall conform to IS:7887/1975 or
equivalent international specifications.
Mild steel wire for General Engineering purpose shall be of following sizes:
I) 4mm - diameter (8 SWG)
II) 5mm - diameter (6 SWG)
Tolerance permitted on the diameter of wire shall be as per Table -1 of IS:280/1978.
3.0 Climatic Conditions
The cross arms should be suitable for the climatic condition mentioned In these bidding
documents:
4.0 Mechanical Properties
4.1 Tensile Test: Tensile strength of wire when tested in accordance with IS:
1521-1972, shall be within the limits given in Table-2 of IS: 280/1978.
4.2 Wrapping Test: Wires shall be subjected wrapping test in accordance with IS: 1755-1961 or
equivalent international specification. The wire shall withstand without breaking or splitting. being
wrapped eight times round its own diameter and subsequently straightened.
5.0 Surface finish
a. The wire shall have galvanized finishes. The galvanized coating of steel wire shall conform to
the requirements for anyone of the types of coatings given in IS: 4826-1968 as per agreement
with the purchaser.
b. The coating test for finishes other than galvanized, copper coated or tinned shall be subject to
between the purchaser and the manufacturer.
c. Unless otherwise agreed to the method of drawing representative samples of the material and
the criteria for conforming shall be as prescribed in Appendix (A) of IS: 280/1978.
d. All finished wires shall be well and cleanly drawn to the dimensions specified. The wire shall
be sound, free from splits, surface flaws, rough jagged and imperfect edges and other harmful
surface defects.
e. Each coil of wire shall be suitably bound and fastened compactly and shall be protected by
suitably wrapped.
6.0 Marking
Each coil of wire shall be marked legibly with the finish size of wire, lot number and trade mark of
the name of the manufacturer. The material may also be marked with the ISI certification mark and
name of the project TDF.
7.0 INSPECTION
Inspection may be carried out by the purchaser or third party nominee at any stage of manufacture.
The supplier shall grant free access to the purchaser's representative or third party nominee at a
reasonable time when the work is in progress. Inspection and acceptance of any equipment under
this specification by the purchaser shall not relieve the supplier of his obligation of furnishing
equipment in accordance with the specification and shall not prevent subsequent rejection if the
equipment is found defective.
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6.19 TECHNICAL SPECIFICATION FOR CAST IRON EARTH PIPE
1.0 Scope
This specification covers design, manufacture, testing, transport to site, insurance,
storage, erection and commissioning of the cast iron earth pipe for use on line &
substation as earthing pipe.
2.0 Standard
The Earth pipe shall comply with the Indian Standard specification IS: 1729/1964 and
as amended from time to time except where they conflict with the specific requirements
in this specification.
3.0 Climatic Conditions
I. Maximum ambient temperature in shade : 40°C
II. Minimum daily average ambient air temperature : 35°C
III. Maximum yearly average ambient air temperature : 30°C
IV. Maximum ambient temperature 2°C
V. Maximum relative humidity : 93%
VI. Average number of thunder storms days per annum : 45 days
VII. Average number of rainy days per annum : 150 days
VIII. Average annual rainfall : 2280 mm
IX. Number of months of tropical monsoon conditions : 5 months
X. Maximum wind pressure :150 Kg/sq.m
XI. Altitude not exceeding :1000 M
4.0 Manufacture
Metal used for the manufacture of pipes shall be good quality cast iron. Casting shall be stripped
with all precautions necessary to avoid wrapping and shrinkage defects. They shall be free from
defects which effect the use of castings. By agreement between the purchaser and the manufacturer,
minor defects may be rectified.
Pipes shall be such that they could be cut, drilled or machines.
Bolts, buts & washers shall be made of Steel and well galvanized. The bolts shall be of 200 mm
length, 16 mm diameter with 2(two) nos. plain washers, one locknut & one check nut. Threaded
length of the bolts should be 50 mm.
5.0 Sizes
Dimensions of pipe & socket shall be conform to the sizes shown below and as per
drawing enclosed:
Nominal length of the pipe with socket 1800 mm
Nominal diameter of pipe 100 mm
External diameter of pipe 110 mm
Thickness of pipe 5 mm
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Projection of spigot bead 3 mm
Width of spigot bead 15 mm
Internal dia of socket 129 mm
Thickness of socket 6 mm
Internal depth of socket 70 m
Internal Radius of socket 5 mm
Width of grooves of socket 10 mm
External dia of grooves socket 155 mm
Depth of grooves of socket 5 mm
Nominal weight of pipe (Exclusive of ear) 21.67 Kg
5.0 Tolerance
The Tolerance of the 100 mm nominal diameter pipe shall be ±3.5 mm
The Tolerance of pipe thickness shall be - 15 percent
The Tolerance of length of the pipe shall be - ± 20mm
The Tolerance of weight of the pipe shall be - 10 Percent
Pipes weighing more than the nominal weight may be accepted provided they comply
in every other respect with the requirements of this standard.
6.0 TEST
1.0 Hammer test: Each pipe when tested for soundness by striking with a light hand hammer shall emit
a clear ringing sound.
1.1 Hydraulic test : If so required by the purchaser, pipe shall be tested hydraulically at a pressure of
0.4 kg/cm2 without showing any sign of leakage, sweating or other defect of any kind. The pressure
shall be applied internally and shall be maintained for not less than 15 seconds. The tests shall be
conducted before coating of pipe.
2.0 Inspection
All tests and inspection shall be carried out at the place of manufacturers unless otherwise agreed
by the purchaser and the manufacturer at the time of purchase. A manufacturer shall afford the
inspector representing the purchaser or third party nominee all reasonable facilities without charge
to satisfy that the materials are being purchased as per specification. The purchaser reserves the
right to have the test carried out at his cost by an independent agency, whenever there is dispute
regarding the quality of materials supplied. All incoming consignment shall be checked at stores.
3.0 Coating
Normally pipes, unless specially ordered, shall be supplied free of coating on surfaces.
4.0 Marking
Each pipe shall have the Trade mark of the manufacturer and nominal size suitably marked on it.
The pipe marked with the ISI certificate mark, shall be preferred. Name of the project ABY shall
be marked.
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SECTION -7
GUARANTEED TECHNICAL
PARTICULARS
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GUARANTEED TECHNICAL PARTICULARS FOR PSC POLES [9.75M ]
(To be filled in by the bidder)
SL.
NO.
ITEM 9.75 Meter 8.5 Meter 7.5 Meter
1 Name and address of
manufacturer
2 Type of Pole
3 Applicable Standard
4 Length of pole
5 Depth of Plantation
6 Bottom Depth
7 Top Depth
8 Breath
9 Diameter of pre-
stressing wire
10 No. of tensioned wire
per pole
11 Minimum Ultimate
Tensile strength of 4
MM HT wire
12 Minimum initial pull of
4 mm wire
13 Spacing HT wires
14 Quantity of HT wire/
pole
15 Min Quantity of
cement
16 Quantity of Stone
chips
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17 Quantity of sand
18 Link & spiral
19 M.S spiral
20 Maximum Aggregate
size
21 Total weight per pole
22 Minimum clear cover
23 Factor of safety
24 Concrete grade
25 Ultimate Load
26 Earthing shall be
provided by 4 MM dia.
Galvanized iron wire
embedded in concrete
27 one marks to be
provided at ground
level
28 28 days cube strength
of concrete ( Min)
as per IS : 456/2000.
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GUARANTEED TECHNICAL PARTICULARS OF ALL ALUMINUM ALLOY CONDUCTOR (AAAC)
(To be filled in by the bidder)
Sl. No. Description Unit AAAC Wolf AAAC Raccoon
1.0 Maker’s name & Address
2.0 Conductor size and Code
3.0 IS Standard applicable
4.0 Wire diameter in mm mm
5.0 Diameter of complete conductor in mm mm
6.0 Number of strands Nos.
7.0 Sectional area of alloy Aluminum mm²
8.0 Total sectional area mm²
9.0 Particulars of Raw Materials
9.1 Aluminum
a) Minimum Purity of Aluminum %
9.2 Zinc %
a) Minimum Purity of Zinc
9.3.0 Aluminum Strands after stranding
9.3.1 Diameter
a) Nominal Mm
b) Maximum Mm
c) Minimum Mm
9.3.2 Minimum breaking Load Strand kN
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9.3.3 Maximum Resistance of 1 M length Ohm
10.0 Galvanizing
a) Minimum weight of zinc coating per
uncoated wire surface gm/m²
b) Minimum number of one minute dips
galvanized strand can withstand in the
test
Nos.
c)
Minimum number of twists in a gauge
length times dia of wire which the
strand can withstand in the torsion test
(after stranding)
Nos.
11.0 AAAC stranded conductor
11.1 UTS of conductor kN
11.2 Lay ratio of conductor Max
a) 1st
layer
b) 2nd
layer
11.3 D.C resistance of conductor at 20°C Ohm/Km
11.4 Standard length of conductor M
11.5 Continuous current rating at 75°C
(Enclose supporting calculations)
11.6 Final modulus of elasticity
11.7 Co-efficient of Linear Expansion
11.8 Strand
a) Standard diameter mm
b) Minimum
c) Maximum
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d) Cross-Sectional area of Nominal
diameter wire mm²Nos.
e) Weight in Kg/KM
f)
Minimum breaking load
Before Stranding
After stranding
Kg/kN
g) Coefficient of linear expansion
11.9 Joints in strands
a) Aluminum Alloy
b) Method of making joint
c) Ultimate tensile Strength of Joint
12.0 Maximum single length of conductor
that can be manufactured if required for
single stretch
Meter
13.0 Tolerance of standard length of
conductor %
14.0 Direction of lay for outside layer
14.1 Linear mass of the conductor
a) Standard Kg/KM
b) Minimum Kg/KM
c) Maximum Kg/KM
15.0 No. of cold pressure butt welding
available at works
16.0 Standard according to which the
conductor will be manufactured and
tested
a) Certification mark if any
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b) Test Certificate enclosed Yes/No
17.0 Initial & Final sag and tension charts
furnished
18.0 Stress/Strain data corresponding to
different tensions temperatures
furnished
19.0 Curves/tables of creep compensation
corresponding to different tension
temperatures furnished
20.0 PERFORMANCE GUARANTEE
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GUUAARRAANNTTEEEEDD TTEECCHHNNIICCAALL PPAARRTTIICCUULLAARRSS OOFF 3333 kkVV PPIINN IINNSSUULLAATTOORR
(To be filled in by bidder)
Sl. No. Description Particulars
1 Manufacturer’s Name & Address
2 Type of insulator offered
3 Drawing Numbers
4 Over all Dimensions (mm)
a)Height
b)Out Diameter
5 Nominal System Voltage(kV)
6 Highest System Voltage (kV)
7 Minimum Failing Load (kN)
8 Dry Power Frequency Flashover Voltage (kV)
9 Wet Power Frequency Flashover Voltage (kV)
10 Puncture Withstand Voltage (Power Frequency) (kN)
11 Min. Creepage Distance (mm)
12
Impulse Flashover Voltage : (kV)
a)1.2/50 Micro Sec. Wage of Positive Polarity
b)1.2/50 Micro Sec. Wage of Negative Polarity
13 Impulse Withstand Voltage : (kV)
a)1.2/50 Micro Sec. Wave of Positive Polarity
b)1.2/50 Micro Sec. Wave of Negative Polarity
14 Dry Power Frequency 1 Min. Withstand Voltage (kN)
15 Wet Power Frequency 1 Min. Withstand Voltage (kN)
16 Minimum Visible Discharge Test Voltage
17 Net Weight (Approx.) (Kg)
18 Standard According to which Porcelain Insulators be
Manufactured and Tested
19 Tolerance in Dimensions, if any (as per ISS)
20 Temperature Cycle Test (as per ISS)
21 Porosity Test (as per ISS)
22 Performance guarantee
P a g e |
GGUUAARRAANNTTEEEEDD TTEECCHHNNIICCAALL PPAARRTTIICCUULLAARRSS OOFF GGII PPIINN FFOORR 3333 KKVV PPIINN IINNSSUULLAATTOORR
(To be filled in by the bidder)
Sl. No. PARAMETER GUARANTEED VALUE
1 Name & address of the manufacturer
2 Physical dimensions
a. Stalk length in mm
b. Shank length in mm
c. Thickness of collar in mm
d. Diameter of collar in mm
e. Diameter of shank in mm
f. Threaded length of shank in mm
g. Dia of stalk head in mm
h. Threaded length of stalk in mm
3 Gross weight in kg.
4 Weight of zinc coating in gms
5 Mechanical failing load in KN
6 Other particulars
7 Performance guarantee
P a g e |
GGUUAARRAANNTTEEEEDD TTEECCHHNNIICCAALL PPAARRTTIICCUULLAARRSS OOFF 3333kkVV DDIISSCC IINNSSUULLAATTOORR –– 7700 kkNN ((BB && SS))
(To be Filled in by the bidder)
1 Manufacturer’s Name & Address Guaranteed Value
2 Type of insulator offered
3 Drawing Numbers
5 Nominal System Voltage (kV)
6 Highest System Voltage (kV)
7 Minimum Failing Load (kN)
8 Dry Power Frequency Flashover Voltage (kV)
9 Wet Power Frequency Flashover Voltage (kV)
10 Puncture Withstand Voltage (Power Frequency) (kN)
11 Min. Creepage Distance (mm)
12 Impulse Flashover Voltage : (kV)
a)1.2/50 Micro Sec. Wage of Positive Polarity
b)1.2/50 Micro Sec. Wage of Negative Polarity
13 Impulse Withstand Voltage : (kV)
a)1.2/50 Micro Sec. Wave of Positive Polarity
b)1.2/50 Micro Sec. Wave of Negative Polarity
14 Dry Power Frequency 1 Min. Withstand Voltage (kN)
15 Wet Power Frequency 1 Min. Withstand Voltage (kN)
16 Minimum Visible Discharge Test Voltage
17 Net Weight (Approx.) (Kg)
18 Standard According to which Porcelain Insulators be Manufactured and Tested
19 Tolerance in Dimensions, if any (as per ISS)
20 Temperature Cycle Test (as per ISS)
21 Porosity Test (as per ISS)
22 Performance guarantee
P a g e |
GGUUAARRAANNTTEEEEDD TTEECCHHNNIICCAALL PPAARRTTIICCUULLAARRSS OOFF 1111 KKVV DDIISSCC IINNSSUULLAATTOORR –– 4455 kkNN ((BB && SS))
(To be filled in by the bidder)
SL.NO. PARAMETER GUARANTEED VALUE
1 Manufacturer’s Name & Address
2 Type of insulator offered
3 Drawing Numbers
4 Over all Dimensions (mm)
a) Height
b) Out Diameter
5 Nominal System Voltage (kV)
6 Highest System Voltage (kV)
7 Minimum Failing Load (kN)
8 Dry Power Frequency Flashover Voltage (kV)
9 Wet Power Frequency Flashover Voltage (kV)
10 Puncture Withstand Voltage (Power Frequency) (kN)
11 Min. Creepage Distance (mm)
12 Impulse Flashover Voltage : (kV)
a) 1.2/50 Micro Sec. Wage of Positive Polarity
b) 1.2/50 Micro Sec. Wage of Negative Polarity
13 Impulse Withstand Voltage : (kV)
a) 1.2/50 Micro Sec. Wave of Positive Polarity
b) 1.2/50 Micro Sec. Wave of Negative Polarity
14 Dry Power Frequency 1 Min. Withstand Voltage (kN)
15 Wet Power Frequency 1 Min. Withstand Voltage (kN)
16 Minimum Visible Discharge Test Voltage
17 Net Weight (Approx.) (Kg)
18 Standard According to which Porcelain Insulators be Manufactured and Tested
P a g e |
19 Tolerance in Dimensions, if any (as per ISS)
20 Temperature Cycle Test (as per ISS)
21 Porosity Test (as per ISS)
22 Performance guarantee
GGUUAARRAANNTTEEEEDD TTEECCHHNNIICCAALL PPAARRTTIICCUULLAARRSS OOFF HH..TT.. GGUUYY IINNSSUULLAATTOORR
(To be filled in by the bidder)
Sl. NO. PARAMETER GUARANTEED VALUE
1 Manufacturer’s Name & Address
2 Type of insulator
3 Standards to which insulator will conform
4 Dimensions
5 Hole diameter (mm)
6 Color of glaze
7 Dry Power Frequency withstand Voltage (kV)
8 Wet Power Frequency withstand Voltage (kV)
9 Minimum failing load (Newton)
10 Minimum Creepage distance (mm)
11 Weight per piece (Kg)
12 Temperature cycle test (as per ISS)
13 Porosity test (as per ISS)
14 Tolerance, if any (as per ISS)
15 Performance guarantee
GGUUAARRAANNTTEEEEDD TTEECCHHNNIICCAALL PPAARRTTIICCUULLAARRSS FFOORR GG..II.. WWIIRREE
(To be filled in by the bidder)
A. G.I.Wire (4 mm dia) :
1. Size of Wire :
2. Tolerance in size of wire :
3. Tensile strength :
4. Wrapping list :
5. Galvanising conforming to IS : 4826
– 1968 :
6. Guarantee :
B. G.I.Wire (5 mm dia) :
1. Size of Wire :
2. Tolerance in size of wire :
3. Tensile strength :
4. Wrapping list :
5. Galvanising conforming to IS : 4826
– 1968 :
6. Performance guarantee :
GUARANTEE TECHNLCAL PARTICULARS OF COMPOSIT POLYMERIC INSULATOR
FOR 11 KV , 45 KN ( T & C ) TYPE
Sl.
no
Description Unit 11KV , 45 KN , T& C type
Name of Manufacturer & Address
1. Type of Insulator
2. Standard according to which the
Insulator manufacture and tested
3. Name of material used in manufacture
Of the insulator with class/grade
(a) Material of core (FRP rod)
i) E-glass or ECR- glass
ii) Boron content
(b) Material of housing &Weather sheds
Silicon content by weight
(c) ( material of end fitting )
(d) Sealing compound for end fittings
4. Color
5. Electrical characteristics
(a) Normal system voltage KV(rms )
(b) Highest system voltage KV(rms)
(c) Dry power Frequency withstand voltage KV(rms )
(d) Wet power frequency withstand voltage KV (rms )
(e) Dry flashover voltage KV(rms)
(f) Wet flashover voltage KV(rms)
(g) Dry lighting impulse withstand voltage
a) Positive
b)Negative
KV(peak)
KV(peak)
(h) Dry lighting impulse flashover voltage
c) positive
d) Negative
KV(peak)
KV(peak)
(i) R/V at 1MHz when energized at 10KV/30KV(rms)
under dry condition
Microvolt
(j) Creepage distance (mm) mm
6. Mechanical characteristics
(a) Minimum failing load KN
7. Dimension of insulator
(i) Weight Kg
(ii) Dia of FRP rod mm
(iii) Length of FRP rod mm
(iv) Die. Of Weather sheds mm
(v) Thickness of housing mm
(vi) Dry arc distance mm
Dimension drawing of insulator including weight
with clearances min weight enclosed
8. Method of fixing of sheds to housing (specify single
moulder Modular construction moulding )
9. No. of Weather sheds
10. Types of sheds
(i) Aerodynamic
(ii) With under ribs
11. Packing details
(a) Types of packing
(b) No. of insulator each pack
(c) Gross weight of package
12. Any other particulars which the bidder may like to
give
GUARANTED TECHNICAL PARTICULARS OF COMPOSITE POLYMERIC INSULATOR
FOR 11 KV , 5 KN PIN INSULATOR TYPE
Sl.
no
Description Unit 11KV , 5 KN , PIN
INSULATOR
Name of Manufacturer & Address
1. Type of Insulator
2. Standard according to which the
Insulator manufacture and tested
3. Name of material used in manufacture
Of the insulator with class/grade
(a) Material of core (FRP rod)
i) E-glass or ECR- glass
ii) Boron content
(b) Material of housing &Weather sheds
Silicon content by weight
(c) ( material of end fitting )
(d) Sealing compound for end fittings
4. Color
5. Electrical characteristics
(a) Normal system voltage KV(rms )
(b) Highest system voltage KV(rms)
(c) Dry power Frequency withstand voltage KV(rms )
(d) Wet power frequency withstand voltage KV (rms )
(e) Dry flashover voltage KV(rms)
(f) Wet flashover voltage KV(rms)
(g) Dry lighting impulse withstand voltage
a) Positive
b)Negative
KV(peak)
KV(peak)
(h) Dry lighting impulse flashover voltage
c) positive
d) Negative
KV(peak)
KV(peak)
(i) R/V at 1MHz when energized at 10KV/30KV(rms)
under dry condition
Microvolt
(j) Creepage distance (mm) mm
6. Mechanical characteristics
(a) Minimum failing load KN
7. Dimension of insulator
(i) Weight Kg
(ii) Dia of FRP rod mm
(iii) Length of FRP rod mm
(iv) Die. Of Weather sheds mm
(v) Thickness of housing mm
(vi) Dry arc distance mm
Dimension drawing of insulator including weight
with clearances min weight enclosed
8. Method of fixing of sheds to housing (specify
single moulder Modular construction moulding
)
9. No. of Weather sheds
10. Types of sheds
(i) Aerodynamic
(ii) With under ribs
11. Packing details
(a) Types of packing
(b) No. of insulator each pack
(c) Gross weight of package
12. Any other particulars which the bidder may like
to give
Guaranteed Technical Particulars of Composite 33 KV Disc Insulator
Sl.
No. Description Unit
33 KV,70 KN
1. Type of Insulator
2. Standard according to which the
Insulator manufacture and tested
3. Name of material used in manufacture
of the insulator with class/grade
(a) Material of core(FRP rod)
i) E-glass or ECR-glass ii) Boron content
(b) Material of housing & Weather sheds
silicon content by weight
(c) (Material of end fitting)
(d) Sealing compound for end fittings
4. Colour
5. Electrical characteristics
(a) Normal system voltage KV(rms)
(b) Highest system voltage KV(rms)
(c) Dry power frequency withstand voltage KV(rms)
(d) Wet power frequency withstand voltage KV(rms)
(e) Dry flash over voltage KV(rms)
(f) Wet flash over voltage KV(rms)
(g) Dry lightning impulse withstand voltage
a) Positive b) Negative
KV(peak)
(h) Dry lightning impulse flash over voltage
c) Positive d) Negative
KV(peak)
(i) R/V at 1 MHz when energized at
10KV/30KV (rms) under dry condition.
Microvolt
(j) Creepage distance (mm) (mm)
6. Mechanical characteristics
(a) Minimum failing load KN
7. Dimension of insulator
(i) Weight kg
(ii) Dia of FRP rod mm
(iii) Length of FRP rod mm
(iv) Dia. of Weather sheds mm
(v) Thickness of housing mm
(vi) Dry arc distance mm
Dimension drawing of insulator
including weight with clearances in
weight enclosed.
Yes/No.
8. Method of fixing of sheds to
housing(specify single moulder Modular
construction moulding)
9. No. of Weather sheds
10. Types of sheds
(i) Aerodynamic
(ii) With under ribs
11. Packing details
(a) Type of packing
(b) No. of insulator each pack
(c) Gross weight of package
12. Any other particulars which the bidder
may like to give.
GUARANTED TECHNICAL PARTICULARS OF 33 KV COMPOSITE POLYMER PIN INSULATORS
Sl.
No Description
33 kV,
10 KN
1 Name of Manufacturer
2 Address:
(a) Registered Office
(b) factory
3 Type of Insulators
4 Standard specification to which the insulators manufactured and tested
5 Name of Material used in manufacture of the Insulator ( With class/ Grade)
(a) Material of core rod
(b) Material of Housing & Weather sheds (silicon content by weight)
(c) Material of end fittings : tongue/ clevis
(d) Sealing compound for end fitting
6 Colour Glaze of Insulator
7 Electrical Characteristics:
(a) Nominal System Voltage ( kV RMS)
(b) Highest System voltage (kV RMS)
(c) Dry power frequency withstand (kV RMS)
(d) Wet power frequency withstand (kV RMS)
(e) Dry flash over voltage (kV RMS)
(f) Wet flash over voltage (kV RMS)
(g) Dry lightening impulse withstand voltage
(a) Positive (kV Peak)
(b) Negative (kV Peak)
(h) Dry lightening impulse flashover voltage
(a) Positive (kV Peak)
(b) Negative (kV Peak)
(i) RIV at 1MHz when energised at 10kV/30kV(rms) under dry condition(microvolt)
(j) Creepage distance (min) mm
8 Mechanical Characteristics:
Minimum failing load(KN)
9 dimensions of insulator:
(i) Weight(kg)
(ii) dia of FRP rod(mm)
(iii) Length of ERP rod(MM)
(iv) dia of weather sheds (mm)
(v) Thickness of housing (mm)
(vi) Dry arc distance(mm)
10
Dimensioned drawings of Insulator(inclluding weight with
tolerances in weight) enclosed
11
Method of fixing of sheds to housing specify):- Single mould or modular
construction( injection moulding/ compression moulding)
12 No. of weather sheds
13 Type of sheds
(i) Aerodynamic
(ii) With under ribs
14 Packing details
(a) Type of packing
(b) No. of Insulators in each pack
(c) Gross weight of package