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1. Cable Routing1.1 General Requirements1.1.1 Cable runs will be preferably routed under pipe racks and along roads, the runsshall be straight, changes of direction and branches must be at right angles.They shall,if possible, be located outside the normal routing of heavy transport. Diagonal areacrossing are not allowed.
1.1.2 Cables shall not run both underneath and parallel with pipelines laid in or directlyon the ground.Where cables run parallel with underground pipelines or sewers aclearance of minimum 30 cm shall be maintained between pipes and cables.
1.1.3 Directly buried cables will be installed in cable trenches.
1.1.4 Trenches shall be constructed such that adequate and permanent mechanicalprotection is given to the cables.
1.1.5 Minimum trench depth for excavation is 80 cm for single layer and 100 cm for twolayer trenches.
1.2 Trenches in Unpaved Areas1.2.1 Trenches in unpaved areas have earth side walls and bottom. To provideadditional protection and warning to workmen red coloured concrete slabs or tiles mustbe laid over the top layer of sand or selected backfill. (Tiles preferable 30 x30 x4cm)For typical crosssection see below figure detail 1.
1.2.2 Bottom width of trenches in unpaved areas will be a full multiple of 30 cm.
1.2.3 Asphalt or brick covered areas are to be considered unpaved.
1.3 Trenches in Paved AreasTrenches in concrete paved areas shall have an earth bottom and concrete walls orsimilar means, to prevent the supporting ground of the paving from cavingin. Noprotection slabs or tiles are required. A red coloured weak concrete covering layer shallbe provided on these trenches and constructed such that :1. fluids present on the surface cannot enter the trench.2. the cover is resting on the backfill, so not supported from the side walls, to avoid
airpockets between cover and backfill.
For typical crosssection see below figures detail 2.
1.4 Crossings1.4.1 Where cables have to pass under rail and pipe tracks they shall be installed inconcrete ducting. For various type of ducting see point 3.2 hereafter.
1.4.2 No special provisions should be made for cables crossing roads or dikes, exceptthe installation of spare conduits up to 1020% of trench capacity, for future cables.
(For installation of conduits see standard BNDSE6) This is to avoid disturbing thefinished roads or dikes afterwards.
1.4.3 In cases where cables have to cross/pass hot underground pipes or equipment,they must be protected either by observing adequate spacing or by insulating the hotpipes or equipment in order to limit the maximum temperature at the location of thecables to 30 C.
1.4.4 At crossings of instrument and electrical cables the instrument cables shallalways run on top.
A minimum distance of 30 cm shall be observed between the lowest cable in theinstrument trench and the highest cable in the electrical trench.
1.4.5 In cases where cables have to cross underground pipelines or sewers a verticalclearance of min. 30 cm shall be observed.
2. Cabling Design2.1 General2.1.1 All continuous load carrying cables shall be horizontally spaced with a min.interval of 7 cm.
2.1.2 Space is not required between normally unloaded cables (such as control andlighting subcircuit cables) or between normally unloaded and loaded cables. Motorcontrol cables shall be laid along their associated motor feeder cables.
Wherever practical, motor feeder cables in the same trench which serve normal andspare services shall be laid alternately
2.1.3 Where large groups of cables must pass through congested areas and spacerestrictions do not permit cables to be laid in a single layer, cables may be installed ina maximum 2 layers provided that :
vertical separation between the layers is minimum 20 cm.
space for future cables, when required, is made available in the top of layer.
the high voltage cables are installed in the bottom layer.
2.1.4 When a cable is to cross other cables to leave the layer a filling of minimum 3cm. clean sand between that cable and other cables is required.
2.1.5 In the order to avoid overheating of the cables, the above mentioned spacingshave to be maintained at all times. Parallel feeders should be separated from eachother as much as possible, e.g. on opposite sides of the trench.
2.1.6 Top of cables will be installed at a depth of minimum 55 cm below grade.
2.1.7 For cable arrangement in trenches and ducts see below figures details 1, 2 and4.
2.1.8 Cables are routed in conduits from the trench to the individual equipment e.g.pumps, outlets junction boxes etc.
2.1.9 For application of conduits see standard BNDSE6.
2.2 Cables for Special Purposes2.2.1 Cables for special purposes i.e. communication, electronics, etc. shall runseparate from powerearthing and lighting cables to minimize interferences.
2.2.2 They shall not be laid in the same trench with electrical cables, so separatetrenching is required.
2.2.3 Unless overruled by a special job specification, the following minimum clearancesbetween the special and electrical cables should be maintained :
crossings =30 cm
parallel runs =60 cm.
2.2.4 Main cables for uninterrupted power and emergency supply systems shall behandled in the same way as special cables.
2.2.5 installation practice of these cables should follow the prescriptions for normalcables.
3. Installation Requirements3.1 Excavation3.1.1 Excavation shall be carried out to the Engineer’s satisfaction with approved earthmoving equipment to the levels and dimensions shown on the drawings and with sideslopes appropriate to the type of soil.
3.1.2 All excavated soil that has been approved by the Engineer for backfilling shall beplaced in principle not more than 5 m away from the trench at locations agreed with theEngineer.
If it is not possible to place this soil near the trench it is to be transported to stockpilesas directed by the Engineer.
3.1.3 If in the course of excavation Contractor encounters any underground pipelines,sewers, cables or any other undocumented obstruction, he shall immediately ask theEngineer for instructions.
Note : The position of existing underground pipe lines, sewers, cables, etc. whereshown on the drawings are not guaranteed either accuracy or completeness andContractor shall verify their positions before commencing any work.
3.1.4 Excess cuts shall be filled to the correct level with compacted material inaccordance with this standard at Contractor’s expense.
3.1.5 It shall be Contractor’s responsibility to keep the excavations free of storm andseepage water until the work has been completed and to install and maintain allshoring, sheet piling, and the like temporary work, necessary to maintain theexcavated trenches in a suitable condition to carry out the work, and to prevent slidingof earth or settlement of adjacent ground, structures or other works.
3.1.6 At no time the installation and removal of Contractor’s temporary works anddewatering facilities shall adversely affect other areas of construction.
The responsibility for means and methods of design and installation of the temporaryworks rests with Contractor, but all methods shall be approved by the Engineer prior tocarrying out.
3.1.7 Safety barriers along the sides of open trenches and accesses across trenchesshall be provided by Contractor. Locations shall be mutually agreed with the Engineerbefore starting excavation.
All barriers shall be well maintained throughout the period that trenches are open.Where they are temporarily removed to facilitate the installation of cables, they shall bereinstalled before leaving the job site.
3.2 Ducting3.2.1 General
In general the length of any ducting should not exceed 20 m. Where soil conditions arepoor a reinforced concrete slab shall be made to support and hold the ducting and toprevent damage to cables due to independent movement of duct sections. When aduct can lead fluids from one area to another, the whole duct has to be sealed off atthe possible fluid entrance. During construction the whole duct and after installation thespare holes must be pluggedoff at both ends with wooden plugs or suchlike.
3.2.2 Ductbanks
Ductbanks will be made up from coated steel or non metallic pipes (including 20%spare) encased in concrete. The ends of the pipes shall bevelled to avoid damaging ofthe cables. For typical crosssection see below figures detail 3.
3.2.3 Concrete Troughs
In cases where normal prefab. concrete troughs are required, they have to be filled withapproved filling material after cable laying to avoid overheating of the cables. Fortypical crosssection see below figures detail 4.
3.2.4 Cable Form Stones
Cable form stones shall be in accordance with DIN 457. They shall be 1 m long withholes of approx. 100 mm diametre, but without bituminous coating on the inside. Theyshall have holes and dowel pins for alignment of adjacent units. When stones havebeen fitted together all joints shall be plastered.
3.3 Cable Laying3.3.1 General
The following considerations shall apply for cable pulling operations :
In principle pulling of cables shall be done by hand without mechanical auxiliaryequipment.
Note : If Contractor should propose to pull a certain part of the cables with powerdrivenmechanical pulling equipment he shall submit :
a. A reference list of previous mechanical cable pulling jobs.
b. A full description of the pulling equipment proposed which shall at least bespecifically designed for this purpose with all necessary features to prevent damage tothe cables such as torque limiting devices. It shall further be fitted with a recorder torecord all pulling activities. Recording rolls must be handed over to the Engineermarked up with type and cable number concerned.
In all cases sufficient manpower shall be available near the cable reel to drive andstop it in time
Maximum use must be made of rollers particularly by changing of direction andlong runs.
Manufacturer’s maximum recommended cable pulling tensions shall not beexceeded.
For steel wire armoured cables tension shall be applied to the wire armour and forsteel tape armoured cables tension shall be applied only to the bunchedconductors.
Contractor shall keep the job site clean and tidy at all times. Cable drums, sand,tiles, rollers, etc. , shall not be stored to block access ways and roads.
Drum reeling points shall be selected to give minimum interference with traffic.
3.3.2 Cutting Lists
Prior to starting the pulling of cable Contractor shall prepare a complete cutting list foreach cable reel in order to use the continuous cable lengths supplied mosteconomically.
Note: The lengths indicated on the cable lists are to be considered informative only.The actual lengths have to be verified in the field and on the reels. If certain lengthshave been specifically ordered to avoid splices, these will be marked up in the cablelists. These designated lengths may only be used for the service indicated.
3.3.3 Underground Laying
Before commencing the installation of the cables Contractor shall make the trenchbottom flat, clean and free of any hard or sharp objects, and assure access throughroad and pipetrack crossings.
Cables will not be installed if the ambient temperature is below the minimuminstallation temperature as given by the cable manufacturer. If installation below theminimum temperature is required after all, the instructions concerned from the cablemanufacturer shall be followed. (Guide line for the minimum temperature is +4 C.)Cables shall be routed as indicated on the relevant cable layouts. Any deviation thereofshall be shown on the asbuilt drawings.
Cables shall be laid as indicated on detail 1 through 6, see below figures. Theminimum bending radius for cables shall be 15x but for lead sheathed single core andminimum sheathed paper insulated cables 25x the cable diameter. Fixed bends atterminal boxes may have a radius of 70% of the above mentioned figures, provided thatthey are made by skilled labour.
The cable arrangement will be such that crossovers are restricted to the absoluteminimum.
Cables shall be laid slack to prevent breakage due to settlement of the ground. Inaddition a slack of 1 m is required when a cable enters or leaves an undergroundconduit or ducting. (see below figures detail 5)
All cables shall be identified with cable markers. For cable identification see standardBNDSE4.
Care must be taken when unreeling cable from drums and passing ends through ducts,etc., that twists and kinks are not made in the cable.
The conduits required to route cables from the main trench to the individual equipmentshall be supplied and installed by Contractor when not installed by third party. (e.g.Civil Contractor)
3.3.4 Cable Splices
Normally, cables shall be installed in single continuous lengths. Splices shall onlypermitted in exceptional cases. The necessity for splices and their proposed locationshall be subject to the Engineer’s approval.
When direct burial cable splices are made, proper splice materials shall be used and aslack of 1 m shall be applied at both sides of the splice box (see below figures detail6). The location of splices shall be shown on the asbuilt drawings.
3.3.5 Cable Terminations
Immediately after cutting, all cable ends both of the installed cables and of the cablepart remaining on the reel shall be protected as follows:
XLPE and PVC insulated cables to be liberally wrapped with “denso” tape.
Paper insulated cables to be capped by a plumbed lead cap over the conductors.
o
Telecommunication and thermocouple extension cables to be closed by means ofcast resin.
Multicore tubing cable to provided with suitable caps securely taped to the cable.
The ends of the cables which should run above ground have to be coiled by Contractorin the trench local to the equipment and backfilled and indicated as such above thebackfill until the time they will be connected or run overhead to equipment.
Note : Information regarding the necessary length of the cable to be coiled will either beindicated on the drawings or has to be determined by Contractor for those drawingswhere the overhead part of cable run has been completely shown.
Contractor is responsible for supporting and protecting all loose ends of cablesremaining above grade to prevent damage until final termination. Prior to enteringsubstations or control room (basements) cable ends shall be cleaned from sand anddirt.
3.3.6 Backfilling of Trenches
No trenches shall be backfilled unless approved by the Engineer.
If excavated soil has been disapproved by Engineer for backfilling purposes clean sandor special backfill will be placed at Contractor’s disposal.
The backfill shall surround the cables to a thickness of 10 cm. It shall be wellcompacted by tamping and watering to a minimum density of 95% Proctor in order toimprove the thermal conductivity.A protective covering of red concrete tiles shall than be applied (for trenches in unpavedareas only) and the remainder of the trench be backfilled and tamped.
The backfill shall be thoroughly screened to eliminate hard and sharp objects.
3.4 Cable Trench Identi�cation3.4.1 Trench routing and ducts in unpaved areas shall be identified by trench markers.
3.4.2 Trench markers are to be 10 cm square red concrete posts, 60 cm long locatedas follows:
Minimum every 10 m inside process battery limits.
Minimum every 25 m outside process battery limits. (offsite)
At all points where trench changes direction and branchesoff.
At both edges for trenches 90 cm wide and above.
At one edge for trenches under 90 cm wide.
These markers shall protrude 2 cm above grade.
3.4.3 Trench markers will be made and placed in accordance with detail1, see belowfigures.
3.4.4 Trench in paved areas are identified by their red concrete cover
3.5 DamagesCables damaged prior to installation shall not be repaired and installed unless approvedby the Engineer. Cables damaged due to rough or unskilled handling or other ways ofwrong handling by Contractor during or after installation shall be immediately repairedat Contractor’s expense, in order to prevent further deterioration.
The method of repair shall be in accordance with cable manufacturer’s instructions.
All coating and wrapping of underground piping damaged by Contractor during trenchwork and cable laying shall be repaired at his expense.
All damages shall be reported to the Engineer immediately.
3.6 Veri�cation and Testing3.6.1 General
All test equipment required shall be furnished by Contractor at no extra cost and shallbe subject to approval by the Engineer for accuracy, calibration and suitability forintended function. During installation of cables Contractor shall verify:
Actual length of cable above ground and the exact location of the cables.
Provisions to protect the cables.
Sealing of cables and holes.
Cross sections/numbers of cores, type and voltage of the cables and correcttagging.
Laying, spacing and bending radii of cables especially those parts coiledup intrenches for later above ground installation.
Protection of ends of cables.
Density of soil before laying of cables.
3.6.2 Cable Testing
Test of insulation resistance and continuity of all conductors and, where applicable,continuity of metallic shielding shall be made after installation and before backfilling oftrench.
A 5000 V Megger shall be used for all cables of 6.6 kV rating.
A 1000 V Megger shall be used for all cables of 750 V rating.
A 250 V Megger shall be used for all lower rating cables.
3.6.3 Records
Records of the results for each test shall be submitted to the Engineer on a weeklybasis.
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