"Confirm"
SGCC Acting Chief Engineer
_________ B. Mansurov
«____» ____________ 2015.
PERFORMANCE SPECIFICATION
for purchasing of a package of chemicals for
treatment of SGCC cooling water system
SGCC - 2015.
1. General part
1.1 The Present Performance Specification (PS) is developed to receive the offers from
potential manufacturers and suppliers for effective cooling water system treatment of
SGCC. At studying of technical-commercial offers the additional demands and terms
directed on unification of represented offers can be made to Pretenders.
1.2 Chemical reagents are intended for cooling water system treatment of SGCC, for the
purpose of providing non-corrosive and non-scale operation mode and the control of
the micro and macro biological pollution.
2. Description of water circulating cooling system
2.1 Cooling tower
Water cooling is carried out for its partial evaporation in the air flow produced by
exhaust fans.
About 5 % of total volume of circulating water goes for mechanical filters
cleaning. The last represent the reservoirs filled with quartz sand (2м) which serve
for removal of mechanical pollution and oils.
In points before and after filters the regular analysis of water on following basic
indexes is carried out: iron and phosphate content, рН and transparency. On a
constant basis to the water are added corrosion inhibitor for prevention of corrosion
and maintenance of cleanliness of heat-transmitting surfaces, and biocide for the
control of microbiological pollution of system.
Water cooled in unit fed to the plant objects as a cooling quenching agent.
Appendix №1
COOLING TOWER PERFORMANCE SPECIFICATION
№ Name of equipment Main parameters and materials
1 Cooling tower type Fan house
2 Section sizes Width 48 "х length 48"
3 Number of sections 5 ps
4 Cooling tower overall dimension Width 48 "- 8" х length 269 "-8" х height 31-5-5/8 "
5 Design temperature of the wet-
bulb thermometer
22,13°С
Components characteristic
6 Cooling water tank Concrete
7 Framework Glass fiber
8 Fan area Glass fiber
9 Barriers ПЭС
10 Anchors Stainless steel 304
11 The ventilating duct Diameter 28 "х height 10" ПЭС
12 Fastenings for the ventilating
duct
Stainless steel 304
13 Fan ПЭС Blades, galvanized steel hub
14 External covering The goffered panel, 8 ounces/foot2
ПЭС, 4,2 "
15 Filler - bottom layers Three (3) layers Trickle Bloc
16 Water traps DÀ-120 PVC
17 Flange diameter of a distribution
inlet
30 "
18 Distribution collector diameter 30 "/ 24"
19 Branch pipes Polypropylene
20 Ladder glass fiber
21 Ladder platform glass fiber
Cooling water filtration unit
22 Filtration Unit Pumps Lateral flow pumps GA-6203Ax/Sx. Type: Norma 300-300, Pumps technical parameters: Q=780 m3/h, Н=15м, Operating pressure =150кPа, n=1475 rpm, N=55 kw. Manufacturer: RITZ, Germany
Sand filters FD-6201Ax/Bx/Cx. Volume-52000 litre, Operating pressure =3,5 bar, Excessive pressure=4,6 bar, Operating temperature =650C, Excessive temperature =280C, Case diameter -4000 mm. Cylindrical cover height =2995 mm Total height=5845mm. Filtration area=12,4 м2
Filtrate-quartz sand. Filter flow rate Q=260 m3/h. Manufacturer: AR Apparatebau Rathenow GmbH, Germany
Loosening blower of filtering material
compressor, type-GM 15L, Q=870 m3/h, n=4120rpm, N=16,4кw.
Corrosion inhibitor injection unit
23 Corrosion inhibitor dosing pump Dosing pumps, type: DME 19, Q=18,5 l/h, Н=15м, Operating pressure=620кpа, N=0.02 kw. Manufacturer: Grundfos, France
Corrosion inhibitor service tank Tank with volume V=1,0 м3, made of PVC
Sulfuric acid injection unit
24 Sulfuric acid dosing pump Dosing pumps, type: Meta HK, Q=41,5 l/h, Operating pressure =250кPа, N=0,18 kw. Manufacturer: Pro Minet. Germany.
Sulfuric acid service tank Tank with volume V=1,0 м3, made of PVC
25 RCS CORRATER SYSTEM
Sodium hypochlorite mixing and injection together with active bromine
26 Sodium hypochlorite service tank
Capacity with volume V=1,0 м3, from a material - PVC
Sodium hypochlorite dosing pump
Dosing pumps, type: Meta HK, Q=41,5 l/h, Operating pressure =250кPа, N=0,18 kw. Manufacturer: Pro Minet. Germany.
27 Active bromine dosing pump Dosing pumps, Q=17 l/h, Н=15м, Operating pressure =7 bar, dosing part material is PVDF, seal material is FKM
Active bromine service tank Tank with volume V=200 litre, made of PVC
2.2 About the system
Cooling water unit is intended for water cooling after technological processes for the
purpose of its further use as a coolant on SGCC objects. Unit operating mode is
continuous, round-the-clock. Open type. Total amount of water in system is 6500 м3,
3000м3 of it is cooling tower pool and 3500м3 of it is volume of pipelines. Equipment
materials in water circulating system: pipelines - carbon steel of mark A 106-B; Heat
exchangers - carbon steel, brass, stainless steel; reinforcement - carbon steel. SGCC
Water circulating system consists of 3 stage circuit (level). Water by the circulating pumps
from cooling tower pool with temperature up to 28 0С fed to the first circuit (level) by the
heat exchanger equipments in quantity of 82 pieces. From the first circuit (level) it pass to
the second circuit (level) in the group of heat exchangers in quantity of 31 pieces, from the
first circuit (level) goes to the return lines in quantity of 51 pieces (polyethylene shop heat
exchanger). From the second circuit (level) it passes in return line of 8 pieces of heat
exchangers, total is 90 pieces (46 pieces of it are in polyethylene shop, 40 pieces are in
ethylene shop, 4 pieces are in Utility shop) of the heat exchangers (See Appendix № 7).
Water in system with temperature up to 400С and 250 кPа of pressure comes back
from a process area in the cooling tower to the 54” diameter pipeline.
Then water is distributed from 54” collector to 5 riser pipes of 30” in diameter, by them
water goes to the top part of cooling tower, entering all 5 sections. Here water is distributed
to 8” pipes and to the nozzles in amount of 432 pieces in one section. Then, moves to
water storage, and falls in cooling tower pool with temperature up to 28 0С.
In the top part of cooling tower, in water storage heat exchange is occurred by
means of compulsory draw of exhaust fans (pos.GB-6201Ax/Bx/Cx/Dx/Ex).
There is over the distributive pipes located the water loss prevention system, i.e.
water traps which are three pass devices. Water traps have high EFFICIENCY and are
developed for reduction of the total water loss up to 0,005 % of total water flow rate.
Appendix №2
Technological data of water circulating system operation
№ Basic specification Value of basic data
1. Operating pressure (outlet) 530 kPа (exc)
2. Water return pressure 250 кPа (exc)
3. Cooling water temperature, Fed flow: - design - current
Up to 28°С 25°С
4. Cooling water temperature, Return flow: - design - current
Up to 40°С 36°С
5. Cooling water circulation - design - current
15500 m3/h 17200 m3/h
6. Evaporation intensity in % of flow rate
330 m3/h 2,12 %
7. Maximum losses due to carry-over: - in % circulating water flow rate
7, 5 m3/h 0,05 %
8. Evaporation index ~3 - 5
9. Feed water flow rate: - design - current
to 500 m3/h 395 m3/h
10. Purge volume: - under designed conditions - current
to 160 m3/h 145 m3/h
11. Water flow rate through the filtration unit - in % circulating water flow rate
780 m3/h 5 %
12. Water circulation time 19 min
13 Corrosion rate of steel 20 <0,1 mm/year
14 Corrosion rate of admiralty brass <0,01 mm/year
Appendix №3
Feed water quality indexes
№ Parameters Unit Rate
1 рН 7,4 - 8,2
2 Conductivity µS/sm 676 - 1110
3 TDS mg/litre 446 - 732
4 SiO2 mg/litre <5
5 Fe3 + mg/litre <0,1
6 Сa + mg-equivalent/litre <4,7
7 Turbidity mg/litre <1,0
8 Free alkali mg-equivalent/litre 0,0 - 0,05
9 Mg2 + mg-equivalent/litre <2,3
10 Total hardness Mg-equivalent/litre <7
11 Total alkalinity Mg-equivalent/litre 1,7-2,5
12 НСО3 Mg-equivalent/litre 1,7-2,5
13 СО32- Mg-equivalent/litre <0,1
14 OH - Mg-equivalent/litre 0
15 CL - Mg-equivalent/litre <180
16 SO4-2 Mg/litre <250
17 TSS Mg/litre <5,0
Appendix №4: The principal flowchart of cooling water system
Appendix №5: Cooling water distribution chart
ПРИНЦИПИАЛЬНАЯ СХЕМА (БЛОК-СХЕМА) УСТАНОВКИ ОХЛАЖДАЮЩЕЙ ВОДЫ
Операторная
Воздуходувка GB-6202X
Фильтр FD-6201A
Фильтр FD-6201B
Фильтр FD-6201A
FB-6201X FB-6202X FB-6203X
GA-6201A
EF-6201AX EF-6201BX EF-6201CX EF-6201DX
GT-6201A
GA-6202 GA-6202S
Насосы подачи воды GA-6203 АХ/ SX
К о м н а т а
П р о т и в о п о ж а р н о й
с и с т е м ы П а н е л ь
у п р а в л е н и я
б о к о в ы х
ф и л ь т р о в
Ф и л ь т р ы б о к о в о г о п о т о к а
Вентиляторы Градирни
Бассейн Градирни
Паротурбинный насос подачи Охлаждающей воды
Аварийные насосы подачи Охлаждающей воды
Насосы подачи Охлаждающей воды
Блок впрыска химреагентов
GA-6201B GA-6201S
П а р Н Д
П а р В Д
О х л а ж д а ю щ а я
в о д а В о з д у х К И П
EF-6201EX
Вода для очистки фильтров
Т е х н и ч е с к и й
в о з д у х П а р Н Д
А з о т
С е р н а я к и с л о т а
9 2 - 9 4 % и з Т С Ц
Очищенная вода в бассейн
П р о м ы в о ч н а я в о д а в
м и н е р а л и з о в а н н ы й с т о к
М М М М М
И н г и б и т о р к о р р о з и и
С е р н а я к и с л о т а 9 2 - 9 4 %
Г и п о х л о р и т н а т р и я 1 4 %
GB-6201AX GB-6201BX GB-6201CX GB-6201DX GB-6201EX
Шоковой дозировка биоцида
Шок доза неокисляюшего биоцида
Линия аварийной подпитки
Т е х н и ч е с к а я в о д а к
п р о т и в о п о ж а р н о й с и с т е м е
П о д п и т к а б а с с е й н а
т е х н и ч е с к о й в о д ы
Впрыск гипохлорита натрия
В о з в р а т о х л а ж д а ю щ е й
в о д ы
Продувка возвратной воды
Прибор для контроля хим. реагентами
Приложение №4
3. Treatment purpose
Carry out of chemical treatment of water circulating cooling system of complex
(corrosion inhibitor and biocide treatment) to maintain corrosion speed of steel 20
no more than 0.1 mm/year, corrosion speed of admiralty brass no more than 0.01
mm/year, total microbial number no more than 105 col/ml, calcium transport not
less than 95 %.
4. Pretender scope of supply 4.1 Chemical treatment Program
4.1.1 Complete set of the technical and technological documentation:
For the purpose of realization of cooling water system long and stable operation,
Pretender should provide SGCC with a full and exhaustive package of the technical
and technological documentation, including, but, not being limited, the following:
The process description
The detailed scope of chemicals demand
Operating manual
Equipment cleaning procedures for preparation of new chemical agents
dosing
Recommendations for safe chemical treatment of cooling water system,
instructions for the system control
Description of counteraction measures on most often met mode deviations,
recommendation for dosing, etc.
Provide with corrosion speed definition method and the required devices,
equipments, materials for this method.
Provide with efficiency definition method of used chemicals at inhibitor and
biocide treatment.
Provide with cooling water quality index definition method as per standard
documentations.
Provide with chemicals injected quality definition method in cooling water
system for inspection test.
Instruction for analytical control of the unit operating mode allowing SGCC
personnel to carry out the daily control and the analysis of chemicals content
in cooling water system.
Certificates of origin and quality certificates for the supplied chemicals;
Material safety data sheet (MSDS);
4.1.2. Supplier Services:
Pretender should assist in sending specialists to SGCC for carrying out of laboratory
test and industrial approbation of cooling water system with chemicals.
Before replacement for the new chemicals Pretender should carry out chemicals
laboratory test in SGCC on described in dosing program, the training on SGCC site
regarding safe treatment during cooling water operation among the unit operations
staff and the central plant laboratory personnel.
4.2. The offer for the required chemicals quantity supply (corrosion inhibitor,
biocide, biodispesant and etc.) specified in worked out program for the system
treatment within 1 year and provide additional volume of chemicals on two time
system passivation.
4.2.1. Volume of purchased package of chemicals for cooling water system depends on
the offered treatment program.
4.2.2. Purchase of the first batch will be done for carrying out of industrial approbation in
amount designed for three months.
4.2.3. At successful results of industrial approbation purchase of the next batch of
chemicals used in cooling water system will be done with corresponding volume
designed for twelve months.
Chief power engineer: A.Beknazarov
Chief mechanic: H.Eshmatov
Acting chief ecologist: N.Berdiev
Chief process engineer: H.Toshboev
Deputy chief of Utility shop: E.Eshmanov