Pumps for nuclear power industry

PUMPS FOR NUCLEAR

POWER INDUSTRY

6A, Pryadilnaya st.Moscow, 105037, Russia

Phone: + 7 (495) 730 02 12Fax: + 7 (495) 730 02 36

e-mail: [email protected]

CONTENTS

Boiler feed pumps Boiler feed pumps, PTA 3750 type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4

Boiler feed pumps, PTA 3800 type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5

Boiler feed pumps, PEA type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6

Condensate pumps Condensate pumps, 1КsV type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7

Condensate pumps, 1КsVA type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8

Condensate pumps, Кs, 1Кs type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10

Nuclear power plant safety system pumps Spray-cooling system pumps, CNSA, D type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12

Reactor shutdown cooling system pumps, CNA type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13

Reactor shutdown cooling system pumps CNR, CNSA, D type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14

Nuclear power plant lubrication system pumps Turbine bearing lubrication system pumps, D, 1D type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16

Primary Circulation Pump bearing lubrication pumps, А1 ЗV type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17

Condensate and boiler feed pump bearing lubrication pumps, АS-NMSH, АS-SH type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18

Nuclear power plant service system pumps Heat transfer pumps, SE type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19

Service system pumps, CNA type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20

Horizontal split case double entry pumps, type D . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22

Centrifugal multistage segmental pumps, CNSg, 1CNSg type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23

Vortex pumps, VK (S) type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24

Centrifugal cantilever pumps, К, 1К type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25

Centrifugal pumps, SM type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26

Vacuum water-circuit pumps, VVN type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27

Application of Pumps at Nuclear Power Station . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28

Pumps, supplied to nuclear power stations during 2001-2008 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29

JSC HYDROMASHSERVICE's office and warehouse location map

Pumping equipment order questionnaire

ENGINEERING

INDUSTRIAL PUMPS OIL & GAS EQUIPMENT

GIPROTYUMENNEFTEGAZ JSC, Tyumen, RussiaEngineering of integrated oil and gas fields developments

TOMSKGAZSTROY JSC, Tomsk, RussiaConstruction of oil & gas industries facilities

TREST SIBKOMPLEKTMONTAZHNALADKA JSC Tyumen, Russia Construction of oil & gas industries facilities

INSTITUTE ROSTOVSKY VODOKANALPROEKT JSC Rostov-on-Don, RussiaDesign of water supply systems, water drainage systems, and hydraulic structures

HMS NEFTEMASH JSC, Tyumen, Russia

Modular (packaged) oil field equipment manufacturer

SIBNEFTEAVTOMATIKA JSC, Tyumen, RussiaDesign and manufacturing of flow metering equipment

NIZHNEVARTOVSKREMSERVICE JSC Nizhnevartovsk, RussiaRepair, upgrade and maintenance of oil field equipment

HMS PUMPS JSC, Livny, RussiaManufacturing of pumps for various applications

LIVNYNASOS JSC, Livny, RussiaManufacturing of submersible centrifugal pumps for water industry

NASOSENERGOMASH JSC, Sumy, Ukraine Manufacturing of pumps for oil and gas industries, thermal and nuclear power plants, householdand public utilities, and water industry

HYDROMASHSERVICE JSC, Moscow, Russia Consolidated trade company of HMS GROUP

VNIIAEN JSC, Sumy, Ukraine Research and development of pumpsfor nuclear and energy industries

PROMBURVOD JSC, Minsk, BelarusManufacturing of submersible centrifugal pumps for water industry

DIMITROVGRADKHIMMASH JSC Dimitrovgrad, Russia Manufacturing of vessels, chemical equipmentand pumps

HMS HOUSEHOLD PUMPS JSCBavleny, Vladimir Region, RussiaManufacturing and marketing of household pumps

JOINT STOCK COMPANY «HMS GROUP»is a dynamically developing holding company, having a highresearch and production potential in the field of designand production of pumping and oil-and-gas equipment,power units and complex hydraulic systems for power and other industries, pipeline facilities, water supply and irrigation. Important business direction for HMS Group is turn key basisconstruction and packaged equipping for oil-and-gas industry. HMS Group comprises the following plants, manufacturingpumps and oil-and-gas equipment, as well as engineering and service companies.

BASIC BUSINESS ACTIVITIES OF JSC «HMS GROUP»

design, production, installation and maintenance of pumping equipment for various industries:

—extracting, refining and transport of oil;

—thermal power and nuclear power plants;

— water supply, irrigation, utilities and house hold, including construction of complete pump stations, river dams, waste water pump stations;

—steel and mining industry.

design and production of oil-and-gas equipment:

—modular packaged equipment for oilfields;

—modular packaged equipment for measuring of oil well production;

—flow measuring instruments for oil and gas;

—service and maintenance of oil-and-gas equipment.

engineering of surface facilities for oil-and-gas fields:— design and construction facilities for collection, storage,

processing and distribution of oil, gas and petrochemical products within oil-and-gas fields;

—construction of trunk and on-field pipelines for oil and gas, construction of on-field surface facilities.

The pumping equipment manufactured by the Group iswidely used at thermal and nuclear power plant facilities,already existing and those being under construction, in Russia, CIS countries, Iran, Iraq, India, China, Morocco, Finland, Bulgaria.

The product range of the equipment produced by the company for water industry includes pumps of over 300 standard sizesfor water supply, sewage, irrigation.

The incorporated trading company of HMS Group is«HYDROMASHSERVICE» CJSC, which supplies the equipmentmanufactured by the Group’s plants and by its long-term part-ners, namely «Sumy Frunze NPO» OJSC, «Bobruisky mashine-building plant» OJSC, «ENA» OJSC, «Volgogradneftemash» OJSC,«NPO ELSIB» OJSC, «Privod» OJSC, «Safronovsky EZ» OJSC, «ELDIN» OJSC, «PEMZ» OJSC, «VEMZ» OJSC, «ZVI» OJSC, «KHEMZ-IPEC» Joint-Venture CJSC, «Electromash» OJSC. The sales embrace Russia and foreign markets.

In addition to supply of pumps HYDROMASHSERVICE acts as ageneral contractor/sub-contractor in construction and supplyof complete plants for water system facilities, including pumpstations, river dams, sewage purification facilities, waste waterpump stations. Contracts for complete plants supply includevarious equipments and services: pumps, valves, pipes and fit-tings, high-and low-voltage electrical and power managementsystems, cabling; substations; water and sewage systems main-tenance vehicles; equipment installation, pre-commissioning and commissioning; personnel training.

HYDROMASHSERVICE has implemented and is implementinga number of contracts on improvement of water supplyand sewage systems in towns of Russia, Uzbekistan, Tajikistan,which were financed by The World Bank and The European Bank of Reconstruction and Development.

4 pumps for nuclear power industry

boiler feed pumps

BOILER FEED PUMPS, PTA 3750 TYPE

APPLICATION

PTA 3750 type pumps and pumping units are desig-ned for supplying feed water from deaerators to steam generators of nuclear power units equipped with VVER-1000 (pressurized water) reactor and К-1000-60/3000-2 turbine .

DESIGN

PTA 3750 type feed pumps — centrifugal, horizontal, multistage, double case pumps with friction bearings, mechanical seals, turbine driven .

PERFORMANCE CHART

pump (unit) designation

capacity,m3/h

head, mrotation speed,

rpmturbine power,

kW

PTА 3750-75-2 3400 635 3114 6285

PTА 3750-75-3 3750 860 3409 9603

5pumps for nuclear power industry

boiler feed pumps

BOILER FEED PUMPS, PTA 3800 TYPE

PERFORMANCE CHART

pump (unit) designation

capacity,m3/h


rpmturbine power,

kW

PTА 3800-20-2 3 450 134 1602 1280

PTА 3800-20-3 3 800 160 1753 1680

APPLICATION

PTA 3800 type pumps (booster pumps) and pumping units are designed for supplying feed water from deaerators to main feed pumps: PTA 3750-75-2 and PTA 3750-75-3 to ensure their cavitation free operation .

DESIGN

PTA 3800 type feed pumps — centrifugal, horizon-tal, single stage, with double entry impeller, turbine driven .


boiler feed pumps

APPLICATION

PEA type pumps and pumping units are designed for supplying feed water from deaerators to steam gen-erators of nuclear power units:

— PEA 1840 — for supplying feed water from dea-erator to steam generators of nuclear power units with VVER-1200 reactors;

— PEA 250 — for supplying feed water from dea-erator to steam generators of nuclear power units with VVER-91 reactors during startup and shut-down .

DESIGN

PEA type feed pumps — centrifugal, horizontal, multistage, double case or single case, electric motor driven .

PERFORMANCE CHART

pump (unit)designation

capacity, m3/h


rpmmotor power,

kWvoltage,

V

PEA 250-80-2 250 880 2973 800 6000

PEA 270-150 290 1720 2970 2000 6000

PEA 1300-185 1300 1780 4500 8000 6000

PEA 2000-90 2000 900 3000 6300 6000

PEA 1840-80 1840 910 3000 6300 10 000

BOILER FEED PUMPS, PEA TYPE


condensate pumps

APPLICATION

1KsV type condensate pumps and pumping units are designed for transfer of conden-sate or fresh water with temperatures up to 160 °С in steam-water delivery systems of power stations .

DESIGN

1КsV type condensate pumps, centrifugal, vertical, double shaft design .

The main (high speed) stage has one or two impellers mounted on the high-speed shaft supported by a rolling contact bearing and

a friction bearing . The shaft is sealed with a double mechanical seal .

The main (high speed) stage connects to the motor via a pin coupling and rotates synchronously at 3000 RPM . This solution makes the design very compact and light .

The booster (low speed) stage is driven by a turbine mounted in the pumped liquid flow downstream of the main stage impeller . The booster stage has its own supports (friction bearings) integrated with hydrostatic end bearing . Booster impeller is mounted on the low speed (1500 rpm) shaft to ensure good cavitation performance of the pump .

PERFORMANCE CHART


capacity, m3/h


rpmmax. positive

suction head, mmotor power,

kWvoltage,

V

1КsV 100-100 100 100 3000 1,0 75 380

1КsV 125-71 125 71 3000 1,0 45 380

1КsV 125-140 125 140 3000 1,0 90 380

1КsV 200-130 200 130 3000 1,4 132 380

1КsV 200-220 200 220 3000 1,4 250 380/6000

1КsV 315-80 315 80 3000 1,4 110 380

1КsV 315-160 315 160 3000 1,4 250 380/6000

CONDENSATE PUMPS, 1KsV TYPE


condensate pumps

APPLICATION

КsVA type condensate pumps and pumping units are designed for transfer of condensate in nuclear power plant's steam-water delivery systems:

— КsVA 125-55 — for pumping condensate from the condenser of TPN drive turbine to main turbine condenser;

— КsV 200-220-1 — for pumping Delivery Water Heater steam condensate to the Full-Flow Con-densate line at a cut-in point between PND-2 (low pressure heater) and PND-3 or the discharge manifold of the drain tank pumps;

— КsVA 360-160-2 — for pumping water from SAOR tank to 1BA tank and to the inlets of 1МPEN-1 to 1МPEN-5 pumps during accidents involving loss of heat-transfer fluid;

— КsVA 360-160-3 — for transferring heating steamcondensate from PND-1 to the Full-Flow Con-densate line downstream of PND-1 of the К-1000-60/1500-2 turbines of nuclear power units with VVER-1000 reactor . This pump functions as a drain pumping unit;

— КsVA 440-200 — used in the third cooling circuit of a nuclear power unit as a drain pump to trans-fer the heating steam condensate from PND-4 to the Full-Flow Condensate line downstream of PND-4;

— КsVA 650-135-4 — for pumping the mixture of SPP separate and PND-4 heating steam conden-sate from PND-4 condensate collector to nuclear

power plant's К-1000-60/3000-3 turbine feed water deaerator;

— КsVA 650-135-5 — for pumping the separate of spent steam from a point downstream of TsVD to the Full-Flow Condensate line downstream of the PND of К-1000-60/1500-2 turbines of nuclear power units equipped with VVER-1000 reactor . This pump functions as a drain pumping unit;

— КsVA 1050-100 — first stage pump, used in the third cooling circuit of nuclear power units to pump full-flow condensate from turbine con-denser through desalination plant, Seal System steam condenser and PND-1 to low pressure direct-contact heater (PND-2);

CONDENSATE PUMPS, 1KsVA TYPE


condensate pumps

— КsVA 1250-250 — second stage pump, used in the third cooling circuit of nuclear power plants to pump Full-Flow Condensate from PND-3 direct-contact low pressure heater through PND-4 and PND-5 to the aerator;

— КsVA 630-125-2 — for pumping the heating steam condensate from PND-3 to the Full-Flow Conden-sate line downstream of low pressure heaters #3 of К-1000-60/1500-2 turbines of nuclear power units with VVER-1000 reactor .

This pump functions as a drain pumping unit;— КсV 125-140 — for pumping desalinated feed

water to the aerator .

DESIGN

КsVA type condensate pumps — vertical, double case, segmental, with internal case comprising rotor, sta-tor parts, end seals (mechanical and packing type), bearings . The pump has electric motor drive .

PERFORMANCE CHART


capacity, m3/h


rpmmotor power,

kWvoltage,

V

КsVA 125-55 75 55 3000 22 380

КsV 125-140 75 110 2950 62 380

КsV 200-220-1 200 220 3000 250 6000

КsVA 360-160-2 360 160 1500 250 6000

КsVA 360-160-3 360 160 1500 250 6000

КsVA 440-200 582 146 1500 250 6000

КsVA 650-135-4 582 146 1500 400 10 000

КsVA 650-135-5 650 135 1500 400 6000

КsVA 1050-100 1 050 100 1500 500 6000/10000

КsVA 1250-250 1 250 250 1500 1250 6000/10000

КsVA 630-125-2 630 125 1500 315 6000

CONDENSATE PUMPS, 1KsVA TYPE


condensate pumps

PERFORMANCE CHART


capacity, m3/h


rpmmotor power,

kWvoltage,

V

Ks 32-150-3 32 150 3000 22 380

Ks 50-55-3 40 60 3000 15 380

APPLICATION

Ks, 1Ks type condensate pumps and pumping units are designed for pumping condensate in steam-water delivery systems of thermal and nuclear power plants and also in heat supply and water supply systems .

— Кs 50-110 — for pumping water drained from steam generators into the drain tank to the blowdown water treatment system;

— Кs 32-150-3 — for pumping condensate from the condensate tank to the II circuit make-up water deaerator;

— Кs 50-55-3, Кs 80-155-3 — for pumping water, drained from steam generators .

DESIGN

Кs, 1Кs type condensate pumps — horizontal, single case, segmental pumps with single entry impeller, electric motor drive . The pumps are equipped with

mechanical or packing type end seals, the rotor is supported by rolling contact bearings .

CONDENSATE PUMPS, Ks, 1Ks TYPE


condensate pumps


capacity, m3/h


rpmmotor power,

kWvoltage,

V

Ks 50-110-3 40 117 3000 30 380

Ks 50-110-4 50 110 3000 30 380

Ks 80-155-3 80 155 3000 55 380

1Ks 20-50 20 50 3000 7,5 380

1Ks 20-110 20 110 3000 15 380

1Ks 32-150 32 150 3000 30 380

1Ks 50-55 50 55 3000 15 380

1Ks 50-110 50 110 3000 30 380

1Ks 80-100 80 100 3000 45 380

1Ks 80-155 80 155 3000 75 380

CONDENSATE PUMPS, Ks, 1Ks TYPE


nuclear power plant safety system pumps

APPLICATION

CNSA and D type pumps and pumping units are designed for supplying boric acid solution to sprin-kler system spray nozzles during accidents at nuclear power stations:

— CNSA 750-140-1 — for pumping boric acid solu-tion to sprinkler nozzles during accidents invol-ving leaks in the primary cooling circuit or leaks in the secondary cooling circuit within the con-tainment shell so as to reduce temperature and pressure inside the shell and bind radioactive iodine, contained in the steam and air of the sealed space;

— 1D630-90К — for circulation of coolant in cooling circuits .

DESIGN

CNSA type feed pumps — centrifugal, horizontal,

double case, multistage with screw-type first stage, mechanical seals, electric motor drive .

D type feed pumps — horizontal, single stage, with double entry impeller, mechanical seals, support / end-thrust type bearings and electric motor drive .

PERFORMANCE CHART


capacity, m3/h


rpmmotor power,

kWvoltage,

V

CNSA 750-140-1 765 146 1500 500 6000

1D630-90К 630 90 1500 250/315 380/6000/10000

8NDv-H 500 38 1000 110 380

CNSA

SPRAY-COOLING SYSTEM PUMPS, CNSA, D TYPE


APPLICATION

CNA type reactor shutdown cooling down pumps and pumping units are designed for cooling down reactor core during accidents and scheduled shut-down of reactor:

— CNA 150-60 — for pumping boric acid (Н3ВO3) solution to nuclear reactor during accidents at power plants with VVER-91 nuclear power units;

— CN 150-60-1 — for pumping boric acid (Н3ВO3) solution to nuclear reactor during accidents to replenish the lost coolant in the primary cooling circuit and for removing excess heat from the core in slow pipeline leak situations so as to keep the core sub-critical;

— CNA 150-110-2 — for pumping boric acid solu-tion from emergency tank to the primary cooling circuit of a VVER-1000 nuclear power unit during accidents .

DESIGN

CNA type reactor shutdown cooling system pumps — horizontal, double case, segmental pumps with double case, friction bearings, face-type end seals .


PERFORMANCE CHART


capacity, m3/h


rpmmotor power,

kWvoltage,

V

CNА 150-60 150 650 3000 630 6000

CN 150-60-1 153 708 3000 630 6000

CNА 150-110-2 150 980 3000 800 6000

REACTOR SHUTDOWN COOLING SYSTEM PUMPS, CNA TYPE



APPLICATION

CNR, CNSA type reactor shutdown cooling pumps and pumping units are designed for cooling down reactor core during accidents and scheduled shut-down of reactor:

— CNR 800-230-1 — for pumping boric acid solutionto the primary cooling circuit so as to remove excess heat from the core;

— CNSA 750-140а-1 — for cooling down the reac-tor system after reactor shutdown in all operating modes of the nuclear power unit, for circulating the boronized water in the swimming pool so as to remove residual heat from nuclear fuel in all operating modes of nuclear power unit, for pumping boric acid solution to the primary cool-ing circuit during all accidents involving leaks

so as to replenish the lost coolant and remove excess heat from the core, for supplying solu-tions of chemicals so as to bind radioactive iodine during accidents involving leaks;

— 1D630-90К — for circulating coolant in cooling circuits .

DESIGN

CNR, D type pumps — horizontal, single stage, with double entry impeller, mechanical seals, support /end-thrust type bearings and electric motor drive .

CNSA type pumps — centrifugal, horizontal, double case, multistage with screw-type first stage, mecha-nical seals, electric motor drive .

PERFORMANCE CHART


capacity, m3/h


rpmmotor power,

kWvoltage,

V

CNR 800-230-1 800 230 3000 800 6000

CNSA 750-140а-1 816 156 1500 630 6000

1D630-90К 630 90 1500 250/315 380/6000/10000

8NDv-H 500 38 1000 110 380

REACTOR SHUTDOWN COOLING SYSTEM PUMPS, TSNR, TSNSA, D TYPE



CNR

CNSA D

REACTOR SHUTDOWN COOLING SYSTEM PUMPS, CNR, CNSA, D TYPE


PERFORMANCE CHART

* pump (unit)designation

capacity, m3/h


rpmmotor power,

kWvoltage,

V

D320-50 (6NDv) 320 50 1500 75 380

1D800-56 800 56 1500 200 380 / 660 / 6000

APPLICATION

Type D centrifugal double entry pumps and pump-ing units are designed for transfer of water and other liquids having similar viscosity (up to 36 x10-6 m2/s) and chemical reactivity, with temperatures from 274 - 358К (1 - 85 °С), containing not more than 0 .05% by weight of solid particles, with no particles larger than 0 .2 mm and no particles with microhardness more than 6 .5 GPa (650 kgf/mm2) .

— D320-50 (6NDv) — for lubricating the bearings ofК-220-44 turbine at VVER-440 nuclear power plants

— 1D800-56 — for lubricating the bearings of К-500-65 /3000-2 turbine at RBMK-1000 nuclear power plants

DESIGN

D, 1D type pumps — centrifugal, horizontal, single stage, with double entry semi-volute inlet and volute outlet .

nuclear power plant lubrication system pumps

* On customer request we may select and/or fabricate pumps having different performance characteristics

TURBINE BEARING LUBRICATION SYSTEM PUMPS, D, 1D TYPE



APPLICATION

Type А1 ЗV three-screw pumps are designed for transfer of non-aggressive liquids with lubricating properties, not containing abrasive particulates, with up to 1500 cSt viscosity and up to 100 °С tempe-rature (we can customize the pump to temperatures up to 150°С) . The lower viscosity limit is determined by lubricating properties of the liquid and the upper — by the power of electric drive and intake capacity of the pump .

— А1 ЗV 8/25-11/1 ОB, АS-З 8/25-11/10А — for lu-bricating Primary Circulation Pump bearings at RBMK-1000 nuclear power plants

— А1 ЗV 125/16-90/4B — for lubricating Primary Circulation Pump bearings at VVER-1000 nuclear power plants

— А1 ЗV 63/25-45/6,ЗB — for lubricating Primary Circulation Pump bearings at VVER-440 nuclear power plants

PERFORMANCE CHART


capacity, m3/h


rpmmotor power,

kWvoltage,

V

А1 3V 8/25-11/10b 12,5 100 3000 7,5 220/380

АС-3V 8/25-11/10a 12,5 100 3000 7,5 220/380

А1 3V 125/16-90/4b 80 40 1500 22 380

А1 3V 63/25-45/6,3b 45 63 1500 22 380

PRIMARY CIRCULATION PUMP BEARING LUBRICATION SYSTEM PUMPS, А1 ЗV TYPE



APPLICATION

АS-NMSH, АS-SH type pumps are used in the feed and condensate pump bearing lubrication systems and designed to pump liquids with lubricating properties, containing no mechanical particles and non-corrosive to pump parts . The viscosity of the pumped liquids is from 0,018x10-4 -22,00x10-4 m2/s,temperature — up to +70 °С ( we can customize the pump to temperatures up to 150 °С) .

DESIGN

АS-NMSH and АS-SH are designed as positive-dis-placement type pumps . The pumping is performed by gears . When gears rotate, a vacuum is created on the suction side and due to the pressure difference

(atmospheric and suction) the liquid flows into cavi-ties between gear teeth and then is moved to the discharge side and expelled into the discharge outlet .

PERFORMANCE CHART


capacity, m3/h


rpmmotor power,

kWvoltage,

V

АS-NMSH 2-40-1,6/16А 1,6 160 1500 2,2 220/380

АS-NMSH 5-25-4,0/4А 4 40 1500 1,5 220/380

АS-NMSH 8-25-6,3/2,5А 6,3 25 1500 1,5 220/380

АS-NMSH 8-25-6,3/25А 6,3 250 1500 7,5 220/380

АS-SH 40-4-19,5/4А 19,5 40 1000 5,5 220/380

АS-SH 80-2,5-37,5/2,5А 37,5 25 1000 15 220/380

CONDENSATE AND BOILER FEED PUMP BEARING LUBRICATION SYSTEM PUMPS, АS-NMSH, AS-SH TYPE


APPLICATION

SE type main- line pumps and pumping units are designed for pumping water in heat supply networks .

DESIGN

Centrifugal, horizontal, volute, two stage, with double entry impellers and electric motor drive .

Rotor is supported by friction bearings or rolling contact bearings with ring lubrication .

Seals — mechanical or packing .

PERFORMANCE CHART


capacity, m3/h


rpmmotor power,

kWvoltage,

V

SE 1250-140-11 1250 140 1500 630 6000

HEAT TRANSFER PUMPS, SE TYPE

nuclear power plant support system pumps



APPLICATION

CNA type service system pumps and pumping units are designed for pumping various liquids in the pro-cess systems of the I and II circuits of nuclear power plants:

— CNA 1400-12 — for raising the pressure of cooling water before it enters generator gas coolers;

— CNA 1700-35 — for pumping desalinated water in the intermediate circuit;

— CNA 4000-95/8 — part of Essential Service and Component (in all operating modes of the nuclear unit, including emergency mode) Cooling System equipment .

DESIGN

Centrifugal, horizontal, single stage, with double entry impeller, friction bearings, mechanical seals .

PERFORMANCE CHART


capacity, m3/h


rpmmotor power,

kWvoltage,

V

CNA 1400-12 1 400 12 750 75 380

CNA 1700-35 1 700 35 1500 250 6000

CNA 4000-95/8 3 600 55 750 630 6000

ACNA 1700-35 pump at Tienvan nuclear power station

SERVICE SYSTEM PUMPS, CNA TYPE



APPLICATION

Centrifugal, horizontal, one-, two- and three-stage, rolling contact bearings, face type end seals .

PERFORMANCE CHART


capacity, m3/h


rpmmotor power,

kWvoltage,

V

CNA 6,3/50 6,3 50 2900 5,5 380

CNA 12,5/50 12,5 50 2900 7,5 380

CNA 12,5/75 12,5 75 2900 11 380

CNA 25/52 25 52 2900 11 380

CNA 25/70 25 70 2900 15 380

CNA 50/20 50 20 2900 5,5 380

CNA 65/90 65 90 2900 37 380

CNA 72/54 72 54 2900 30 380

CNA 100/50 100 50 2900 22 380

CNA 110/75 110 75 2900 55 380

CNA 400/30 400 30 2900 75 380


SERVICE SYSTEM PUMPS, CNA TYPE


APPLICATION

D type pumps and pumping units are designed for pumping water in water supply systems .

— АD 3200-75-3 — for supplying circulation water to ejectors and maintaining required flow rate .

— АD 960-35, АD 1800-31,5 — for pumping Inter-mediate Circuit cooling water through heat exchangers .

— 1D250-125а, 1D630-90 — for circulating industrialwater in cooling circuit systems, also for use in hot and cold water supply systems, fire fighting systems, etc .

DESIGN

Centrifugal, horizontal, double entry, electric motor drive .

PERFORMANCE CHART


capacity, m3/h


rpmmotor power,

kWvoltage,

V

АD 3200-75-3 2500 42 750 400 6000

АD 960-35 960 37 1465 132 380

АD 1800-31,5 2 000 33 1485 250 6000

1D 250-125а 240 101 2900 110 220 / 380 / 660

1D 630-90 630 90 1450 230 220 / 380 / 660



HORIZONTAL SPLIT CASE DOUBLE ENTRY PUMPS, D TYPE


APPLICATION

CNSg type pumps and pumping units are designed for pumping feed water to low-power steam boilers and also for use in hot water supply systems and heating systems .

DESIGN

CNSg type pumps — centrifugal, multistage, segmental, horizontal, with single-entry compensated impellers .

A superposed screw (version 1CNSg-1) improves pump cavitation performance . In the multistage pumps the flow is moved sequentially by several impellers mounted on the same shaft . Multistage design allows increasing or decreasing the head without changing the discharge .

PERFORMANCE CHART


capacity, m3/h


rpmmotor power,

kWvoltage,

V

CNS 38-220 38 233 2940 55 380

1CNSg 60-132-1 60 132 2950 45 380



CENTRIFUGAL MULTISTAGE SEGMENTAL PUMPS, CNSg, 1CNSg TYPE



APPLICATION

VК, VКS type pumps and pumping units are designed for radioactive fluid and other applications in reactor compartment support systems, for use in chemical water treatment systems, heating and ventilation sys-tems, at sewage disposal plants, in water supply and sewage systems .

DESIGN

VК, VKS type pumps — vortex, single stage, horizontal, cantilever, self-priming . The case and cover are designed so that they form a working chamber for the flowing liquid . This chamber is in the form of a ring connected with upstream and downstream ends of the pump .

The liquid is moved and accelerated through this ring-shaped channel by an impeller (disk with radial blades) .

The pump is actuated by an electric motor via a coupling .

PERFORMANCE CHART


capacity, m3/h


rpmmotor power,

kWvoltage,

V

VК 1/16B 3,6 16 1450 1,5 220 / 380 / 660

VKS 1/16B, VKS 1/16К 3,6 16 1450 1,5 220 / 380 / 660

АS-VKS 1/16 3,6 16 1450 1,5 220 / 380 / 660

VК 2/26b 7,2 26 1450 5,5 220 / 380 / 660

VKS 2/26b 7,2 26 1450 5,5 220 / 380 / 660

АS-VKS 2/26 7,2 26 1450 5,5 220 / 380 / 660

VORTEX PUMPS, VK, VKS TYPE



APPLICATION

К, 1К type pumps and pumping units are designed for circulating industrial water in cooling systems, also for use in hot and cold water supply systems, fire fighting systems, etc .

DESIGN

К, 1К type pumps — centrifugal, horizontal, cantilever, with packing or mechanical (single or double) seal .

PERFORMANCE CHART


capacity, m3/h


rpmmotor power,

kWvoltage,

V

К 20/30 20 30 2900 4,0 220 / 380

1К80-50-200а 45 50 2900 15 220 / 380

1К100-65-250 100 80 2900 45 220 / 380

1К100-65-250b 80 60 2900 30 220 / 380


CENTRIFUGAL CANTILEVER PUMPS, К, 1К TYPE



APPLICATION

SМ type pumps and pumping units are designed for transferring liquids in chemical water treatment sys-tems, heating and ventilation systems, at sewage dis-posal plants, in water supply and sewage systems, etc .

DESIGN

SМ type pumps — centrifugal, horizontal, cantilever, with gland packing .

PERFORMANCE CHART


capacity, m3/h


rpmmotor power,

kWvoltage,

V

SM 80-50-200-4 25 12,5 1450 4,0 220 / 380 / 660

SM 80-50-200b-4 20 7,5 1450 3,0 220 / 380 / 660

SM 100-65-200-4 50 12,5 1450 5,5 220 / 380 / 660

SM 100-65-250-4 50 20 1450 7,5 220 / 380 / 660


CENTRIFUGAL PUMPS, SM TYPE



APPLICATION

VVN 1-0,75 type pumps and pumping units are designed for pumping air, chemically inert gasses, steam and gas mixtures and for creating vacuum in pumps and other hermetically sealed equipment .

DESIGN

VVN 1-0,75 type pump — vacuum, water-circuit, with gland packing .

PERFORMANCE CHART

*pump (unit) designation

nominal capacity at 0,04 MPa,

m 3/s (m 3/min) suction pressure

max. reduction in nominal capacity

at 0,02 MPa suction pressure, %

rotation speed,

rpm

motor power,kW

voltage,V

VVN 1-0,75 20 30 2900 2,2 220 / 380


VACUUM WATER-CIRCUIT PUMPS, VVN TYPE



application of pumps at nuclear power station diagram

29

1

4

16

30

15

14 13

12

21

20

19

31 32 32

28

2722

26

23

24

25

18

17

5

11

6

9

10

7

8

APPLICATION OF PUMPS AT NUCLEAR POWER STATION DIAGRAMM


1 - water-cooled reactor

2 - primary circulation pump

3 - circulation pipeline

4 - steam generator

5 - turbine high pressure cylinder

6 - separator-reheater

7 - turbine low pressure cylinder

8 - industrial water pump

9 - turbine condenser

10 - condensate pump

11 - condensate treatment

12 - low pressure heater

13 - drain pump, low pressure heater (PND),

second and third stage

14 - drain pump, GShD, fourth and fifth high

pressure stage

15 - deaerator

16 - electric feed pump

17 - emergency electric feed pump

18 - high pressure heaters

19 - make-up water pump

20 - primary circuit make-up water deaerator

21 - deaerator water filter

22 - heat exchangers of primary circuit filters

23 - emergency core cooling pump (low pressure)

24 - emergency boron injection pump (high pressure)

25 - spray pump

26 - emergency boric acid solution tank

27 - emergency core cooling heat exchanger

28 - primary circuit water containment pit

29 - emergency boric acid solution container

30 - volume equalizer

31 - main shutoff valve

32 - main circulation loop of the reactor

- pumps supplied by HMS GROUP

PUMPS*, SUPPLIED BY HMS GROUP FROM 2001-2008

— Tienvan nuclear power station (China) - 46 — Kaiga nuclear power station (India) - 4

— Kudankulam nuclear power station (India) - 56 — Beloyarskaya nuclear power station (Russia) - 38

— Bushehr nuclear power station (Iran) - 16 — Rostovskaya nuclear power station (Russia) - 19

CONVENTIONAL SIGNS

application of pumps at nuclear power station diagram

* Number of pumps per power unit

1 2

г. Москва, ул. 3�я Прядильная, 6�А Московская обл., пос. Томилино, ул. Гоголя, д. 19, склад №2

Схема проезда на склад ЗАО «ГИДРОМАШСЕРВИС»Схема проезда в офис ЗАО «ГИДРОМАШСЕРВИС»

1 2

3 Pryadilnaya St., 6�A, Moscow Gogol St., 19, Tomilino town, Moscow regionJSC HYDROMASHSERVICE's warehouse location mapJSC HYDROMASHSERVICE's head office location map

TOMILINOShcholkovskoe highway MKAD

MKAD

MOSCOW

railw

ay

Egoryevsk

3 Pryadilnaya str

Nik

itin

skay

a

1 s

t. P

arko

vaya

Pervomayskaya str

Lytkarino

Ryazan

Rya

zan

sko

e h

igh

wa

y

Volgogradsky avenue

Lyubercy

METRO 1 2

3 Pryadilnaya St., 6�A, Moscow Gogol St., 19, Tomilino town, Moscow regionJSC HYDROMASHSERVICE's warehouse location mapJSC HYDROMASHSERVICE's head office location map

TOMILINOShcholkovskoe highway MKAD

MKAD

MOSCOW

railw

ay

Egoryevsk

3 Pryadilnaya str

Nik

itin

skay

a

1 s

t. P

arko

vaya

Pervomayskaya str

Lytkarino

Ryazan

Rya

zan

sko

e h

igh

wa

y

Volgogradsky avenue

Lyubercy

METRO

MOSCOW

JSC HYDROMASHSERVICE's office and warehouse location map

Designer organization, address: __________________________________________________________________________Buyer: _________________________________________________________________________________________________Name of nuclear power station, description of the service system: __________________________________________________________________________________________________________________________________________________Equipment installation place: ____________________________________________________________________________Quantity, equipment delivery date: _______________________________________________________________________Designation of the analogous unit: _______________________________________________________________________

№ PARAMETER (SPECIFICATION) UNITS CUSTOMER REQUIREMENTS

1 PERFORMANCE

1 .1 capacity m3/hr

1 .2 head m

1 .3 power consumption kW

1 .4 Net positive suction head m

1 .5 intake pressure kgf/cm2

1 .6 operating mode (continuous, periodic) * —

2 PUMPED MEDIUM

2 .1 volumetric percentage of solid particles %

2 .2 solid particle size мм

2 .3 operating and design temperature, tp о С

2 .4 density at tp kg/m3

2 .5 viscosity (kinematic) at tp cSt (m2/s)

2 .6 pH value pH

2 .7 radioactivity Ku/l

2 .8 chloride ion concentration ml g/l

PUMPING EQUIPMENT ORDER QUESTIONNAIRE

to draw up a purchase order, please fill and send us the following questionnaire

105037, 3 Pryadilnaya St ., 6A, Moscow, Russia Ph .: +7 (495) 730 0212 Fax: +7 (495) 730 0236 e-mail: hydro@hms .ru www .hms .ru

* Normal Operating Conditions and during deviations from Normal Operating Conditions

3 SHAFT SEAL

3 .1 type (single or double, packing or mechanical)

3 .2 sealing liquid

4 UNIT INSTALLATION CONDITIONS

4 .1type of atmosphere during operation, storage and transportation as specified in GOST 15150

4 .2climatic modification and installation category as specified in GOST 15150

4 .3 safety class as specified in OPB 88/97 *

4 .4 equipment group as specified in PNAE G -7-008-89 **

4 .5 aseismic class as specified in NP-031-01

4 .6 quality class

5 ACTUATOR (ELECTRIC MOTOR) SPECIFICATIONS

5 .1 type —

5 .2 rotation speed rpm

5 .3 power rating kW

5 .4 power line frequency Hz

5 .5 supply voltage V

6 APPENDIX: installation diagram, other requirements

Filled by: Position:

Address:

Phone: Fax:

* General Safety Rules at Nuclear Power Plants . ** Nuclear Power Industry Norms and Rules

PUMPS FOR NUCLEAR

POWER INDUSTRY

6A, Pryadilnaya st.Moscow, 105037, Russia

Phone: + 7 (495) 730 02 12Fax: + 7 (495) 730 02 36

e-mail: [email protected]

Pumps for nuclear power industry

Technology

lubrication pumps

russiamanufacturing

ukrainemanufacturing

application of pumps

vortex pumps

d type

centrifugal cantilever

cnsg type