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INIS-mf—11498
THERMODYNAMIC ANALYSIS OF COOLING
SYSTEMS FOR NUCLEAR POWER STATIONS
CONDENSER
Thesis for the degree of Master of Science
in Nuclear Engineering
by
A. Beck
Ben Gurion University of the Negev, Faculty of Engineering
Sciences Nuclear Engineering Department
June 1965
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THERMODYNAMIC ANALYSIS OF COOLING
SYSTEMS FOR NUCLEAR POWER STATIONS
CONDENSER
Thesis for the degree of
Master of Science in
Nuclear Engineering
by
A. Beck
Ben-Gurion University of the Megev
Faculty of Engineering Sciences
Nuclear Engineering DeDartment
June 1985
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::•! -H:: WORK AN ATTENPT ^AZ DONE TO CONCENTRATE ON THE
THC.-̂ 'OS'.'NAMIC THEORY, THE ENGINEERING SOLUTION AHD THE WATEF,
OUANTI-IE:; NEEDED FOR OPERATION OF A WET, AS WELL AS WET. DRY
COOLING TOWERS COUFLED TO A NUCLEAR TURBINE CONDENSER.
IN r;sc DESIGN OF A CONDENSER - COCLING TOWER SYSTEM, WE
^CE2 A30t.iT TWO HUNDFED VAPIABLi-. TC HAKE THE SOLUTION FAST
-,:;2 ijAr;"',- .A COMPUTE." OCDEL WA.; DEVELOPED, THE COMPUTER
rn0G.~AM IS ABL£ TO GI--E THERMOOYNAMIC ENGINEERING SOLUTION
: '-. " ' .POI'^C rGi'i£E!t£E.~ - wOOLIi iu FOwER S'iSTEMt
-vr AMOUNT OF WATER EVAPORATION "ROW THE COOLING TOWERS I
FUNCTION OF 'HE CLIMAX CONDITION ARRC'JNC THE SITE. FOR THE
CALCULATIONS WE USES METEOROLOGICAL DATA OF THE NORTH NEGEV
iREA ^Mr "ECIVED AUTHENTIC ANALYSIS. THE FIRST ESTIMATION
-JAS DONE WITH THE EXTREME WEATHER CONDITION TO GET THE
AMOUNT OF WATER THAT WILL EVAPORATE FROM THE COOLING TOWER.
FOR A WET COOLING TOWER (FRESH WATER) THE AMOUNT OF WATER
THAT WILL uVAFORATE APPEARS TO 3E 12.5 MILLION CUBIC METER
PZF YEAR • FOR COOLING A NUCLEAR STATION, PWR TYPE, ?50 MWE
OUTPU
THE AMOUNT OF WATER THAT 10 NECESSARY TC ADD TO THE
SYSTEM DURING A YEAR 13 BIGGER AND IS A FUNCTION OF THE
BLOW- DOWN RATE FROM THE TOWER AND THE EVAPORATION. BECAUSE
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OF THE HIGH IMPORTANCE NOT TO WASTE FRESH WATER IT'S
RECOMMENDED TO DESIGN THE SYSTEM SO THAT THE SALT HARDNESS
CONCENTRATION OF THE BLOW-DOWN WATER WILL BE IN THE
APPROPRIATE LEVEL. IN SUCH DESIGN IT WILL BE POSSIBLE TO
RETURN THESE WATER FOR AGRICULTURE USES. THIS DESIGN MEANS
THAT THE YEARLY ADDITIONAL AMOUNT OF FRESH WATER WILL BE
ONLY FOR COMPENSATION OF EVAPORATION FROM THE COOLING TOWER.
ANOTHER OPTION OF USING THE BLOW-DOWN WATER IS TO OPERATE
"SALT CONCENTRATORS" NEAR THE STATION. THESE SYSTEMS CAN
PRODUCE "ZERO DISCHARGE'' FFOM THE STATION. MOST OF THE BLOW
DOWN WATER WILL BE TREATED ON SITE AND BECOME FRESH-WATER
FGR REUSE IN THE COOLING TOWER. THE WASTE CONCENTRATED BRINE
WILL BE COLLECTED IN A SMALL POND AND THE SOLID SALT WILL
SETTLE ON THE POND 30T-QM. WITH SUCH SYSTEMS (THAT ARE
EXPENSIVE IN OPERATION) THE STATION WILL NEED ALMOST QNL\'
MAKE - UP WATER FOR COMPENSATION OF EVAPORATION FROM THE
COOLING TOWER.
THE TECHNOLOGY OF WET COOLING TOWER USING SEA WATER IS
KNOWN, AND THERE ARE NO TECHNICAL OR ENGINEERING LIMITATION
FOR USING IT. THE MAIN PROBLEMS USING SEA WATER FOR COOLING
AT AN INLAND SITE ARE: CARRING THE WATER FROM SEA TO THE
SITE AND THE DRIFT FROM THE COOLING TOWERS. BOTH CAN BE
SOLVED WELL TECHNICALLY. THE COST OF COOLING TOWERS USING
SEA- WATER IS ABOUT 10% MORE THEN COOLING TOWERS USING FRESH
WATER (WITHOUT THE COST OF CARRING THE WATER). SO, THE
PROFITABILITY OF USING SEA WATER FOR COOLING A NUCLEAR
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POWER STATION IN AN INLAND SITE IS IN THE NATIONAL
PRIORITIES AND NOT IN THE ENGINEERING FIELD.
THE TECHNOLOGY OF DRV AND DRY/WET COOLING TOWERS IS KNOWN
FOR SMALL FOSSIL UNITS. FIRST ESTIMATIONS SHOW THAT THE USE
OF COMBINED SYSTEM, WET/DRY COOLING TOWER, IS POSSIBLE IN
THE NORTH NEGEV AREA. SUCH SYSTEMS WILL REDUCE SIGNIFICANTLY
THE AMOUNT OF WASTED FRESH WATER FOR COOLING NUCLEAR POWER
PLANT. LACK OF INTERNATIONAL EXPERIENCE IS THE MAJOR
PROBLEM IN THE ACCEPTABILITY OF WET/DRY COOLING TOWERS.
3ECAU3E COOLING TOWERS ARE ONE OF THE MAJOR SYSTEMS THAT
I.')FLUE;JCZ3 3,-J THE ECONOMIC OPERATION OF THE iMuCLiEAf; POWER
PLANT DURING THE LIFE TIME OF THE STATION, IT IS IMPORTANT
TO CHOOSE CAREFULLY THE BEST ANE MOST SUITABLE COOLING
SYSTEM. THIS WORK ATTEMPT TO GIVE GOME HANDY TOOLS FOR
MAKING THIS CHOICE EASY.
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-13
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