InNovember,2007,BjerringbroVarmeværkcoulddemonstrate

that reality surpassed the first calculations. By installing an

absorptionheatpumpinoneofBjerringbroVarmeværk’sfour

gasengines,there isnowanextraheateffectof0.9MWat

disposal-andthatiswithoutusingmorenaturalgas.

Previously,thefluegasfromtheenginewascooledfrom428°C

to63°Cindistrictheatexchangersbeforeitwasledoutdi-

rectlythroughthechimney.Inanewfluegasexchangercon-

nectedtotheheatpumpevaporator,afurthercoolingto27°C

and condensing of the flue gas vapour take place. The heat

pumpabsorberandcondenserarecooledbydistrictheating

water,whichisherebyheatedfromabout40°Cto80°C.That

isabovetheoperationtemperaturesinBjerringbro’sdistrict

heatingnetwork,andthusthereisnoneedforcoolingofheat

fromtheheatpump,whichisusingtheevaporationheatfrom

thefluegaswithoutlosses.Condensingoffluegashasbeen

consideredbefore,butthenetworkreturntemperatureisnot

lowenough.

HIGHER DEGREE OF EFFICIENCY

Before the renovation the heat efficiency was 48.4%. With

theextraoutputof0.9MW,theheatefficiencyhasincreased

to 60.1% while the electricity efficiency remains unchanged

42.1%. The total efficiency of the plant has thus increased

from90.5%to102.2%. Inotherwords,an increase ineffect

EFFICIENCY IMPROVEMENT

If somebody believes that district heating is old technology

withoutsignificantperspectives,theyshouldturntheireyesto

Bjerringbroheatingplant.Here,theyhavesucceededinutilis-

ingtheenergyfarmoreefficientlybyusingknowntechnology

inacompletelynewway.Theresult isthatexpensivenatural

gas is saved, and that at the same time CO2 emissions are

reducedby1,350tonsperyear.Andtheinvestment?Itisex-

pectedtobepaidbackwithintwoyears!

ItallstartedwithBjerringbroVarmeværkhavingto invest in

newequipment.Agasboilerwasripeforreplacement.How-

ever,withincreasingpricesofnaturalgas,therewasaninter-

estinfindingsomethingmoreefficientthan justbuyinganew

naturalgasboiler.

Onepossibilitywastocondensethefluegasfromtheengine

by means of electricity, but that was not interesting due to

the electricity taxes. If, however, the flue gas could be used

forpoweringaheatpump,thatwouldbeaninterestingpos-

sibility.

0.9 MW ExTRA

During2006itwasclearthatThermaxcouldsupplyasuitable

absorptionheatpump,anditwasdecidedtoinstallapumpon

oneoftheengines.

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totalutiliZationoF eneRgyin BjeRRingBRo

ByCharlesW.Hansen,ProductionManager,BjerringbroVarmeværkAmba,BjarneChristensen,SalesEngineer,HollensenEnergiA/Sand

NielsOttoClausen,ProjectManager,COWIA/S

New heat pump at the CPH plant in bjer-

ringbro utilizes the heat in the flue gas

and thus increases the plant’s heat effect

without increased use of natural gas.

E N E R G Y A N D E N V I R O N M E N T

from3.7MWto4.6MWhasbeenobtainedwithoutcausingad-

ditionalconsumptionofnaturalgas.However,thecondensed

vapourfromthefluegasmustbedischargedaswastewater,

implyingadischargeduty.

Aconsequenceoftheconversionofsofaroneengineisthat

thedistrictheatingflowtemperaturehasbeenreducedfrom

max.90°Cto80°C.Thismeansthatthecapacityoftheplant’s

heatstoragetankisreducedcorrespondingly-totheextent

thattheheatissuppliedfromthereconstructedplantalone.

Therefore,BjerringbroVarmeværk isnowconsideringestab-

lishmentofanotherheatstoragetankinordertomaintainthe

fullcapacity.

THE ACTION PLAN IS CONTINuOuSLY REVISED

Thefirstideasofusingaheatpumpforincreasedutilisationof

theheatinfluegasdevelopedinconnectionwithpreparation

oftheBjerringbroVarmeværk’sactionplan inOctober2005.

Theplanhassubsequentlybeenrevisedseveraltimes.

Forthetimebeing,theextraheatstoragetankisbeingcon-

sidered,asthis isthepreconditionfor itbeingprofitable in-

stallingfluegascoolingatanotheroftheCPHplant’sfour18-

cylinderlean-burnenginesfromRolls-Royce/Ullstein.

Because,evenifthemarginalpricehasdecreasedby100DKK

(approx.14Euro)forthereconstructedengine,theremustbe

capacitytostoretheheatproducedwhentheelectricityprice

ishigh.

Whetherthethirdandthefourthenginearetobeequipped

withheatpumpssomeday isdependingonBjerringbro’s fu-

ture heat requirement and on the number of working hours

expectedfortheindividualengines.

Inanycase,anactionplanisagoodtooltoestimatethefuture

investments.

Thetestoperationhasdemonstratedthattheplanthasthe

expectedoutput.Therefore,theheateffectoftheCPHplant

canbeincreasedbyfurther3x0.9MWwithoutincreasedcon-

sumptionofnaturalgas.

InNovember2007,theplanthasdefinitivelybeentakenoverby

Bjerringbroheatingplant,whichcarriedouttheprojectinco-

operationwithHollensenEnergyA/SandCOWI.Thermaxhas

suppliedtheabsorptioncoolingplant.Theinvestmentinheat

pump,buildingandinstallationamountstoabout6millionDKK

(approx.0.8millionEuro).

POSSIbILITY OF DISTRICT COOLING

AnotherpossibilityofusingabsorptioncoolingplantsatCHP

plantsisproductionofdistrictcooling,whichalsoisincludedin

BjerringbroVarmeværk’sactionplan.

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11

E N G I N E E R D E L I V E RD E S I G NL I S T E N

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total utiliZation oF eneRgy in BjeRRingBRo

Bydistrictcooling,thedistributiongridwillbesuppliedfrom

theevaporatorwithasupplytemperatureof6°Candareturn

temperatureof14°C,whilethefluegasisonlycooledto63°C.

Inthatcase, itwillbenecessarytocoolsomeofthesurplus

heatinacoolingtower.

TheCOPofsuchaplantwillbeabout3 (CoefficientOfPer-

formanceisthecoolingpowerandthesuppliedheat-orelec-

tricitypowerratio).

Forcomparison,COPforanabsorptioncoolingplantoperated

by hot water is about 0.7, whereas a traditional compressor

planthasaCOPofabout5.Inthelattercase,itmustbetaken

intoconsiderationthatthedrivingenergyiselectricity,which

involvesconversionlosses.

Seeninthatlight,thepossibilityofdistrictcoolingispromising.

Layout of the plant with the absorption heat pump causing an

increase in the total efficiency from 90.5% to 102.2%.

BEFORE NOW

Fluegastemperatureinchimney 63°C 27°C

Electricityefficiency 42.1% 42.1%

Heatefficiency 48.4% 60.1%

Totalefficiency 90.5% 102.2%

Thermaloutput 3.7MW 4.6MW

Overviewofoutputandefficiencybeforeandafterinstallation

oftheabsorptionheatpump.

Forfurtherinformationpleasecontact:

BjerringbroVarmeværkA.m.b.a.

Att.:Mr.CharlesWintherHansen

Realskolevej18

DK-8850Bjerringbro

Phone:+4586681422

cwh@bjerringbro-varme.dk

COWIA/S

Att.:Mr.NielsOttoClausen

JensChr.Skousvej9

DK-8000ÅrhusC.

Phone:+4587396712

ncl@cowi.dk

HollensenEnergyA/S

Att.:Mr.BjarneChristensen

Drejervej22

DK-7451Sunds

Phone:+4597142022

bch@hollensen.dk

Thehotexhaustgasisledthroughtheengine’sgenera-

tor,whichcontainsamixtureofwaterandlithiumbro-

mide(LiBr),approx.58%LiBr. Inthegenerator,enough

heatisaddedfromtheexhaustgastomakethesolution

boil,andthewaterisledoutassteam.Theconcentrated

LiBr solution, ca. 62%, returns to the absorber of the

engineviaacounterflowheatexchanger.

Thesteamfromthegenerator iscondensed inacon-

denserandflowsviaaheatexchanger,whichcoolsthe

80°C hot condensate with the return water from the

districtheating,backtotheevaporator.

From the evaporator, the water is pumped via trickle

tubes out over the evaporator tubes. Thus the water

evaporates,absorbingthenecessaryevaporationheat

fromtheevaporatortubes,asthepressureintheevap-

orator corresponds to the desired evaporation tem-

perature.

The evaporated water passes a tower with absorber

tubes,whichmakesthesteamcondenseagain,andthe

evaporationheatisdeliveredascondensationheat.The

condensate/wateristhenabsorbedbytheintenseLiBr

solutionfromthegenerator,whichhasflowntotheab-

sorber.ThenowdilutedLiBrsolutionofapprox.58%is

pumpedbackintothegenerator,andtheprocesscycle

isfinished.

What is used for district heating is the cold water in

theevaporatorcirclecondensingalargeamountofthe

steam intheengine’sfluegas inaheatexchangerfor

thepurpose.Atthesametime,thefluegasiscooledto

about27°C,andtheheatthusabsorbedbytheevapora-

torcircleisreleasedintheabsorptioncoolerviatheab-

sorberandanumberofinternalheatexchangers,which

a.o.alsoreusethecondensingheatfromthewater in

thecircle.

Thethermaloutputfroman18-cylinderUllsteinBergen/

Rolls Royce motor has thus increased by in total 888

kWhperoperationhour,correspondingtothethermal

efficiencyhavingincreasedby11.7%.

E N E R G Y A N D E N V I R O N M E N T

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