Progress ofThe Joint Crediting

Mechanism (JCM)In Indonesia

November 2015

Coordinating Ministry for Economic AffairsRepublic of Indonesia

in cooperation with:

www.jcmindonesia.cominfo@jcmindonesia.com

Indonesia JCM SecretariatBUMN Building 18th Floor

Jl. Medan Merdeka Selatan 13, Jakarta - 10110 Indonesia

For Further Information

Source :

• MOEJ-GECJCMbooklet“TheJointCreditingMechanism(JCM):ProgressofFinancingProgrammeandFeasibilityStudiesforJCMProjectsbyMOEJ”June2015edition

• TheJCMProjectinformationprovidedbytheparticipantcompanies• JCMIndonesiaWebsite:www.jcmindonesia.com

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Table of Contents

What is the JCM?

A.HistoryoftheJCMinIndonesia..................................... 3

B.BasicConceptoftheJCMCooperationbetweenJapan andIndonesia................................................................. 4

C.MRVMethodology.......................................................... 5

D.ProjectCycleoftheJCM................................................. 5

JCMPromotion Scheme

A.FinancingProgrammefor JCMModelProjectsbyMOEJ......................................... 7

B.PromotionSchemefor JCMDemonstrationProjectsbyMETI/NEDO................ 7

C.NewSupportProgramEnabling“Leapfrog” Development(Fund/ADB)byMOEJ............................... 8

D.JCMREDD+ModelProjectsbyMOEJ............................. 9

E.JCMFeasibilityStudy(FS)byMOEJandMETI/NEDO..... 9

SectoralScope..................................................................... 11

A.JCMModelProject........................................................ 12

B.JCMREDD+ModelProject............................................. 19

C.JCMDemonstrationProject............................................ 20

D.JCMRegisteredProject................................................... 22

MOEJ : MinistryofEnvironmentofJapanMETI : MinistryofEconomy,TradeandIndustryofJapanNEDO : NewEnergyandIndustrialTechnologyDevelopmentOrganizationADB : AsianDevelopmentBank

Ongoing JCM Projects

in 2015

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3

The Joint Crediting Mechanism(JCM) encourages cooperation between Japanese and Indonesian institutions to promote implementation of Low Carbon Development activities in Indonesia.

What is the JCM?

• 2010:InitialdiscussionsbetweenNationalCouncilonClimateChangeofIndonesiaasJCMfocalpointandJapaneseGov-ernmentDelegation

• 2011:FormalmeetingontheJCMbetweenNationalCouncilonClimateChangeofIndonesiaandrelatedministriesandJapaneseGovernmentDelegation

• 2012:EstablishmentofCoordinationTeamforInter-StateCarbonTradeNegotiation(TimKoordinasiPerundinganPerda-ganganKarbonAntarnegara(TKPPKA))

• 2013:SigningonJCMCooperationbetweentheGovernmentsofIndonesiaandJapan,andEstablishmentofJCMJointCom-mitteeconsistingofmembersfromIndonesiaandJapan

• 2014:EstablishmentofIndonesiaJCMSecretariat

A History of the JCM in Indonesia

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• Facilitatingdiffusionofleadinglowcarbontechnologies,products,systems,services,andinfrastructureaswellasimplementationofmitigationactions,andcontributingtosustainabledevelopmentofdevelopingcountries;

• AppropriatelyevaluatingcontributionsfromJapantoGHGemissionreductionsorremovalsinaquantitativemanner,byapplyingmeasurement,reporting,andverification(MRV)method-ologies,andusingthemtoachieveJapan’semissionreductiontarget;

• ContributingtotheultimateobjectiveoftheUNFCCCbyfacilitatingglobalactionsforGHGemissionreductionsorremovals,complementingtheCleanDevelopmentMechanism(CDM).

Figure 1. The JCM scheme between Japan and Indonesia

Figure 2. The JCM Cooperation Scheme

B Basic Concept of the JCM Cooperation between Japan and Indonesia

Leading low carbon technologies, etc, and implementation of mitigation actions

MRV Methodologies will be developed by the Joint Committee

Carbon Credits

Indonesia

• GHG emissionreductions/ removal

• Used to achieve Indonesia's emission

reduction target

JCM Projects

MRV

Japan

Used to achieveJapan’s emissionreduction target

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Thereferenceemissionsarecalculatedtobebeloworatleastonthesamelevelbusiness-as-usual(BaU)emissions,byconservativelyestimating/iden-tifyingplausibleemissionorbyothermethodsdeterminedinthemethodologiestobeapprovedbytheJointCommittee.

ThenetemissionreductionsfromJCMprojectsareaccountedasIndonesiandomesticemissionreductions.

C MRV MethodologyFigure 3. Basic Concept for Crediting under the JCM

ApprovedJCMMRVmethodologies(asofNovember2015):1. PowerGenerationbyWasteHeatRecoveryinCementIndustry2. EnergySavingbyintroductionofHighEfficiencyCentrifugalChiller3. InstallationofEnergy-efficientRefrigeratorsUsingNaturalRefrigerantatFoodIndustryCold

StorageandFrozenFoodProcessingPlant4. InstallationofInverter-TypeAir-ConditioningSystemforCoolingforGroceryStore5. InstallationofLEDLightingforGroceryStore6. GHGemissionreductionsthroughoptimizationofrefineryplantoperationinIndonesia7. GHGemissionreductionsthroughoptimizationofboileroperationinIndonesia8. Fridge-freezershowcasebyusingnaturalrefrigerantforgrocerystore9. Replacementofconventionalburnerswithregenerativeburnersforaluminumholding

furnaces10.Introducingdouble-bundlemodularelectricheatpumpstoanewbuilding

Methodologyupdateandpubliccommentsareavailableonwww.jcmindonesia.com

Theimagedescribesthestepstofollowforprojectparticipants,third-partyentities(TPEs),theJointCommittee,thesecretariat,bothGovernmentsides,andotherstakeholders,forapprovalofamethodology,registrationofJCMproject,issuanceofcreditsandrelatedactions.

D Project Cycle of the JCM

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Scopeofthefinancing:facilities,equipment,vehicle,etc.whichreduceCO2fromfossilfuelcombustionaswellasconstructioncostforinstallingthosefacilities,etc.

JCMPromotion Scheme

Figure 4. Financing Programme for JCM Model Projects

A Financing Programme for JCM Model Projects by MOEJ

B Promotion Scheme for JCM Demonstration Projects by METI/NEDO

• JCMDemonstrationProjectsarefundedbyMETIJapanandimple-mentedbyNEDO(NewEnergyandIndustrialTechnologyDevelopmentOrganization),whichsupportstheprojectcostsnecessarytoverifytheamountofGHGemissionreductioninlinewithJCMrulesandguide-lines.

• Coverageofprojectcost:CostoftheJCMDemonstrationProjectsnec-essaryforMRV:e.g.Costofdesign,machines,materials,labor,travel,etc.

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JICA, other

Supported Projectby JICA, etc.

JCM Project

ADB Projects

Superior Advanced LowCarbon Technologies

• Waste to Energy Plant• Renewable Energies• Water Supply and

Sewage System• Transportation

GHG Emission Reduction

Financial assistance/financial investmentsfor overseas investment and lending

Collaboration

Finance

FinanceADB Trust Fund

Contribution

MOEJ

Collaborative Financing Programme ADB Trust Fund (JF JCM)

Scheme

TofinancetheprojectswhichhavethebetterefficiencyofreducingGHGemissionincol-laborationwithotherprojectssupportedbyJICAandothergovernmental-affiliatedfinancialinstitute.

Toprovidethefinancialincentivesfortheadoptionoftheadvancedlow-carbontechnologieswhicharesuperiorinGHGemissionreductionbutexpensiveinADB-financedprojects

Purpose

Toexpandsuperiorandadvancedlow-carbontechnologiesforbuildingthelowcarbonsocietyasthewholecitywiseandareawiseinthewiderfields,andtoacquirecreditsbytheJCM.

TodevelopADBprojectsasthe“Leapfrog”developmentsbytheadvancedtechnologiesandtoshowtheeffectivenessoftheJCMschemebytheacquisitionofcreditsoftheJCM.

C New Support Program Enabling “Leapfrog” Development (Fund/ADB) by MOEJ

Figure 5. New Support

Program Enabling

“Leapfrog” Development (Fund/ADB)

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Governmentof Japan

Internationalconsortiums

(which include Japanese entities)

Finance partof the cost

Deliver JCMcredits issued*

D JCM REDD+ Model Projects by MOEJ

Background

• Degradationofforestsindevelopingcountries• 17demonstrationfeasibilitystudiesfrom2011to2014Expected outcome

• Participatorymonitoringofillegallogging,disasterpreventionandforestrestoration.• ProvisionofalternativelivelihoodProject Outline

• ExpectedtodeliveratleasthalfofJCMcreditsexceptpartnercountry’sallocationwhichisbasedonthelaw

• TheseprojectsmaybecarriedoutwiththecooperationofotherorganizationsuchasJICA

E JCM Feasibility Study (FS) by MOEJ and METI/NEDO

ThestudytopromotepotentialJCMprojects,surveytheirfeasibility,checkthepracticalityoftheMRVmethodology,andelaboratinginvestmentplan.

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Ongoing JCM Projects in 2015

Location of ongoing JCM Projects

Model/DemonstrationProjectsarepromotedtofollowthestepsdescribedintheJCMprojectcycle(seepage5).OfficialMRV(measurement,reporting,andverification)ofemissionsreductionstartsafteraprojectisregistered.

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SectoralScope

JCM Model Project

JCM Demonstration Project

JCM Registered Project

JCM REDD+ Model Project

12

Totalelectricityconsumptionoffoodretailconveniencestoresisdecreasedbytheinstallationofthelatesthigh-efficiencyfacilitiesandhigh-efficiencychillerswithnaturalrefrigerant(CO2refrigerant),inverter-controlledair-conditioners,andLEDlighting.Asaresult,CO2emissionsduetoelectricityconsumptionarereduced.Thisprojectinvolves12conveniencestoreofAlfaMidilocatedinJakarta,Tangerang,andDepok.

Energy Saving at Convenience Stores

EnergyDemand28.5 tCO2

/store/year

Estimated Emission Reduction

ModelProject(JFY2013)

PT.MidiUtamaIndonesiaTbk

Lawson,INC.

Energy Saving for Air-Conditioning and Process Cooling at Textile Factory

117 tCO2/year

Estimated Emission Reduction

InIndonesia,humiditycontrolisindispensableforthetextileindus-trytomaintainproductqualityandmassiveenergyoutput,whichisrequiredfortheadjustmentoffactoryairconditioning.Thetargetfactoryreplacesold-fashionedchillers(230USRtand250USRt)withhigh-efficiencychillers(500USRt),inordertosaveenergyandmitigateCO2emissions.High-efficiencychillersadoptahigh-per-formanceeconomizercycleandasuper-coolingrefrigerantcycleinordertosaveenergy.Also,thechillersuselow-pressurerefrigerant(HFC-245fa)withzeroODP(OzoneDepletionPotential)

ModelProject(JFY2013)

EnergyDemandPT.Primatexco, PT.EbaraIndonesia

EbaraRefrigerationEquipment&Systems,NipponKoeiCo.,Ltd.

A JCM Model Project

JFY:JapaneseFiscalYear

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JCMRegisteredProject

JCM Model Project

JCMDemonstrationProject

JCMREDD+ModelProject

Power Generation by Waste-heat Recovery in Cement Industry

122,000 tCO2/year

Estimated Emission Reduction

PT.SemenIndonesiaTbk

JFEEngineeringCorporation

Theproposedprojectisplannedtointroduceawasteheatrecovery(WHR)boilersteamturbinegen-eratorsystematanexistingcementproductionplant(PT.SemenIndonesia,TubanPlant)locatedinTuban,EastJava,Indonesia.TheWHRsystemutilizeswasteheatcurrentlyemittedfromthecementfactorywithoututilization.WHRboilersgeneratesteamusingthewasteheatexhaustedfromthecementplant,andthesteamisfedtothesteamturbinegeneratortogenerateelectricity.

ModelProject(JFY2014)

EnergyIndustries (renewable/non- renewablesources

Energy Saving by Installation of Double Bundle-type Heat Pump

170 tCO2/year

Estimated Emission Reduction

PT.TTLResidences

ToyotaTsushoCorporation

Inordertoreducenaturalgasconsumption,adoublebundle-typeheatpump,generatingbothheatingandcoolingenergy,isinstalledintothethermalsupplysysteminservicedapartments.Thereductionofnaturalgasconsumptionandcoal-firedelectricityconsumptionthroughtheutilizationoftheheatpumpcontributestoGHGemissionreductions.Theheatpumpiscapableofhightemperatureheating(morethan60degreesC),anditsefficiencycombiningheatingandcoolingisexpectedtobe450–500%

ModelProject(JFY2013)

EnergyDemand

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Solar Power Hybrid System Installation to Existing Base Transceiver Stations in Off-grid Area

PT.TelekomunikasiSelular

ITOCHUCorporation

3,096 tCO2/year

Estimated Emission Reduction

Therearemanyislands,off-gridareas,inIndonesia.Thisprojectistoinstallsolarpowerandlithiumionbatteriestoexistingmobilebasestationswheresupplyofelectricityisbydieselgenerator.ThisprojectisplanningtoreduceconsumptionofdieseloilandCO2 emissionsbytheaboveHybridPowerSystemandcontroleachbasestation’sdatabyCloudserviceatTelekomunikasiSelular’sof-fice.TheprojectcontributestothespreadofnewtechnologyinIndonesiaandenableestablishmentofanewremotemanagementsystemthroughaCloudsystem.

ModelProject(JFY2014)

EnergyIndustries (renewable/non- renewablesources

Energy Saving through Introduction of Regenerative Burners to the Aluminum Holding Furnace of the

Automotive Components Manufacturer

PT.ToyotaTsushoIndonesia,PT.YamahaMotorPartsManufacturingIndonesia(YPMI),PT.MatahariWasisoTama,PT.HokurikuTechnoIndonesia

ToyotsuMachineryCorporation,HokurikuTechnoCo.,Ltd.

856 tCO2/year

Estimated Emission Reduction

ModelProject(JFY2014)

EnergyDemand

Replacingaconventionalburnerwithahigh-effi-ciencyregenerativeburnerforanaluminumholdingfurnaceimprovesenergysavingandreducesGHGemissions.YPMIhasanaluminumwheeldiecastinglinewith11crucibletypeholdingfurnaces.LocalfurnacemanufacturerPT.MataharireplacesandmodifiesthefurnacessupervisedbythebranchofJapanesefurnacemanufacturerHokurikuTechno.PT.Matahariacquiressophisticatedfurnacedesignandmanufacturingknowhowofregenerativeburnerfurnacesandtheirtuning/maintenancetechniques.

JCMRegisteredProject

JCM Model Project

JCMDemonstrationProject

JCMREDD+ModelProject

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Energy Saving for Textile Factory Facility Cooling by High Efficiency Centrifugal Chiller

PT.NikawaTextileIndustry,PT.EbaraIndonesia

EbaraRefrigerationEquipment&SystemCo.,Ltd.

118 tCO2/year

Estimated Emission Reduction

ThetextileindustryisamajorindustryinIndonesia.Toproducehighqualityproducts,air-conditioningisofkeyimportance.ForreducingGHGforthetextileindustry,ahigh-efficiencychillerisoneofthebestoptionstochoose.Theexisting500USRtchillerisreplacedbyahigh-efficiencycentrifugalchiller,whichconsistsofatwo-stagehighefficiencycompressor,economizerandsub-coolersystem.Byap-plyingapurgeunitwithActivatedCarbon,nearly100%ofHFC-245farefrigerantwith0ODPisrecoveredforexcellenceinGHGreductions.

ModelProject(JFY2014)

EnergyDemand

ExportingtextileproductsfromIndo-nesiaisthehighestamountinSouth-easternAsia.

Intheproject,at3sitesoftextilefactoryinIndonesiawewillupgradeexistingweavingloomstototal81unitsofthelatestair-savingloom“ToyotaJAT810”.

This“JAT810”hasoriginalair-savingtechnologytoreduceairconsumptionforweftinsertionmore20%thantheconventionalmodel.TheeffectisnotonlyreducingCO2emissionbysavingthepowerconsumptionofair-compressorsbutalsoreducingtherunningcost.

Reducing GHG Emission at Textile Factories by Upgrading to Air-saving Loom

EnergyDemand

PT.IndonesiaSynthetic-TextileMilles(ISTEM),PT.Eastertex, PT.CenturyTextileIndustry(CENTEX),PT.TorayIndustriesIndonesia(TIN)

TorayIndustries,Inc.

566 tCO2/year

Estimated Emission Reduction

ModelProject(JFY2014)

JCMRegisteredProject

JCM Model Project

JCMDemonstrationProject

JCMREDD+ModelProject

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Introduction of High Efficient Old Corrugated Cartons Process at Paper Factory

PTFajarSuryaWisesaTbk.

KanematsuCorporation

14,884 tCO2/year

Estimated Emission Reduction

Thisprojectaimstoachieveelectricityusagereductionpertonproduced(byabout10%)byintro-ducingaJapanesehigh-efficientsystemfortheoldcorrugatedcarton(OCC)processforPT.FajarSuryaWisesa,therebycontributingtoCO2reduction.

ThisOCCprocessisaprocesstopreparecleanrawmaterialscontainingdissolvedpaperfibersbymixingusedcorrugatedboardintowaterfordefiberizationandremovingforeignsubstances.

Sincealargeamountofmaterial(water)isusedinthisprocess,theelectricityissignificantlyconsumedtothepowermotors.

ModelProject(JFY2014)

ManufacturingIndustries

Energy Saving for Air-Conditioning at Shopping Mall with High Efficiency Centrifugal Chiller

PT.PakuwonJati,Tbk.

NTTFacilities,Inc.

996 tCO2/year

Estimated Emission Reduction

NTTFACILITIES,INCandPT.PakuwonJatiTbkhaveagreedtocollaborateinenergysavingprojectbyinstallinghighefficiencycentrifugalchilleratTunjunganPlazainSurabaya.ThisUS$2.1millionprojectisexpectedtosave1,136MWhofelectricityand996tCO2ofcarbonemis-sionannually.

ModelProject(JFY2015)

EnergyDemand

JCMRegisteredProject

JCM Model Project

JCMDemonstrationProject

JCMREDD+ModelProject

17

Energy Saving for Industrial Park with Smart LED Street Lighting System

PT.MaligiPermataIndustrialEstate,PT.HarapanAnangBakri&Sons,PTKarawangTatabinaIndustrialEstate

NTTFacilities,Inc.

900 tCO2/year

Estimated Emission Reduction

ThereplacementofexistinghighpressuresodiumlightingwiththehighlyefficientstreetlightingsystemforIndustrialParksisestimatedtoreducetheelectricityusageof1,106MWhannually.ThisUS$1.5millionworthprojectisacollaborationbetweenNTTFACILITIES,INCwithPT.MaligiPermataIndustrialEstate,PT.HarapanAnangBakri&SonsandPT.KarawangTatabinaIndustrialEstate.

ModelProject(JFY2015)

EnergyDemand

Introduction of High-efficiency Once-through Boiler System in Film Factory

PT.MCPetFilmIndonesia,

MitsubishiPlasticsInc.

428.5 tCO2/year

Estimated Emission Reduction

TheobjectiveoftheprojectistosaveenergybyinstallingoncethroughboilerinPTMCPETFilmIndonesia,Merakfactory,toreplacetheexistingwatertubeboiler.Theimplementationofthisprojectisestimatedtoincreasetheefficiencyfrom87%to96%thusreducingGHGemissionby428.5tCO2peryear.Thisprojectiscoopera-tionbetweenMitsubishiPlastic,IncandPT.MCPETFilmIndonesia.

ModelProject(JFY2015)

EnergyDemand

JCMRegisteredProject

JCM Model Project

JCMDemonstrationProject

JCMREDD+ModelProject

18

Installation of Gas Co-generation System for Automobile Manufacturing Plant

ToyotaMotorManufacturingIndonesia

ToyotaTsushoCorporation

20,439 tCO2/year

Estimated Emission Reduction

ThepurposeofthisprojectistoreduceenergyconsumptionandCO2emissionbyinstallingagasco-generationsystem.Thissystemadoptsahighefficiencygas-engineandheatrecoverysystemtogeneratesteamandhotwater.

ThisprojectcontributestothereductionofenergyconsumptionatcoalfiredpowergenerationprevailedinIndonesia,andtothereductionofGHGandairpollutantemissions.

ModelProject(JFY2015)

EnergyDemand

JCMRegisteredProject

JCM Model Project

JCMDemonstrationProject

JCMREDD+ModelProject

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B JCM REDD+ Model Project

REDD+ Project in Boalemo District

GobelgroupDKM(PT.DharmaKaryatamaMulia,BoalemoDistrict)

KanematsuCorporation

86,520 tCO2/year

Estimated Emission Reductions

TheREDD+modelprojectinBoalemoDistrictisthefirstREDD+projectunderJCMscheme.ThecollaborationprojectbetweenKanematsuCorporationandPT.DharmaKaryatamaMuliaaimstoreducetheslash-and-burndeforestationbyimprovingagriculturalproductionpracticesespeciallycacaoinBoalemoDistrict,GorontaloProvinces.

REDD+ModelProject(JFY2015)

REDD+

20

Atoilrefinery(alargeCO2emitter),effective&sustainableCO2emissionreductiontechnologieswillbeverified,thenstandardizedforJCMrollout.

IntroduceAdvancedProcessControl(APC)systemprovedatJapanandglobaloilmajors,customizetomeetlocalenvironment,thenverifyeffectiveandsustainableCO2emissionreductionbyfossilfuelreduction.

Energy Saving by Optimum Operation at Oil Refinery

EnergyDemand PT.Pertamina(RefineryUnitV)

YokogawaElectricCorporation

3,400 tCO2/year

Estimated Emission Reduction

DemonstrationProject(JFY2013)

Remote Auto-Monitoring System for Thin Film Solar Power Plant in Indonesia

PT.PLN

SHARPCorporation

1,433 tCO2/year

Estimated Emission Reduction

Indonesiahasmanyremoteislandswhichdependondieselpowerplants,subjecttoincreaseinfueloilpriceandCO2emission.Solarpowergenerationisexpectedtocontributetothereductionoffueloil.Thin-filmPVtechnologyandremoteauto-monitoringsystemforsuchremoteislandshelpsenableCO2emissionreductiononalargescale,beverifyingthisefficacyandspreadingwidelyinIndonesia.Thistechnologyproduceshighpowergenerationinhightemperature/lowlatitudeareasanditsspectralresponsecanutilizetheshort(blue)spectrummoreeffectivelyinlowlatitudearea.Itisalsoanenvironmentally-conscioustechnologyasitdoesnotusehazardoussubstancessuchascadmiumandusingonly1/100thoftheamountofsiliconeusedinCrystallinePV.Thelongtermcredibilityofthistechnologyissuitableforuseinmega-solarplants,asitgiveshighperformanceinthehotandhumidcondition,andadoptionofhighlydamp-proofmodulesealant.

DemonstrationProject(JFY2013)

EnergyIndustries (renewable/non- renewablesources

C JCM Demonstration Project

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JCMRegisteredProject

JCMModel Project

JCM Demonstration Project

JCMREDD+ModelProject

Thistechnologycanbeappliedtotheexistingutilitysystemoffactoriesofvariousindustriesandishighreturn-on-investment(ROI)technology,sinceitworksonsimplecomputersystems,withouthigh-performancehardwareorotherexpensiveequipment.IthasagreatamountCO2reductionpotentialforvariousindustriesinIndonesia,suchasrefineries,chemicalplants,districtheatingandcoolingsystems,andsoon.

UtilityFacilityOperationOptimizationTechnologyisa“RENKEI”control,whichisJapanisleading-edgetechnology.Byusingoptimizationtechnology,thesystemdeterminestheoptimumselectionandoptimumloadallocationforutilityequipmentsuchasboilers,steamturbines,andchillersusedinutilityfacilities,inordertominimizeCO2emissions.WithoutanychangeofutilityfacilityhardwarethistechnologywillrealizeagreatamountofCO2reductionfacilities,inordertominimizeCO2emis-sions.

Utility Facility Operation Optimization Technology

EnergyDemandAzbilBercaIndonesia, PT.Pertamina

AzbilCorporation

58,000 tCO2/year

Estimated Emission Reduction

DemonstrationProject(JFY2013)

22

Energy Saving for Air-Conditioning and Process Cooling by Introducing High-efficiency Centrifugal Chiller

PT.PrimatexcoIndonesia

EbaraRefrigerationEquipment&SystemsCo.Ltd. NipponKoeiCo.Ltd.

114 tCO2/year

Estimated Emission Reductions (average)

InIndonesia,humiditycontrolisindispensableforthetextileindustrytomaintainproductqualityandmassiveenergyoutput,whichisrequiredfortheadjustmentoffactoryairconditioning.Thetargetfactoryreplacesold-fashionedchillers(230USRtand250USRt)withhigh-efficiencychillers(500USRt),inordertosaveenergyandmitigateCO2emissions.High-efficiencychillersadoptahigh-performanceeconomizercycleandasuper-coolingrefrigerantcycleinordertosaveenergy.Also,thechillersuselow-pressurerefrigerant(HFC-245fa)withzeroODP(OzoneDepletionPotential)

ThisProjectisthefirstregisteredprojectunderJCMschemeintheWorld.

RegisteredProject(JFY2014)

Batang,CentralJavaProvince

EnergyDemand

Reference No.:ID001

D JCM Registered Project

JCMRegisteredProjectisaProjectwhichhasbeenapprovedbytheJointCommitteetobeacknowledgedundertheJCMschemeaftergoingthroughvalidationprocess.

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Project of Introducing High Efficiency Refrigerator to a Food Industry Cold Storage in Indonesia

PT.AdibGlobalFoodSupplies,PT.MayekawaIndonesia

MayekawaManufacturingCo.,Ltd.

120 tCO2/year

Estimated Emission Reductions (average)

ThisprojectislocatedatPT.AdibGlobalFoodSuppliesnewsitefactoryatBekasi,WestJavaProvince.

Theadvancedenergyefficientcoolingsys-temusingnaturalrefrigerant(NH3andCO2)isintroducedintothefoodindustryandlo-gisticsindustryinIndonesia,whereenergyconsumptionisveryhigh,demonstratingitshighenergysavingimpactaswellasalargeamountofGHGemissionreductions.

AscrewcompressorandanIPM(interiorpermanentmagnetsynchronous)motorareadoptedandoperatedintegrally,toachievehighlyefficientoperationofthecoolingfacility.ThistechnologyisutilizedbyPT.Adibnotonlytoreducetheemissionreductionbutalsotoimprovestheefficiencyoftherefrigeratorwhichusedascoldstorageforthefoodindustry.

RegisteredProject(JFY2014)

Kel./Kec.Bantargebang,Bekasi,WestJavaProvince

EnergyDemand

Reference No.:ID002

JCMRegisteredProject

JCMModel Project

JCMDemonstrationProject

JCMREDD+ModelProject

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Project of Introducing High Efficiency Refrigerator to a Frozen Food Processing Plant in Indonesia

PT.AdibGlobalFoodSupplies,PT.MayekawaIndonesia

MayekawaManufacturingCo.,Ltd.

21 tCO2/year

Estimated Emission Reductions (average)

ThisprojectislocatedatPT.AdibGlobalFoodSuppliesexistingfrozenfoodfactoryatKarawang,WestJavaProvince.

Theadvancedenergyefficientcoolingsystemusingnaturalrefrigerant(NH3andCO2)isintroducedintothefoodindustryandlogisticsindustryinIndonesia,whereenergyconsumptionisveryhigh,demonstratingitshighenergysavingimpactaswellasalargeamountofGHGemissionreductions.

AscrewcompressorandanIPM(interiorpermanentmagnetsynchronous)motorareadoptedandoperatedintegrally,toachievehighlyefficientoperationofthecoolingfacility.ThistechnologyisutilizedbyPT.Adibnotonlytoreducetheemissionreductionbutalsotoimprovetheefficiencyoffrozenfoodprocessing.

RegisteredProject(JFY2014)

Kec.Cilebar,Kab.Karawang,WestJavaProvince

EnergyDemand

Reference No.:ID003

JCMRegisteredProject

JCMModel Project

JCMDemonstrationProject

JCMREDD+ModelProject

25

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Progress ofThe Joint Crediting

Mechanism (JCM)In Indonesia

November 2015

Coordinating Ministry for Economic AffairsRepublic of Indonesia

in cooperation with:

www.jcmindonesia.cominfo@jcmindonesia.com

Indonesia JCM SecretariatBUMN Building 18th Floor

Jl. Medan Merdeka Selatan 13, Jakarta - 10110 Indonesia

For Further Information