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1、McKinsey& CompanyLDESLONG DURATION ENERGY STORAGE COUNCILNet-zeroheat1.ongDurationEnergyStoragetoaccelerateenergysystemdecarbonizationPublishedinNovember2022bytheLDESCouncil.Copiesofthisdocumentareavailableuponrequestorcanbedownloadedfromourwebsite:.ThisreportwasauthoredbytheLDESCouncilincollaborati
2、onwithMcKinsey&Companyasknowledgepartner.Thisworkisindependent,reflectstheviewsoftheauthors,andhasnotbeencommissionedbyanybusiness,government,orotherinstitution.Theauthorsofthereportconfirmthat:1 .Therearenorecommendationsand/oranymeasuresand/ortrajectorieswithinthereportthatcouldbeinterpretedasstan
3、dardsorasanyotherformof(suggested)coordinationbetweentheparticipantsofthestudyreferredtowithinthereportthatwouldinfringeEUcompetitionlaw;and2 Itisnottheirintentionthatanysuchformofcoordinationwillbeadopted.Whilethecontentsofthereportanditsabstractimplicationsfortheindustrygenerallycanbediscussedonce
4、theyhavebeenprepared,individualstrategiesremainproprietary,confidential,andtheresponsibilityofeachparticipant.Participantsareremindedthat,aspartoftheinvariablepracticeoftheLDESCouncilandtheEUcompetitionlawobligationstowhichmembershipactivitiesaresubject,suchstrategicandconfidentialinformationmustnot
5、besharedorcoordinated-includingaspartofthisreport.ContentsPreface4Executivesummary8Acronyms131. TheroleofLDESinnet-zeroenergy142. TESasanenablertodecarbonizingheat183. LDEStechnologiescostandcompetitiveness244. TESbusinesscases345. Anintegratedenergysystemperspective486. UnlockingtheTESopportunity54
6、Conclusion57Appendix A: Methodologyandassumptions58Appendix B: StateoftheTESindustry67Acknowledgements69PrefaceWemustcapturethenarrowwindowofopportunitytoachieveanet-zeroenergysystem.Thedecarbonizationoftheenergysectorneedstoacceleratetobecomealignedwithanet-zeropathwaythatlimitsglobalwarmingtobelow
7、1.5oC.However,achievingnet-zeroemissionsby2050requiresmassivedevelopmentofrenewables,newandreinforcedinfrastructure,andtheadoptionofnewcleantechnologies.Manychallengescompoundinthistransition,assupplychainsneedtobescaledup,end-useequipmentneedstobeadapted,andinfrastructureneedstobedeployedandreinfor
8、ced(forexample,transmissionanddistributionelectricitygridexpansionscantakeupto15yearstorealize).Immediateactionisrequiredtomeetemission-reductiontargets,limittheimpactofclimatechange,andmaximizetheopportunitiesahead.Asoutlinedinthe2021LDESNet-zeropowerreport,1long-durationenergystorage(LDES)offersal
9、ow-costflexibilitysolutiontoenableenergysystemdecarbonization.LDES, Whenever LDES is mentioned as a technology group, it is defined as a technology storing energy for ten or more hours, as per ARPA-Esdefinition. When LDES is mentioned in analysis or modeling, the actual duration length is always spe
10、cified, in line with NRELs recommendation.canbedeployedtostoreenergyforprolongedperiodsandcanbescaledupeconomicallytosustainenergyprovisionformultiplehours(tenormore),days(multidaystorage),months,andseasons.LDEScanstoreenergyinvariousforms,includingmechanical,thermal,electrochemical,orchemicalandcan
11、contributesignificantlytothecost-efficientdecarbonizationoftheenergysystem.Furthermore,ithelpsaddressmajorenergytransitionchallengessuchassolarandwindenergysupplyvariability,gridinfrastructurebottlenecks,oremissionsfromheatgeneration.ThisreportpresentsthelatestviewontheroleofLDESinhelpingachieveNet-
12、zeropowerandheatby2050, It is assumed that the power sector achieves net-zero emissions by 2040, and other sectors by 2050.focusingonthepotentialroleofthermalenergystorage(TES)inrealizingnet-zeroheat.ItbuildsonpriorLDESCouncilresearchandanalysisandpresentsupdatedcostperspectivesbasedondatafromLDESCo
13、uncilmembers.Asafollow-uptopreviousLDESCouncilpublications,thisreportfocusesontheheatsector,apivotalcomponentinachievingglobaldecarbonizationandclimatetargets.Accordingly,italsofocusesonaparticularsetofLDEStechnologies,TES,whichcanstoreheat,decarbonizeheatapplications,andintegraterenewablesinthissec
14、torandthebroaderenergysystem.Thisreportalsohighlightshowanintegratedsystemapproachisimperativetocost-efficientlydecarbonizingenergysystems. The definition of energy system used in this report includes all components related to the production, nversion, and use of electrical energy, heat, and hydroge
15、n. The electrification of the transport sector is included indirectly in the final electricity demand scenario from the McKinsey Global Energy Perspective.Electricity,heat,andhydrogenarebecomingincreasinglyinterconnected,drivenbythegrowinguptakeofrenewableenergyandaccesstotechnologiesthatintegrateth
16、em,suchasheatpumpsandLDES(Exhibit1).Thiscreatestheneedtolookattheintegratedecosystemratherthantheseparateenergysectorstojointlyinformcost-optimizedenergyinfrastructuredevelopments.Theanalysesinthisreporttakeinterdependenciesbetweenpower,heat,andhydrogenintoaccounttoassessthecost-optimizedmixofflexibilitysolutionsneededfortheheatandpowersectors.Ithigh