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1、IntemotionolRenewablej.,-.燹IRENAWaterforhydrogen2productionOIRENA2023Unlessotherwisestated,materialintispublicationmaybefreelyused,shared,pied,reproduced,printedand/orstored,providedthatappropriateacknowledgementisgivenofIRENAasthesourceandcopyrightholder.Materialinthispublicationthatisattributedtot
2、hirdpartiesmaybesubjecttoseparatetermsofuseandrestrictions,andappropriatepermissionsfromthesethirdpartiesmayneedtobesecuredbeforeanyuseofsuchmaterial.ISBN:978-92-9260-526-1citation:IRENAandBluerisk(2023),Waterforhydrogenproduction,InternationalRenewableEnergyAgency,Bluerisk,AbuDhabi,UnitedArabEmirat
3、es.ABOUTIRENATheInternationalRenewableEnergyAgency(IRENA)isanintergovernmentalorganisationthatsupportscountriesintheirtransitiontoasustainableenergyfutureandservesastheprincipalplatformforinternationalco-operation,acentreofexcellence,andarepositoryofpolicy,technology,resourceandfinancialknowledgeonr
4、enewableenergy.IRENApromotesthewidespreadadoptionandsustainableuseofallformsofrenewableenergy,includingbioenergyzgeothermal,hydropower,ocean,solarandwindenergy,inthepursuitofsustainabledevelopment,energyaccess,energysecurityandlow-carboneconomicgrowthandprosperity.www.irena.orgABOUTBLUERISKBlueriski
5、sawaterstrategyanddataanalyticsconsultancyfocusedonenhancingresilienceandreducingriskinthefaceofemergingwaterchallenges.BluerkkACKNOWLEDGEMENTSThereportwasdevelopedundertheguidanceofUteCollieracting-Director,IRENAKnowledgePolicyandFinanceCentreandauthoredbyEmanueleBianco(IRENA),TianyiLuo(Bluerisk),a
6、ndDivyamNagpal(ex-IRENA).IRENAcolleaguesAnn-KatbrinLipponer,LuisJaneiroandFranciscoBoshellprovidedvaluableinput.AnetaCornell(EcoIab),LorenzoRosa(StanfordUniversity),ChaoZhangandYinshuangXia(TongjiUniversity),providedtechnicalcontributionstothereport.MarinaMelnikovaandYuryMelnikov(Mytonastars)provide
7、dusefulcontributionsandobservations.Thereportbenefitedfromthereviewsandcommentsofexperts,includingAlistairWyness,RachaelRaid(BP)zNitinBassi(CEEW),YuZhang,ZiyanSha(ChinaHydrogenEnergyIndustryPromotionAssociation),CristianCarraretto,RobertoGonzales(EBRD),AnetaCornell,EmilioTenuta(EcoIab),MassimoSantar
8、elli(PolytechnicUniversityofTurin),AlejandroLongueira(RolandBerger)andSmeetaFokeer(UNIDO).PublicationsupportwasprovidedbyFrancisFieldandStephanieClarke(IRENA).ThereportwaseditedbyFayreMakeig,withdesignprovidedbyElkanodata.Forfurtherinformationortoprovidefeedback:publicationsirena.orgDISCLAIMERThispu
9、blicationandthematerialhereinareprovideduasisw.AllreasonableprecautionshavebeentakenbyIRENAtoverifythereliabilityofthematerialinthispublication.However,neitherIRENAnoranyofitsofficials,agents,dataorotherthird-partycontentprovidersprovidesawarrantyofanykind,eitherexpressedorimplied,andtheyacceptnores
10、ponsibilityorliabilityforanynsequenceofuseofthepublicationormaterialherein.TheinformationcontainedhereindoesnotnecessarilyrepresenttheviewsofallMembersofIRENA.ThementionofspecificcompaniesorcertainprojectsorproductsdoesnotimplythattheyareendorsedorrecommendedbyIRENAinpreferencetoothersofasimilarnatu
11、rethatarenotmentioned.ThedesignationsemployedandtepresentationofmaterialhereindonotimplytheexpressionofanyopiniononthepartofIRENAconcerningthelegalstatusofanyregion,country,territory,cityorareaorofitsauthorities,orncerningthedelimitationoffrontiersorboundaries.TableofcontentsGlossary5Executivesummar
12、y6Chapter 1Introductiontothehydrogen-waternexus14Chapter 2Areviewofwaterquantityrequirementsincommercial-scalehydrogenproduction21Chapter 3Waterfootprintandrisksofglobalhydrogenproduction32Chapter 4Deep-diveanalysesofnorthernChina,theGulfandEurope42Chapter 5ConclusionsandRecommendations54References5
13、9Appendix63FiguresFigureSlAcomparisonofaveragewaterwithdrawalandconsumptionintensitiesbyhydrogenproductiontechnologyFigureS2Currentandprojectedfreshwaterwithdrawalforglobalhydrogenproduction,bypathwayFigure2.1Schematicsofprocess-specificwaterwithdrawalandnsumptioninlitresfortypicalhydrogentechnologi
14、estogenerate1kilogrammeofhydrogenFigure2.2ShareofthewaterwithdrawalneedsofproductionandcoolingintheoverallwaterdemandofhydrogenproductionexamplesFigure2.3AcomparisonofaveragewaterwithdrawalandconsumptionintensitiesbyhydrogenproductiontechnologyFigure2.4Relationsbetweenhydrogenconversionefficiencyand
15、waterwithdrawalandconsumptionintensitiesofatypicalelectrolysisprojectFigure2.5Annualwaterwithdrawaloftypicalhydrogenproductionprojects,thermalpowerplantsandmunicipalitiesFigure3.1Currentandprojectedfutureglobalhydrogenproductionunderthe1.50CScenarioFigure3.2Currentandprojectedfreshwaterwithdrawalforglobalhydrogenproduction,bypathwayFigure 3.3Figure 3.4Freshwaterforhydrogenproductionandclingztodayto2050Globalwaterstressconditionsandgreenandbluehydrogenprojectlocationsfor2040Figure3.5Distributionofglobaloperationalandplannedgreenandbluehydro