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Energies 2016,9, 270 Acknowledgments: This study is supported by China Scholarship Council, the National Natural Science FoundationofChina(Projectnumber: 71373076), theFundamentalResearchFundsfor theCentralUniversities (2015XS31), and the Science and Technology Project of State Grid Corporation of China (Contract number: SGHB0000DKJS1400116). AuthorContributions:HuiruZhaoandNanaLiconceivedanddesignedtheresearchmethodused in thispaper; NanaLiperformedtheempiricalanalysisandwrote thepaper. Conflictsof Interest:Theauthorsdeclarenoconflictof interest. References 1. Mao,X.;Yang,S.;Liu,Q.;Tu, J.; Jaccard,M.AchievingCO2emissionreductionandtheco-benefitsof local airpollutionabatement in the transportationsectorofChina.Environ. Sci. Policy2012,21, 1–13. [CrossRef] 2. Tie, S.F.; Tan, C.W. A review of energy sources and energy management system in electric vehicles. Renew.Sustain. EnergyRev. 2013,20, 82–102. [CrossRef] 3. Wu,Y.;Yang,Z.;Lin,B.;Liu,H.;Wang,R.;Zhou,B.;Hao, J.EnergyconsumptionandCO2emission impacts ofvehicleelectrification in threedevelopedregionsofChina.EnergyPolicy2012,48, 537–550. [CrossRef] 4. Cai,H.; Jia,X.;Chiu,A.S.;Hu,X.;Xu,M.Sitingpublic electricvehicle chargingstations inBeijingusing big-data informed travel patterns of the taxi fleet. Transp. Res. PartDTransp. Environ. 2014, 33, 39–46. [CrossRef] 5. Subhadra,B.G.Sustainabilityofalgalbiofuelproductionusing integratedrenewableenergypark (IREP) andalgalbiorefineryapproach.EnergyPolicy2010,38, 5892–5901. [CrossRef] 6. Opricovic,S.;Tzeng,G.H.CompromisesolutionbyMCDMmethods:AcomparativeanalysisofVIKORand TOPSIS.Eur. J.Oper. Res. 2004,156, 445–455. [CrossRef] 7. Rojas-Zerpa, J.C.;Yusta, J.M.Applicationofmulticriteriadecisionmethodsforelectric supplyplanning in ruralandremoteareas.Renew. Sustain. EnergyRev. 2015,52, 557–571. [CrossRef] 8. Tansel I˙ç,Y.;Yıldırım,S.Moora-basedtaguchioptimisationfor improvingproductorprocessquality. Int. J. Prod. Res. 2013,51, 3321–3341. [CrossRef] 9. SanCristóbal, J.Multi-criteria decision-making in the selection of a renewable energyproject in Spain: Thevikormethod.Renew. Energy2011,36, 498–502. [CrossRef] 10. Mardani, A.; Jusoh, A.; Zavadskas, E.K. Fuzzy multiple criteria decision-making techniques and applications—Twodecadesreviewfrom1994to2014.ExpertSyst.Appl. 2015,42, 4126–4148. [CrossRef] 11. Tzeng,G.-H.;Huang,C.-Y.CombinedDEMATELtechniquewithhybridMCDMmethodsforcreatingthe aspired intelligentglobalmanufacturing&logistics systems.Ann.Oper. Res. 2012,197, 159–190. 12. Kaya,T.;Kahraman,C.Multicriteria renewableenergyplanningusinganintegratedfuzzyVIKOR&AHP methodology: Thecaseof Istanbul.Energy2010,35, 2517–2527. 13. Mardani,A.; Zavadskas,E.K.;Govindan,K.;AmatSenin,A.; Jusoh,A.VIKORtechnique: Asystematic reviewofthestateoftheartliteratureonmethodologiesandapplications.Sustainability2016,8,37. [CrossRef] 14. Mardani,A.; Jusoh,A.;Zavadskas,E.K.;Cavallaro,F.;Khalifah,Z.Sustainableandrenewableenergy:An overviewof theapplicationofmultiplecriteriadecisionmakingtechniquesandapproaches.Sustainability 2015,7, 13947–13984. [CrossRef] 15. Chang,S.-C.;Tsai,P.-H.;Chang,S.-C.Ahybridfuzzymodel forselectingandevaluatingthee-bookbusiness model:AcasestudyonTaiwane-bookfirms.Appl. SoftComput. 2015,34, 194–204. [CrossRef] 16. Kuo,M.-S.; Liang,G.-S.CombiningVIKORwithGRAtechniques toevaluate servicequalityof airports under fuzzyenvironment.ExpertSyst.Appl. 2011,38, 1304–1312. [CrossRef] 17. Zhang,S.-F.;Liu,S.-Y.AGRA-basedintuitionistic fuzzymulti-criteriagroupdecisionmakingmethodfor personnel selection.ExpertSyst.Appl. 2011,38, 11401–11405. [CrossRef] 18. Hou, J.Greyrelationalanalysismethodformultipleattributedecisionmaking in intuitionistic fuzzysetting. J.Converg. Inf. Technol. 2010,5, 194–199. 19. Simpson,A.Cost-BenefitAnalysis ofPlug-inHybridElectricVehicleTechnology;NationalRenewableEnergy Laboratory:Golden,CA,USA,2006. 20. Schroeder,A.;Traber,T.Theeconomicsof fast charging infrastructure forelectricvehicles. EnergyPolicy 2012,43, 136–144. [CrossRef] 198