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Available online at www.sciencedirect.com Available online at www.sciencedirect.com ScienceDirect ScienceDirect Energy Procedia 00 (2017) 000–000 AvAavialailbalbeleonolninlieneatawt www.s.csiceinecnecdeidreircetc.ct.ocmom Energy Procedia 00 (2017) 000–000 www.elsevier.com/locate/procedia www.elsevier.com/locate/procedia www.elsevier.com/locate/procedia ScienceDirect ScienceDirect EEnneergrgyyPProrocceeddiaia10107 (2017) 06007–060104 1st International Conference on Power Engineering, Computing and CONtrol, PECCON-2017, 2- 1st International Confere4nMceaorcnhP2o0w1e7r,EVnIgTinUeneirvinegrs,iCtyo,mCphuetninagiaCnadmCpOuNs trol, PECCON-2017, 2- 4 March 2017, VIT University, Chennai Campus Modeling and Operation of a Vanadium Redox Flow Battery for PV Modeling anThde O15ptheIrnatetrinoatnionoafl SaymVpaonsiaumdiounmDisRtriecdt HoexatFinlgoawnd CBoaotlitnegry for PV Applications Applications Assessing the feasibility oaf,b,u*sing the heat demand-outdoor Amjed Hina Fathima , Kaliannan Palanismay a,b,* a temperature fAunmcjetdioHninfaoFratahilmoang-t,eKrmaliadninsatnriPcatlahniesamtadyemand forecast Abstract a School of Electrical Engineering, VIT University, Vellore Campus, Vellore, Tamil Nadu,India – 632014. ba DScehpoaorltmofenEtleocf tEriEcaEl, EAndghinCeeorlilnege, VoIfTEUngniinveerrsintyg, aVnedlloTrechCnaomlopguys, WVeallaojraeb, aTda,mKial nNcahdeue,pInudraiam–D6i3st2r0ic1t4, . I.Ana,b,c a a b c c b dTraimćil Nad*u,,InAdia.-P63in16a05, P. Ferrão , J. Fournier ., B. Lacarrière , O. Le Corre Department of EEE, Adhi College of Engineering and Technology, Walajabad, Kancheepuram District, Tamil Nadu, India - 631605 a Abstract Abstract Energy storage has become an absolute necessity for the growth of renewable power systems today. Vanadium Redox Battery is rEanpeidrglygsatoinraingge phoaspubleacroitmyeinanintaebgsroaltuetdehnyebcreisdsirteynfeowratbhleegprowethr soyfsrtenmeswdaubeletopoitwsehrigshysltiefme csytcoldeacyo.uVnatn,amdoiudmulaRrietdyoaxndBafltetexriyblies crapiadcliytyg.aTinhinsgpappoepruplaurtistyfoirnthinatnegerlaetcetdrichaylbmridodrelneowf abvlaenpaodwiuemr sbyasttemrystdousetutdoyitistshoigpherlaitfieoncywclheilceoiunntet,gmraoteddulwaritihtyaasntdanfldeaxliobnle IN+ Center for Innovation, Technology and Policy Research - Instituto Superior Técnico, Av. Rovisco Pais 1, 1049-001 Lisbon, Portugal bVeolia Recherche & Innovation, 291 Avenue Dreyfous Daniel, 78520 Limay, France cDépartement Systèmes Énergétiques et Environnement - IMT Atlantique, 4 rue Alfred Kastler, 44300 Nantes, France pchapoatocvitoyl.taTihcipsopwapeerrsopurtscef.oTrtheamnoedlecltrinicalludmeosdevlaolufativoannoadficuemllbstatctekryvotlotasgtuesdyanitdstohpeesrtaattieonofwchialergientoefgrthateedstowriatgheacsatpaancdiatylo.nAe spihmoptolevoletaniecrgpyowemr asnoaugrceem. eTnhte mstoradtelgiyncliusdesinecvlauldueadtionbyof cmeloldsetalicnkgvoaltagcehsaragned thceonstarotelloerf chtoargeavoofidthe asntoyragiensctapnacceisty. oAf District heating networks are commonly addressed in the literature as one of the most effective solutions for decreasing the osivmerpclheargeinegr/gdyischmaargniangge.mTehnet ssotlrartepgaynelisis imncolduedled ubsying msoldaerlicneglls awhcihchargaect acsonthtreolplerrimatory saovuoricde taonysupipnlsytaancpeus reloyf greenhouse gas emissions from the building sector. These systems require high investments which are returned through the heat roevseisrtcihvaergdionmg/edsitsichlaoragdi.nTg.heThenetisroelawroprkaniselsims umlaotdeedleind ausMinagtlasbo/lSairmcuelilnskwehnivcihroancmt eanst athned pthreimreasruyltsoiunrvcestiogastuedppfloyr acopnustraenlyt sales. Due to the changed climate conditions and building renovation policies, heat demand in the future could decrease, arensdisvtiavreyidnogmirersatdicialtoioand.caTshees.eTnhtiererewsourltks iosbstaiminueldatperdovine aefMficaitelnabt /oSpiemrautlionnk oefnvthireobnamttenryt ansdpethrererqeusuirletsmiennvtess.tigated for constant prolonging the investment return period. and varying irradiation cases. The results obtained prove efficient operation of the battery as per requirements. The main scope of this paper is to assess the feasibility of using the heat demand – outdoor temperature function for heat demand © 2017 The Authors. Published by Elsevier Ltd. forecast. The district of Alvalade, located in Lisbon (Portugal), was used as a case study. The district is consisted of 665 © 2017 The Authors. Published by Elsevier Ltd. P©ee2r0-1re7vTiehwe uAnudtehrores.spPounbslibshileitdyboyf EthlesesvciiernLtitfdic. committee of the 1st International Conference on Power Engineering, buildings that vary in both construction period and typology. Three weather scenarios (low, medium, high) and three district Peer-review under responsibility of the scientific committee of the 1st International Conference on Power Engineering, CPeoemr-pruetviinegwaunnddCerOrNestrpoln. sibility of the scientific committee of the 1st International Conference on Power Engineering, renovation scenarios were developed (shallow, intermediate, deep). To estimate the error, obtained heat demand values were Computing and CONtrol. Computing and CONtrol. compared with results from a dynamic heat demand model, previously developed and validated by the authors. Keywords: battery; flow battery; solar; vanadium redox; model; photo voltaic. (the error in annual demand was lower than 20% for all weather scenarios considered). However, after introducing renovation scenarios, the error value increased up to 59.5% (depending on the weather and renovation scenarios combination considered). reEnonveartgioynssycsetneamrisosofcothnesidfeurteudr)e. aOrne thoeboethdeershiganedd, ffuonrctgiounariannteterceedptreinlicarbeailsietyd afonrd7u.8n-c1o2m.7%propmerisdiencgadeene(dregpyensedcinugriotyn ttohe encosEurpnelerdgyscnseaynmsatrieicoms)s.uoTsfthateihnveaabfluiuletiutsyrseuoagfrgetshttoedbgecrodiudelsdsigybnseteeudmsefsod.rtoIgnumcaroeadanisfteyedetdhperefnluienatcbrtailotintoynpanoradfmurenetencroeswmfoaprbroltehmesisyicsnetgneamerinsoesrpgcooysnesseidceaurreigdtyr,eatanotd Keywords: battery; flow battery; solar; vanadium redox; model; photo voltaic. The results showed that when only weather change is considered, the margin of error could be acceptable for some applications 1. Introduction The value of slope coefficient increased on average within the range of 3.8% up to 8% per decade, that corresponds to the 1. Introduction decrease in the number of heating hours of 22-139h during the heating season (depending on the combination of weather and improve the accuracy of heat demand estimations. cehnaslulreengdeyntoamthiec gsruisdtafiunnacbtiloitnyinogfdtuhee togrtihdeisryisntetemrms.itItenncrtenaasteudrep. eHnoetwraetvioenr, douf eretoneiwncarbelaesesdysgtelombsalpaowseasrenaesgsreoaft pcohlalluletinogneatnodtohezognreiddefupnlecttiion,inmgodstuecotuontrhieisr airneteormptitntegnftonragturere.n Henoewrgevyepr,oldiucieestofoirncirnegastedchgnlolboaglyapwraorveindesrs toof © 2017 The Authors. Published by Elsevier Ltd. lpoolkluftoiornopatnidonosztonoepdeeraptletaionnd,maonsatgceoruenterwieasbalreesopurticnegs wfoirthgoruetenaffeencetrignyg tphoeligcriieds sfeocrucirnitgy.technology providers to Peer-review under responsibility of the Scientific Committee of The 15th International Symposium on District Heating and look for options to operate and manage renewable sources without affecting the grid security. Cooling. Keywords: Heat demand; Forecast; Climate change Corresponding Author : ahina.fathima2013@vit.ac.in 1876-6102 © 2017 The Authors. Published by Elsevier Ltd. Corresponding Author : ahina.fathima2013@vit.ac.in Peer-review under responsibility of the scientific committee of the 1st International Conference on Power Engineering, Computing and CONtrol. 1876-6102 © 2017 The Authors. Published by Elsevier Ltd. Peer-review under responsibility of the scientific committee of the 1st International Conference on Power Engineering, Computing and CONtrol. 1876-6102 © 2017 The Authors. Published by Elsevier Ltd. Peer-review under responsibility of the Scientific Committee of The 15th International Symposium on District Heating and Cooling. 1876-6102 © 2017 The Authors. Published by Elsevier Ltd. Peer-review under responsibility of the scientific committee of the 1st International Conference on Power Engineering, Computing and CONtrol. 10.1016/j.egypro.2017.05.157PDF Image | Operation of a Vanadium Redox Flow Battery for PV
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