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dc.contributor.authorDaneshazarian R.
dc.contributor.authorCuce E.
dc.contributor.authorCuce P.M.
dc.contributor.authorSher F.
dc.date.accessioned20.04.201910:49:12
dc.date.accessioned2019-04-20T21:43:12Z
dc.date.available20.04.201910:49:12
dc.date.available2019-04-20T21:43:12Z
dc.date.issued2018
dc.identifier.issn1364-0321
dc.identifier.urihttps://dx.doi.org/10.1016/j.rser.2017.08.013
dc.identifier.urihttps://hdl.handle.net/20.500.12403/447
dc.description.abstractConcentrating photovoltaic thermal (CPVT) collectors and systems are very popular in both domestic and industrial solar energy applications. CPVT collectors provides incomparably greater thermal and electrical outputs compared to stand alone PV or hybrid PVT systems as incoming solar energy is maximised inside the unit via energy-efficient concentrators. Within the scope of this paper, a comprehensive review on CPVT collectors and systems is proposed. For an easier assessment of the findings through state-of-the-art analyses on CPVT collectors, the review is presented in a thematic way. Historical overview of the technology is followed by the detailed description of a CPVT collector with main system elements and thermodynamic performance definitions. The review also covers thermal and electrical performance analysis of CPVT collectors using water or air as working fluid, analytical, numerical, simulation and experimental works for performance evaluation of different design configurations of CPVT systems and qualitative analysis of electrical and thermal energy generation. The impacts of concentrator type and concentration ratio on system efficiency, operating temperature and coefficient of performance (COP) are analysed in detail. It is observed from the findings that CPVT collectors are promising devices in market, and they have a good potential to be competitive with conventional power generation systems in the near future. © 2017 Elsevier Ltden_US
dc.language.isoengen_US
dc.publisherElsevier Ltd
dc.relation.isversionof10.1016/j.rser.2017.08.013
dc.rightsinfo:eu-repo/semantics/closedAccessen_US
dc.subjectConcentration ratio
dc.subjectCOP
dc.subjectCPVT collectors
dc.subjectOperating temperature
dc.subjectPayback period
dc.subjectThermal and electrical efficiency
dc.subjectThermodynamic model
dc.subjectAir
dc.subjectEnergy efficiency
dc.subjectInvestments
dc.subjectSolar concentrators
dc.subjectSolar energy
dc.subjectSolar power generation
dc.subjectTemperature
dc.subjectConcentration ratio
dc.subjectElectrical efficiency
dc.subjectOperating temperature
dc.subjectPayback periods
dc.subjectThermodynamic model
dc.subjectCollector efficiency
dc.subjectConcentration ratio
dc.subjectCOP
dc.subjectCPVT collectors
dc.subjectOperating temperature
dc.subjectPayback period
dc.subjectThermal and electrical efficiency
dc.subjectThermodynamic model
dc.subjectAir
dc.subjectEnergy efficiency
dc.subjectInvestments
dc.subjectSolar concentrators
dc.subjectSolar energy
dc.subjectSolar power generation
dc.subjectTemperature
dc.subjectConcentration ratio
dc.subjectElectrical efficiency
dc.subjectOperating temperature
dc.subjectPayback periods
dc.subjectThermodynamic model
dc.subjectCollector efficiency
dc.titleConcentrating photovoltaic thermal (CPVT) collectors and systems: Theory, performance assessment and applicationsen_US
dc.typereviewen_US
dc.relation.journalRenewable and Sustainable Energy Reviewsen_US
dc.contributor.departmentBayburt Universityen_US
dc.contributor.authorID56398195900
dc.contributor.authorID47560946200
dc.contributor.authorID55221885200
dc.contributor.authorID57204792804
dc.identifier.volume81
dc.identifier.startpage473
dc.identifier.endpage492
dc.relation.publicationcategoryDiğeren_US


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