@incollection{, 6542ED721091AD22529339B65E7E18D7 , author={{OzgurBalli}}, journal={{Global Journal of Researches in Engineering}}, journal={{GJRE}}2249-45960975-586110.34257/gjre, address={Cambridge, United States}, publisher={Global Journals Organisation}173728 } @incollection{b0, , title={{Achieving better energy-efficient air conditioning-A review of Technologies and strategies}} , author={{ KJChua } and { SKChou } and { WMYang } and { JYan }} , journal={{Applied Energy}} 104 , year={2013} } @incollection{b1, , title={{Performance analysis of internalcombustion-engine primed trigeneration systems for use in high-rise office buildings in Hong Kong}} , author={{ KFFong } and { CKLee }} , journal={{Applied Energy}} 160 , year={2015} } @incollection{b2, , title={{Exergy based performance analysis of high efficiency polygeneration systems for sustainable building applications}} , author={{ EBingol } and { BK?lk?s } and { CEralp }} , journal={{Energy and Buildings}} 43 , year={2011} } @incollection{b3, , title={{Exergoeconomic analysis of a trigeneration system driven by a solid oxide fuel cell}} , author={{ AChitsaz } and { ASMehr } and { SmsMahmoudi }} , journal={{Energy Conversion and Management}} 106 , year={2015} } @incollection{b4, , title={{An energy and exergy analysis of a high-efficiency engine trigeneration system for a hospital: A case study methodology based on annual energy demand profiles}} , author={{ EspiritoSanto } and { DB }} , journal={{Energy and Buildings}} 76 , year={2014} } @incollection{b5, , title={{Thermodynamic and thermo economic analyses of a trigeneration (TRIGEN) system with a gas-diesel engine: Part I-Methodology}} , author={{ OBalli } and { HAras } and { AHepbasli }} , journal={{Energy Conversion and Management}} 51 , year={2010} } @incollection{b6, , title={{Thermodynamic and thermo economic analyses of a trigeneration (TRIGEN) system with a gas-diesel engine: Part II-An application}} , author={{ OBalli } and { HAras } and { AHepbasli }} , journal={{Energy Conversion and Management}} 51 , year={2010} } @incollection{b7, , title={{Advanced exergy analysis of a trigeneration system with a diesel-gas engine operating in a refrigerator plat building}} , author={{ EAcikkalp } and { HAras } and { AHepbasli }} , journal={{Energy and Buildings}} 80 , year={2014} } @incollection{b8, , title={{Advanced exergo economic analysis of a trigeneration system using a diesel-gas engine}} , author={{ EAcikkalp } and { HAras } and { AHepbasli }} , journal={{Applied Thermal Engineering}} 67 1 , year={2014} } @incollection{b9, , title={{An investigation of a household size trigeneration running with hydrogen}} , author={{ YWang } and { YHuang } and { EChiremba } and { APRoskilly } and { NHewitt } and { YDing }} , journal={{Applied Energy}} 88 , year={2011} } @incollection{b10, , title={{An experimental investigation of a household size trigeneration}} , author={{ LLin } and { YWang } and { TAl-Shemmeri } and { TRuxton } and { 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system under two different operational strategies}} , author={{ EspiritoSanto } and { DB }} , journal={{Energy and Buildings}} 53 , year={2012} } @incollection{b15, , title={{Experimental results of a micro-trigeneration installation}} , author={{ GAngrisani } and { ARosato } and { CRoselli } and { MSasso } and { SSibilio }} , journal={{Applied Thermal Engineering}} 38 , year={2012} } @incollection{b16, , title={{Experimental investigation of CIengine operated micro-trigeneration system}} , author={{ KKKhatri } and { DSharma } and { SLSoni } and { DTanwar }} , journal={{Applied Thermal Engineering}} 30 , year={2010} } @incollection{b17, , title={{Energetic and exergetic performance evaluation of a combined heat and power system with the micro gas turbine (MGTCHP)}} , author={{ OBalli } and { HAras }} , journal={{International Journal of Energy Research}} 31 , year={2007} } @incollection{b18, , title={{Exergo economic analysis of a combined heat and power system with the micro gas turbine (MGTCHP)}} , author={{ HAras } and { OBalli }} , journal={{Energy Exploration & Exploitation}} 26 1 , year={2008} } @incollection{b19, , title={{Performance analysis of combined microgas turbines and gas fired water/LiBr absorption chillers with post combustion}} , author={{ JCBruno } and { AValero } and { ACoronas }} , journal={{Applied Thermal Engineering}} 25 , year={2005} } @incollection{b20, , title={{Performance study of a micro turbine system for cogeneration application}} , author={{ JCHo } and { KJChua } and { SKChou }} , journal={{Renew Energy}} 29 , year={2004} } @incollection{b21, , title={{Thermodynamic analysis of a trigeneration system consisting of a micro gas turbine and a double effect absorption chiller}} , author={{ AHuicochea } and { WRivera } and { GGutierrez-Urueta } and { JCBruno } and { ACoronas }} , journal={{Applied Thermal Engineering}} 31 , year={2011} } @incollection{b22, , title={{Thermodynamic analysis on the part-load performance of a 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integrated CCHP system with biomass air gasification}} , author={{ JJWang } and { KYang } and { ZLXu } and { CFu }} , journal={{Applied Energy}} 142 , year={2015} } @incollection{b26, , title={{Performance analysis of biofuel fired trigeneration systems with energy storage for remote households}} , author={{ YHuang } and { YDWang } and { HChen } and { XZhang } and { Mondolj } and { NShah } and { NJHewitt }} , journal={{Applied Energy}} 186 , year={2017} } @incollection{b27, , title={{A study of the thermodynamic performance and CO2 emissions of a vapour compression bio-trigeneration system}} , author={{ JRParise } and { LccMartínez } and { RPMarques } and { JBMena } and { JvcVargas }} , journal={{Applied Thermal Engineering}} 31 , year={2011} } @incollection{b28, , title={{environmental and economic evaluation of the CCHP systems for a remote island in south of China}} , author={{ LWang } and { JLu } and { WangW } and { DingJEnergy }} , journal={{Applied Energy}} 183 , year={2016} } @incollection{b29, , title={{Energy analysis of a trigeneration plant based on solid oxide fuel cell and organic Rankine cycle}} , author={{ FAAl-Sulaiman } and { IDincer } and { FHamdullahpur }} , journal={{International Journal of Hydrogen Energy}} 35 , year={2010} } @incollection{b30, , title={{Energy and exergy assessments of a novel trigeneration system based on a solid oxide fuel cell}} , author={{ FRanjbar } and { AChitsaz } and { SmsMahmoudi } and { SKhalilarya } and { MARosen }} , journal={{Energy Conversion and Management}} 87 , year={2014} } @incollection{b31, , title={{Exergoeconomic analysis of a trigeneration system driven by a solid oxide fuel cell}} , author={{ AChitsaz } and { ASMehr } and { SmsMahmoudi }} , journal={{Energy Conversion and Management}} 106 , year={2015} } @incollection{b32, , title={{Thermodynamic analysis of a new combined cooling, heat and power system driven by solid oxide fuel cell based on ammonia-water mixture}} , author={{ SMa } and { JWang } and { ZYan } and { YDai } and { BLu }} , journal={{Journal of Power Sources}} 196 , year={201} } @incollection{b33, , title={{Energy and exergy analyses of an ethanol-fueled solid oxide fuel cell for a trigeneration system}} , author={{ PTippawan } and { AArpornwichanop } and { IDincer }} , journal={{Energy}} 87 , year={2015} } @incollection{b34, , title={{Performance analysis of the SOFC-CCHP system based on H2O/Li-Br absorption refrigeration cycle fueled by coke oven gas}} , author={{ HZhao } and { TJiang } and { HHou }} , journal={{Energy}} 91 , year={2015} } @incollection{b35, , title={{A micro tri-generation system based on direct flame fuel cells for residantal applications}} , author={{ YWang } and { YShi } and { MNi } and { NCai }} , journal={{International Journal of Hydrogen Energy}} 39 , year={2014} } @incollection{b36, , title={{Energy and exergy analysis of a novel multi-generation system producing cooling, heating, power and pure water}} , author={{ ASMehr } and { VZare }} , journal={{Int J Exergy}} 15 , year={2014} } @incollection{b37, , title={{Thermo economic assessment and multi objective optimization of a solar micro CCHP based on Organic Rankine Cycle for domestic application}} , author={{ FABoyaghchi } and { PHeidarnejad }} , journal={{Energy Conversion and Management}} 97 , year={2015} } @incollection{b38, , title={{Performance assessment of a novel system using parabolic trough solar collectors for combined cooling, heating, and power production}} , author={{ FAAl-Sulaiman } and { FHamdullahpur } and { IDincer }} , journal={{Renewable Energy}} 48 , year={2012} } @incollection{b39, , title={{Energy and economic analysis of geothermal-solar trigeneration systems: a case study for a hotel building in Ischia}} , author={{ ABuonomano } and { FCalise } and { APalombo } and { MVicidomini }} , journal={{Applied Energy}} 138 , year={2015} } @incollection{b40, , title={{Multi-objective optimization of a combined cooling, heating and power system driven by solar energy}} , author={{ MWang } and { JWang } and { PZhao } and { YDai }} , journal={{Energy Conversion and Management}} 89 , year={2015} } @incollection{b41, , title={{A comparative thermodynamic analysis of two trigeneration systems utilizing low-grade geothermal energy}} , author={{ VZare }} , journal={{Energy Conversion and Management}} 118 , year={2016} } @incollection{b42, , title={{Exergy analysis of a comined power and cooling cycle}} , author={{ AFontalvo } and { HPinzon } and { JDuarte } and { ABula } and { AGQuiroga } and { RVPadilla }} , journal={{Applied Thermal Engineering}} 60 , year={2013} } @incollection{b43, , title={{Sustainable energy systems for a remote island community}} , author={{ KJChua } and { WMYang } and { SSEr } and { CAHo }} , journal={{Applied Energy}} 113 , year={2014} } @incollection{b44, , title={{Performance enhancement of combined cycle power plant using inlet air cooling by exhaust heat operated ammonia-water absorption refrigeration system}} , author={{ OKSingh }} , journal={{Applied Energy}} 180 , year={2016} } @book{b45, , title={{}} , author={{ OBalli } and { HAras } and { AHepbasli }} , publisher={CHP} } @incollection{b46, , title={{The Exergy Method of Thermal Plant Analysis}} , author={{ TJKotas }} , journal={{Int Journal of Energy Research}} 31 9 , year={2007} , note={Kieger, Malabar.1995. system in Turkey} } @book{b47, , author={{ MJMoran } and { HNShapiro }} , title={{Fundamentals of Engineering Thermodynamics}} NewYork , publisher={John Wiley} , year={1995} } @incollection{b48, , title={{Performance analysis of internalcombustion-engine primed trigeneration systems for use in high-rise office buildings in Hong Kong}} , author={{ KFFong } and { CKLee }} , journal={{Applied Energy}} 160 , year={2015} } @incollection{b49, , title={{Modeling of trigeneration configurations based on biomass gasification and comparison of performance}} , author={{ MPuig-Arnavat } and { JCBruno } and { ACoronas }} , journal={{Applied Energy}} 114 , year={2014} } @incollection{b50, , title={{Energy and exergy analyses of a biomass trigeneration system using an organic Rankine cycle}} , author={{ Al-Sulaimanfa } and { IDincer } and { FHamdullahpur }} , journal={{Energy}} 45 , year={2012} } @incollection{b51, , title={{Environmental assessment of CCHP (combined cooling heating and power) systems based on biomass combustion in comparison to conventional generation}} , author={{ DMaraver } and { ASin } and { FSebastián } and { JRoyo }} , journal={{Energy}} 57 , year={2013} } @incollection{b52, , title={{Exergy modeling for evaluating sustainability level of a high by-pass turbofan engine used on commercial aircrafts}} , author={{ OBalli }} 10.1016/j.applthermaleng.2017.05.068 , journal={{Applied Thermal Engineering}} 123 , year={2017} } @book{b53, , title={{Environmental Protection Agency. 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