Exergy cost allocation method based on energy level (ECAEL) for a CCHP system

[1]  François Maréchal,et al.  Multi-objective optimization and exergoeconomic analysis of a combined cooling, heating and power based compressed air energy storage system , 2017 .

[2]  Antonio Valero,et al.  Exergy analysis of a Combined Cooling, Heating and Power system integrated with wind turbine and compressed air energy storage system , 2017 .

[3]  Yongping Yang,et al.  Analysis of a solar-aided coal-fired power generation system based on thermo-economic structural theory , 2016 .

[4]  Jiangjiang Wang,et al.  Cost allocation and sensitivity analysis of multi-products from biomass gasification combined cooling heating and power system based on the exergoeconomic methodology , 2015 .

[5]  Xiao Xiao Xu,et al.  Energy and exergy analyses of a modified combined cooling, heating, and power system using supercritical CO2 , 2015 .

[6]  Toshihiko Nakata,et al.  A comparative exergy and exergoeconomic analysis of a residential heat supply system paradigm of Japan and local source based district heating system using SPECO (specific exergy cost) method , 2014 .

[7]  Yang Shi,et al.  Combined cooling, heating and power systems: A survey , 2014 .

[8]  Hongguang Jin,et al.  The exergy and energy level analysis of a combined cooling, heating and power system driven by a small scale gas turbine at off design condition , 2014 .

[9]  Nurettin Yamankaradeniz,et al.  Exergoeconomic analysis of a district heating system for geothermal energy using specific exergy cost method , 2013 .

[10]  I. Dincer,et al.  Thermoeconomic optimization of three trigeneration systems using organic Rankine cycles: Part II – Applications , 2013 .

[11]  Minlin Yang,et al.  Research, development and the prospect of combined cooling, heating, and power systems , 2010 .

[12]  J.A.R. Parise,et al.  Thermoeconomic assessment of a multi-engine, multi-heat-pump CCHP (combined cooling, heating and power generation) system – A case study , 2010 .

[13]  Sheng Li,et al.  Exergy cost analysis of a micro-trigeneration system based on the structural theory of thermoeconomics , 2008 .

[14]  Andrea Lazzaretto,et al.  SPECO: A systematic and general methodology for calculating efficiencies and costs in thermal systems , 2006 .

[15]  Chuguang Zheng,et al.  Exergy cost analysis of a coal fired power plant based on structural theory of thermoeconomics , 2006 .

[16]  Pradeep K. Sahoo,et al.  Thermoeconomic evaluation and optimization of a double-effect H2O/LiBr vapour-absorption refrigeration system , 2005 .

[17]  Zelong Liu,et al.  A novel EFHAT system and exergy analysis with energy utilization diagram , 2004 .

[18]  Peng Qi-zheng RESONABLE STRUCTURE OF SUPPLEMENTARY EQUATION USED FOR COST ANALYSIS IN THERMAL ECONOMICS , 2003 .

[19]  George Tsatsaronis,et al.  A New Approach for Assigning Costs and Fuels to Cogeneration Products , 2001 .

[20]  Antonio Valero,et al.  Structural theory as standard for thermoeconomics , 1999 .

[21]  M. J. Moran,et al.  Thermal design and optimization , 1995 .

[22]  Miguel A. Lozano,et al.  Theory of the exergetic cost , 1993 .

[23]  George Tsatsaronis,et al.  Exergy Costing in Exergoeconomics , 1993 .

[24]  Christos Athanasios Frangopoulos,et al.  Thermoeconomic functional analysis :a method for optimal design or improvement of complex thermal systems , 1983 .

[25]  William J. Wepfer,et al.  Exergy economics: I. Cost accounting applications , 1980 .