Trigenerative micro compressed air energy storage: Concept and thermodynamic assessment
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Andrea Luigi Facci | Stefano Ubertini | Elio Jannelli | David Sánchez | D. Sánchez | E. Jannelli | A. Facci | S. Ubertini
[1] Abdul Khaliq,et al. Exergy analysis of gas turbine trigeneration system for combined production of power heat and refrigeration , 2009 .
[2] Andrea Luigi Facci,et al. Analysis of the influence of Thermal Energy Storage on the Optimal Management of a Trigeneration Plant , 2014 .
[3] Hossein Safaei,et al. Compressed air energy storage (CAES) with compressors distributed at heat loads to enable waste heat utilization , 2013 .
[4] Martin Koller,et al. Advanced Adiabatic Compressed Air Energy Storage for the Integration of Wind Energy , 2004 .
[5] Daniel Wolf,et al. LTA-CAES – A low-temperature approach to Adiabatic Compressed Air Energy Storage , 2014 .
[6] C. Xia,et al. A simplified and unified analytical solution for temperature and pressure variations in compressed air energy storage caverns , 2015 .
[7] Andrea Luigi Facci,et al. Proton exchange membrane fuel cell for cooperating households: A convenient combined heat and power solution for residential applications , 2015 .
[8] D. Favrat,et al. Energy and exergy analysis of a micro-compressed air energy storage and air cycle heating and cooling system , 2008 .
[9] Jeffery B. Greenblatt,et al. Baseload wind energy: modeling the competition between gas turbines and compressed air energy storage for supplemental generation , 2007 .
[10] O. E. Baljé,et al. Turbomachines—A Guide to Design Selection and Theory , 1981 .
[11] Georges Garabeth Salgi,et al. The role of compressed air energy storage (CAES) in future sustainable energy systems , 2009 .
[12] Dennis Granville Shepherd. Principles of Turbomachinery , 1956 .
[13] Alfred J. Cavallo,et al. Controllable and affordable utility-scale electricity from intermittent wind resources and compressed air energy storage (CAES) , 2007 .
[14] Dacheng Li,et al. A trigeneration system based on compressed air and thermal energy storage , 2012 .
[15] David Reay. Compact heat exchangers, enhancement and heat pumps , 1999 .
[16] David Japikse,et al. Introduction to Turbomachinery , 1994 .
[17] Niklas Hartmann,et al. Simulation and analysis of different adiabatic Compressed Air Energy Storage plant configurations , 2012 .
[18] Peter J. Beaty,et al. Compressor Types, Classifications, And Applications. , 1992 .
[19] D. J. Swider,et al. Compressed Air Energy Storage in an Electricity System With Significant Wind Power Generation , 2007, IEEE Transactions on Energy Conversion.
[20] Andrea Luigi Facci,et al. Comparing Energy and Cost Optimization in Distributed Energy Systems Management , 2014 .
[21] F. Kreith,et al. Principles of heat transfer , 1962 .
[22] Haisheng Chen,et al. Progress in electrical energy storage system: A critical review , 2009 .
[23] G. Grazzini,et al. Thermodynamic analysis of CAES/TES systems for renewable energy plants , 2008 .
[24] Elio Jannelli,et al. A small-scale CAES (compressed air energy storage) system for stand-alone renewable energy power plant for a radio base station: A sizing-design methodology , 2014 .
[25] Reinhard Madlener,et al. Economics of centralized and decentralized compressed air energy storage for enhanced grid integration of wind power , 2013 .
[26] Andrea Luigi Facci,et al. Optimization of CHCP (combined heat power and cooling) systems operation strategy using dynamic programming , 2014 .
[27] Amy Q. Shen,et al. Can large-scale advanced-adiabatic compressed air energy storage be justified economically in an age of sustainable energy? , 2009 .
[28] S. C. Kaushik,et al. Second law thermodynamic study of heat exchangers: A review , 2014 .