Energetic, exergetic and economic analysis of a cogeneration system: sugarcane plant of Sao Paulo case
Main Article Content
Abstract
Keywords
Cogeneration, economic analysis, energetic analysis, exergetic analysis. Cogeneración, análisis económico, análisis energético, análisis exergético.
References
[2] N. Mat Isa, C. Wei Tan, A.H.M. Yatim, “A comprehensive review of cogeneration system in a microgrid: A perspective from architecture and operating system”, in Renewable and Sustainable Energy Reviews, 2017. [Online]. Available:
http://dx.doi.org/10.1016/j.rser.2017.06.034.
[3] R. Carapellucci, A. Milazzo, “Repowering combined cycle power plants by a modified STIG configuration”, in Energy Convers Manage, vol. 48(5), pp. 1590–600, 2007.
[4] A. Rovira, C. Sánchez, M. Muñoz, M. Valdés, MD. Durán. “Thermoeconomic optimisation of heat recovery steam generators of combined cycle gas turbine power plants considering off-design operation”, in Energy Convers Manage, vol. 52(4), pp. 1840–9, 2011.
[5] D. Mahto, S. Pal, “Thermodynamics and thermo-economic analysis of simple combined cycle with inlet fogging”, in Applied Thermal Engineering, vol. 51, pp. 1359-4311, 2013.
[6] G . Heyen, B . Kalitventzeff, “A comparison of advanced thermal cycles suitable for upgrading existing power plant”, in Appl Therm Eng, vol. 19, pp. 227–37, 1999.
[7] J. L. Silveira, C. E. Tuna, “Thermoeconomic analysis method for optimization of combined heat and power systems. Part I.”, in Progress in Energy and Combustion Science, vol. 29, pp. 479-485, 2003.
[8] J. L. Silveira, C. E. Tuna, “Thermoeconomic analysis method for optimization of combined heat and power systems. Part II.”, in Progress in Energy and Combustion Science, vol. 30, pp. 673-678, 2004.
[9] M. A. Kordlar, S. M. S. Mahmoudi, “Exergeoconomic analysis and optimization of a novel cogeneration system producing power and refrigeration”, Energy Conversion and Management, vol. 134, pp. 208-220, 2017.
[10] M. Gambini, M. Vellini, “High Efficiency Cogeneration: Electricity from Cogeneration in CHP Plants”, in Energy Procedia, vol. 81, pp. 430-439, 2015.
[11] D. Gvozdenac, B. Gvozdenac Uroševi?, C. Menke, D. Uroševi?, A. Bangviwat, “High efficiency cogeneration: CHP and non-CHP energy”, in Energy, vol. 135, pp. 269-278, 2017.
[12] B. B. Kanbur, L. Xiang, S. Dubey, F. H. Choo, F. Duan, “Thermoeconomic assessment of a micro cogeneration system with LNG cold utilization”, in Energy, vol. 129, pp. 171-184, 2017.
[13] Z. Sun, “Energy efficiency and economic feasibility analysis of cogeneration system driven by gas engine”, in Energy and Buildings, vol. 40, pp. 126-130, 2008.
[14] A. Abusoglu, M. Kanoglu, “Exergetic and thermoeconomic analyses of diesel engine powered cogeneration: Part 1 – Formulations”, in Applied Thermal Engineering, vol. 29, pp. 234-241, 2009.
[15] R. Passolongo, “Avaliação Termodinâmica, Termoeconômica e Econômica da Integração de Sistemas de Gaseificação da Biomassa em uma Usina Sucroalcooleira, Master dissertation, in São Paulo State University, 2011.
[16] I. A. de Castro Villela, “Desenvolvimento de um Modelo Termo Econômico que Considera os Impactos Ambientais”, Ph.D. dissertation, in São Paulo State University, 2007.
[17] Y. A. Çengel, M. A. Boles, S. Faddeeva Sknarina, “Termodinámica”, México [etc.]: McGraw Hill, 2009.
[18] “Chemical Composition of Natural Gas - Union Gas”, [Online]. Available: https://www.uniongas.com/about-us/about-natural-gas/Chemical-Composition-of-Natural -Gas
[19] D. Sue, C. Chuang, “Engineering design and exergy analyses for combustion gas turbine based power generation system”, in Energy, vol. 29, pp. 1183-1205, 2004.
[20] “Natural Gas Calorific Value Calculator | Unitrove”, [Online]. Available: http://www.unitrove.com/engineering/tools/gas/natural-gas-calori_c-value
[21] J. L. Silveira, “Cogeração Disseminada para Pequenos Usuários: Estudo de Casos para o Setor Terciário”, Ph.D. dissertation, U Campinas, State University, 1994.
[22] “Gas Turbine World Handbook”, 2012.