Una visión mundial del ciclo Rankine orgánico como alternativa de recuperación de calor residual
A world overview of organic Rankine cycle as waste heat recovery alternative
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Valencia Ochoa, G. E. ., Benavides Gamero, A. E. ., & Camargo Vanegas, J. M. . (2019). Una visión mundial del ciclo Rankine orgánico como alternativa de recuperación de calor residual. Respuestas, 24(3), 6–13. https://doi.org/10.22463/0122820X.1843
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En este trabajo se estudió la ventaja que posee el uso e implementación de los sistemas de recuperación de calor ORC para los gases de escape a baja temperatura (<230°C) proveniente de un motor a gas natural. Diferentes fluidos orgánicos y condiciones de trabajo fueron analizados con la finalidad de determinar la mejor decisión en cuanto a eficiencia energética y exergética se refiere teniendo criterios tales como, costos, impacto ambiental, toxicidad, flamabilidad entre otros. Se encontró que el rendimiento para las distintas configuraciones está estrechamente ligada a la presión de evaporación, llegando a alcanzar una potencia eléctrica de 120kWe (10%) para la configuración simple. El fluido de trabajo con mayor desempeño fue la acetona independientemente de la configuración analizada. De manera simultánea se realizó un contexto a nivel internacional y nacional en diferentes ámbitos para los sistemas de recuperación de calor.
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E. Akrami, A. Chitsaz, H. Nami, and S. M. S. Mahmoudi, “Energetic and exergoeconomic assessment of a multi-generation energy system based on indirect use of geothermal energy,” Energy, vol. 124, no. 1–772, pp. 625–639, 2017.
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B. Peris Perez, “Thermo-economic assessment of small-scale organic Rankine cycle for low-grade industrial waste heat recovery based on an experimental application,” no. July, 2017.
J. Alean, F. C. Janna, and C. Gomez, Recuperación de energía en procesos industriales, no. November. 2015.
H. Zhang, X. Guan, Y. Ding, and C. Liu, “Emergy analysis of Organic Rankine Cycle (ORC) for waste heat power generation,” J. Clean. Prod., vol. 183, pp. 1207–1215, 2018.
S. Lecompte, H. Huisseune, M. Van Den Broek, B. Vanslambrouck, and M. De Paepe, “Review of organic Rankine cycle (ORC) architectures for waste heat recovery,” Renew. Sustain. Energy Rev., vol. 47, pp. 448–461, 2015.
S. Lecompte et al., “Case Study of an Organic Rankine Cycle (ORC) for Waste Heat Recovery from an Electric Arc Furnace (EAF),” Energies, vol. 10, p. 649, 2017.
E. H. Wang, H. G. Zhang, B. Y. Fan, M. G. Ouyang, Y. Zhao, and Q. H. Mu, “Study of working fluid selection of organic Rankine cycle (ORC) for engine waste heat recovery,” Energy, vol. 36, no. 5, pp. 3406–3418, 2011.
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P. Liu, G. Shu, T. Hua, and X. Wang, “Engine Load Effects on the Energy and Exergy Performance of a Medium Cycle/Organic Rankine Cycle for Exhaust Waste Heat Recovery,” Entropy, vol. 20, no. 2, p. 137, 2018.
H. Tian, G. Shu, H. Wei, X. Liang, and L. Liu, “Fluids and parameters optimization for the organic Rankine cycles (ORCs) used in exhaust heat recovery of Internal Combustion Engine (ICE),” Energy, vol. 47, no. 1, pp. 125–136, Nov. 2012.
M. Tavano et al., “ScienceDirect ScienceDirect Thermodynamic Optimization of heat recovery ORCs for heavy Thermodynamic Optimization of pure heat recovery ORCs for mixtures heavy duty Internal Combustion Engine : fluids vs . zeotropic duty Internal Combustion Engine : pure ,” Energy Procedia, vol. 129, pp. 168–175, 2017.
F. Vélez, J. J. Segovia, M. C. Martín, G. Antolín, F. Chejne, and A. Quijano, “A technical, economical and market review of organic Rankine cycles for the conversion of low-grade heat for power generation,” Renew. Sustain. Energy Rev., vol. 16, no. 6, pp. 4175–4189, Aug. 2012.
B. Saleh, G. Koglbauer, M. Wendland, and J. Fischer, “Working fluids for low-temperature organic Rankine cycles,” Energy, vol. 32, no. 7, pp. 1210–1221, 2007.
B. F. Tchanche, G. Papadakis, G. Lambrinos, and A. Frangoudakis, “Fluid selection for a low-temperature solar organic Rankine cycle,” Appl. Therm. Eng., vol. 29, no. 11–12, pp. 2468–2476, Aug. 2009.
G. Valencia, A. Fontalvo, Y. Cárdenas, J. Duarte, and C. Isaza, “Energy and exergy analysis of different exhaust waste heat recovery systems for natural gas engine based on ORC,” Energies, vol. 12, no. 12, 2019.
M. Yürüsoy and A. Keçebaş, “Advanced exergo-environmental analyses and assessments of a real district heating system with geothermal energy,” Appl. Therm. Eng., vol. 113, pp. 449–459, 2017.
F. Rizzi, C. Schio, and S. Santarossa, “Hybrid ORC Waste Heat Recovery System and Solar Thermal Plant in Morocco,” IEEE Trans. Ind. Appl., vol. PP, p. 1, 2016.
J. Kalina, “Integrated biomass gasification combined cycle distributed generation plant with reciprocating gas engine and ORC,” Appl. Therm. Eng., vol. 31, no. 14, pp. 2829–2840, 2011.
S. Anvari, R. Khoshbakhti Saray, and K. Bahlouli, “Conventional and advanced exergetic and exergoeconomic analyses applied to a tri-generation cycle for heat, cold and power production,” Energy, vol. 91, pp. 925–939, Nov. 2015.
J. Bao and L. Zhao, “A review of working fluid and expander selections for organic Rankine cycle,” Renew. Sustain. Energy Rev., vol. 24, no. Supplement C, pp. 325–342, Aug. 2013.
U. Drescher and D. Brüggemann, “Fluid selection for the Organic Rankine Cycle (ORC) in biomass power and heat plants,” Appl. Therm. Eng. U. Drescher D. Brüggemann, “Fluid Sel. Org. Rank. Cycle biomass power heat plants,” Appl. Therm. Eng., vol. 27, no. 1, pp. 223–228, 2007., vol. 27, no. 1, pp. 223–228, 2007.
P. J. Mago, L. M. Chamra, K. Srinivasan, and C. Somayaji, “An examination of regenerative organic Rankine cycles using dry fluids,” Appl. Therm. Eng., vol. 28, no. 8, pp. 998–1007, 2008.
G. Kosmadakis, D. Manolakos, S. Kyritsis, and G. Papadakis, “Comparative thermodynamic study of refrigerants to select the best for use in the high-temperature stage of a two-stage organic Rankine cycle for RO desalination,” Desalination, vol. 243, no. 1, pp. 74–94, 2009.
B. F. Tchanche, G. Papadakis, G. Lambrinos, and A. Frangoudakis, “Fluid selection for a low-temperature solar organic Rankine cycle,” Appl. Therm. Eng., vol. 29, no. 11–12, pp. 2468–2476, 2009.
I. Vaja and A. Gambarotta, “Internal Combustion Engine (ICE) bottoming with Organic Rankine Cycles (ORCs),” Energy, vol. 35, no. 2, pp. 1084–1093, 2010.
W. Mingshan, F. Jinli, M. Chaochen, and D. S. Noman, “Waste heat recovery from heavy-duty diesel engine exhaust gases by medium temperature ORC system,” Sci. China Technol. Sci., vol. 54, no. 10, pp. 2746–2753, 2011.
H. Tian, G. Shu, H. Wei, X. Liang, and L. Liu, “Fluids and parameters optimization for the organic Rankine cycles (ORCs) used in exhaust heat recovery of Internal Combustion Engine (ICE),” Energy, vol. 47, no. 1, pp. 125–136, Nov. 2012.
T.-C. Hung, D.-S. Lee, and J.-R. Lin, “An Innovative application of a solar storage wall combined with the low-temperature organic rankine cycle,” Int. J. Photoenergy, no. 239137, p. 12, 2014.
V. Zare, “A comparative exergoeconomic analysis of different ORC configurations for binary geothermal power plants,” Energy Convers. Manag., vol. 105, pp. 127–138, 2015.
E. D. Kerme and J. Orfi, “Exergy-based thermodynamic analysis of solar driven organic Rankine cycle,” J. Therm. Eng., vol. 1, no. 5, pp. 192–202, 2015.
F. Calise, M. D. D’Accadia, A. Macaluso, A. Piacentino, and L. Vanoli, “Exergetic and exergoeconomic analysis of a novel hybrid solar–geothermal polygeneration system producing energy and water,” Energy Convers. Manag., vol. 115, no. 1–336, pp. 200–220, 2016.
S. Karellas and K. Braimakis, “Energy–exergy analysis and economic investigation of a cogeneration and trigeneration ORC–VCC hybrid system utilizing biomass fuel and solar power,” Energy Convers. Manag., vol. 107, no. 1–122, pp. 103–113, 2016.
E. Akrami, A. Chitsaz, H. Nami, and S. M. S. Mahmoudi, “Energetic and exergoeconomic assessment of a multi-generation energy system based on indirect use of geothermal energy,” Energy, vol. 124, no. 1–772, pp. 625–639, 2017.
M. Zhao, M. Wei, G. Tian, and P. Song, “Simulation of effects of ORC system installation on heavy-duty truck,” Appl. Therm. Eng., vol. 128, no. 75, pp. 1322–1330, 2018.
“‘Ormat technologies - Global Projects’ [Online]. Available: https://www.ormat.com/en/projects/all/main/?Country=USA&Seg=0&Tech=8.” .
“‘Turboden: Products for Combined Heat and Power (CHP)’ [Online]. Available: https://www.turboden.com/case-histories?countries=&applications=1053&power=#filters.” .
R. Saidur, M. Rezaei, W. K. Muzammil, M. H. Hassan, S. Paria, and M. Hasanuzzaman, “Technologies to recover exhaust heat from internal combustion engines,” Renew. Sustain. Energy Rev., vol. 16, no. 8, pp. 5649–5659, 2012.
