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Year 2017, , 1498 - 1504, 19.09.2017
https://doi.org/10.18186/journal-of-thermal-engineering.338897

Abstract

References

  • [1] Tchanche, B., Petrissans, M., Papadakis, G., 2014, Heat resource and organic Rankine cycle machine, Renewable and Sustaunable Energy Reviews, vol, 39 : p. 1185-1199.
  • [2] Velez, F., Segovia, J., Martin, C., Antolin G., Chejne F., Quijano,A., 2012, A technical, economical and market review of organic Rankine cycles for the conversion of low-grade heat for power generation, Renewable and Sustainable Energy Reviews, vol. 16 : p. 4175-4189.
  • [3] Ziviani, D., Beyene, A., Venturini, M., 2014, Advances and challenges in ORC systems modeling for low grade thermal energy recovery, Applied Energy, vol. 121: p. 79-95.
  • [4] Joan, B., Jesús, L., Eduardo, L., Silvia, R., Alberto, C., 2008, Modelling and optimisation of solar organic Rankine cycle engines for reverse osmosis desalination, Applied Thermal Engineering, vol. 28 : p. 2212–2226.
  • [5] Pei, G., Li, J., Ji, J., 2010, nalysis of low temperature solar thermal electric generation using regenerative organic Rankine cycle, Applied Thermal Engineering, vol. 30 : p. 998–1004.
  • [6] Liu, B., Chien, K., Wang, C., 2004, Effect of working fluids on organic Rankine cycle for waste heat recovery, Energy, vol. 29 : p. 1207–1217.
  • [7] Dai, Y., Wang, J., Gao, L., 2009, Parametric optimization and comparative study of organic Rankine cycle (ORC) for low grade waste heat recovery, Energy Conversion and Management, vol. 50 : p. 576–582.
  • [8] Srinivasan, K., Mago, P., Krishnan, S.,2010, Analysis of exhaust waste heat recovery from a dual fuel low temperature combustion engine using an organic Rankine cycle, Energy, vol. 35 : p. 2387-2399.
  • [9] Zhou, N., Wang, X., Chen, Z., Wang, Z., 2013, Experimental study on Organic Rankine Cycle for wate heat recovery from low-temperature flue gas, Energy, vol. 55 : p. 216-225.
  • [10] Invernizzi, C., Iora, P., Silva, P.,2007, Bottoming micro-Rankine cycles for micro-gas turbines, Applied Thermal Engineering, vol. 27 : p. 100–110.
  • [11] Martina, P., Shane, W., Philip, O., 2010, Evaluation of energy efficiency of various biogas production and utilization pathways, Applied Energy, vol. 87 : p. 3305–3321.
  • [12] Gu, Z., Sato, H., 2002, Performance of supercritical cycles for geothermal binary design, Energy Conversion and Management, vol. 43 : p. 961–971.
  • [13] Franco, A., Villani, M.,2009, Optimal design of binary cycle power plants for water-dominated, medium-temperature geothermal fields, Geothermics, vol. 38 : p. 379–391.
  • [14] Hung, T., 2001, Waste heat recovery of organic Rankine cycle using dry fluids, Energy Conversion and Management, vol. 42 : p. 539-553.
  • [15] Saleh, B., Koglbauer, G., Wendland, M., Fischer, J., 2007, Working fluids for lowtemperature organic Rankine cycles, Energy, vol. 32 : p. 1210-1221.
  • [16] Tung, T., Wang, S., Kuo, C., Pei, B., Tsai, K., 2010, A study of organic working fluids on system efficiency of an ORC using low-grade energy sources, Energy, vol.35 : p. 1403-1411.
  • [17] Wei, D., Lu, X., Lu, Z., Gu, J., 2008, Dynamic modeling and simulation of an Organic Rankine Cyle (ORC) system for waste heat recovery, Applied Thermal Engineering, vol. 28 : p. 1216-1224.
  • [18] Quoilin, S., Lemort, V., Lebrun, J., 2010, Experimental study and modeling of an organic Rankine cycle using scroll expander, Applied Energy, vol. 87 : p. 1260-1268.
  • [19] Lee, Y., Kuo, C., Wang, C., 2012, Transient response of a 50 kW organic Rankine cycle system, Energy, vol. 48 : p. 532-538.
  • [20] Bamgbopa, M., Uzgoren, E., 2013, Numerical analysis of an organic Rankine cycle under steady and variable heat input, Applied Energy, vol. 107 : p. 219-228.
  • [21] Miao, Z., Xu, J., Yang, X., Zou, J., 2015, Operation and performance of a low temperature organic Rankine cycle, Applied Thermal Engineering, vol. 75 : p. 1065-1075.
  • [22] Li, J., Pei,G., Ji, J., Bai, X., Li, P., Xia, L., 2014, Design of the ORC (organic Rankine cycle) condensation temperature with respect to the expander characteristics for domestic CHP (combined heat and power) applications, Energy, vol. 77 : p. 579-590.
  • [23] Akkaya AV, Pusat S, Basak MZ, Performance analysis of an organic Rankine cycle recovering waste gas heat, 10th International Conference on Clean Energy, Famagusta, N. Cyprus, September 15-17, 2010
  • [24] Akkaya AV, Bir termik santraldeki çapraz akışlı cebri sirkülasyonlu soğutma kulesinin analizi, 3. Anadolu enerji sempozyumu, Muğla, 1-3 Ekim 2015
  • [25] Klein S.A., Alvarado F.L., Engineering Equation Solver (EES), F-chart software, 2015

PERFORMANCE ANALYZING OF AN ORGANIC RANKINE CYCLE UNDER DIFFERENT AMBIENT CONDITIONS

Year 2017, , 1498 - 1504, 19.09.2017
https://doi.org/10.18186/journal-of-thermal-engineering.338897

Abstract

The goal of this study is
to develop a thermodynamic model in order to show the effect of ambient
conditions on performance of an Organic Rankine Cycle based power generation
system.  This system is simply consisted
of a turbine, a condenser, a boiler, pumps and a cooling tower. Each component
in this system is modeled based on energy and mass balance equations.  Then, the system model is obtained with
integration of component models. After that, simulation studies are iteratively
carried out to determine the performance of the considered system under
variation of ambient conditions such as dry bulb temperature and relative
humidity.
Simulation results show that that Organic Rankine Cycle performance
can be sensitive to the seasonal and daily variation of the ambient conditions.

References

  • [1] Tchanche, B., Petrissans, M., Papadakis, G., 2014, Heat resource and organic Rankine cycle machine, Renewable and Sustaunable Energy Reviews, vol, 39 : p. 1185-1199.
  • [2] Velez, F., Segovia, J., Martin, C., Antolin G., Chejne F., Quijano,A., 2012, A technical, economical and market review of organic Rankine cycles for the conversion of low-grade heat for power generation, Renewable and Sustainable Energy Reviews, vol. 16 : p. 4175-4189.
  • [3] Ziviani, D., Beyene, A., Venturini, M., 2014, Advances and challenges in ORC systems modeling for low grade thermal energy recovery, Applied Energy, vol. 121: p. 79-95.
  • [4] Joan, B., Jesús, L., Eduardo, L., Silvia, R., Alberto, C., 2008, Modelling and optimisation of solar organic Rankine cycle engines for reverse osmosis desalination, Applied Thermal Engineering, vol. 28 : p. 2212–2226.
  • [5] Pei, G., Li, J., Ji, J., 2010, nalysis of low temperature solar thermal electric generation using regenerative organic Rankine cycle, Applied Thermal Engineering, vol. 30 : p. 998–1004.
  • [6] Liu, B., Chien, K., Wang, C., 2004, Effect of working fluids on organic Rankine cycle for waste heat recovery, Energy, vol. 29 : p. 1207–1217.
  • [7] Dai, Y., Wang, J., Gao, L., 2009, Parametric optimization and comparative study of organic Rankine cycle (ORC) for low grade waste heat recovery, Energy Conversion and Management, vol. 50 : p. 576–582.
  • [8] Srinivasan, K., Mago, P., Krishnan, S.,2010, Analysis of exhaust waste heat recovery from a dual fuel low temperature combustion engine using an organic Rankine cycle, Energy, vol. 35 : p. 2387-2399.
  • [9] Zhou, N., Wang, X., Chen, Z., Wang, Z., 2013, Experimental study on Organic Rankine Cycle for wate heat recovery from low-temperature flue gas, Energy, vol. 55 : p. 216-225.
  • [10] Invernizzi, C., Iora, P., Silva, P.,2007, Bottoming micro-Rankine cycles for micro-gas turbines, Applied Thermal Engineering, vol. 27 : p. 100–110.
  • [11] Martina, P., Shane, W., Philip, O., 2010, Evaluation of energy efficiency of various biogas production and utilization pathways, Applied Energy, vol. 87 : p. 3305–3321.
  • [12] Gu, Z., Sato, H., 2002, Performance of supercritical cycles for geothermal binary design, Energy Conversion and Management, vol. 43 : p. 961–971.
  • [13] Franco, A., Villani, M.,2009, Optimal design of binary cycle power plants for water-dominated, medium-temperature geothermal fields, Geothermics, vol. 38 : p. 379–391.
  • [14] Hung, T., 2001, Waste heat recovery of organic Rankine cycle using dry fluids, Energy Conversion and Management, vol. 42 : p. 539-553.
  • [15] Saleh, B., Koglbauer, G., Wendland, M., Fischer, J., 2007, Working fluids for lowtemperature organic Rankine cycles, Energy, vol. 32 : p. 1210-1221.
  • [16] Tung, T., Wang, S., Kuo, C., Pei, B., Tsai, K., 2010, A study of organic working fluids on system efficiency of an ORC using low-grade energy sources, Energy, vol.35 : p. 1403-1411.
  • [17] Wei, D., Lu, X., Lu, Z., Gu, J., 2008, Dynamic modeling and simulation of an Organic Rankine Cyle (ORC) system for waste heat recovery, Applied Thermal Engineering, vol. 28 : p. 1216-1224.
  • [18] Quoilin, S., Lemort, V., Lebrun, J., 2010, Experimental study and modeling of an organic Rankine cycle using scroll expander, Applied Energy, vol. 87 : p. 1260-1268.
  • [19] Lee, Y., Kuo, C., Wang, C., 2012, Transient response of a 50 kW organic Rankine cycle system, Energy, vol. 48 : p. 532-538.
  • [20] Bamgbopa, M., Uzgoren, E., 2013, Numerical analysis of an organic Rankine cycle under steady and variable heat input, Applied Energy, vol. 107 : p. 219-228.
  • [21] Miao, Z., Xu, J., Yang, X., Zou, J., 2015, Operation and performance of a low temperature organic Rankine cycle, Applied Thermal Engineering, vol. 75 : p. 1065-1075.
  • [22] Li, J., Pei,G., Ji, J., Bai, X., Li, P., Xia, L., 2014, Design of the ORC (organic Rankine cycle) condensation temperature with respect to the expander characteristics for domestic CHP (combined heat and power) applications, Energy, vol. 77 : p. 579-590.
  • [23] Akkaya AV, Pusat S, Basak MZ, Performance analysis of an organic Rankine cycle recovering waste gas heat, 10th International Conference on Clean Energy, Famagusta, N. Cyprus, September 15-17, 2010
  • [24] Akkaya AV, Bir termik santraldeki çapraz akışlı cebri sirkülasyonlu soğutma kulesinin analizi, 3. Anadolu enerji sempozyumu, Muğla, 1-3 Ekim 2015
  • [25] Klein S.A., Alvarado F.L., Engineering Equation Solver (EES), F-chart software, 2015
There are 25 citations in total.

Details

Journal Section Articles
Authors

Ali Volkan Akkaya

Publication Date September 19, 2017
Submission Date September 19, 2017
Published in Issue Year 2017

Cite

APA Akkaya, A. V. (2017). PERFORMANCE ANALYZING OF AN ORGANIC RANKINE CYCLE UNDER DIFFERENT AMBIENT CONDITIONS. Journal of Thermal Engineering, 3(5), 1498-1504. https://doi.org/10.18186/journal-of-thermal-engineering.338897
AMA Akkaya AV. PERFORMANCE ANALYZING OF AN ORGANIC RANKINE CYCLE UNDER DIFFERENT AMBIENT CONDITIONS. Journal of Thermal Engineering. October 2017;3(5):1498-1504. doi:10.18186/journal-of-thermal-engineering.338897
Chicago Akkaya, Ali Volkan. “PERFORMANCE ANALYZING OF AN ORGANIC RANKINE CYCLE UNDER DIFFERENT AMBIENT CONDITIONS”. Journal of Thermal Engineering 3, no. 5 (October 2017): 1498-1504. https://doi.org/10.18186/journal-of-thermal-engineering.338897.
EndNote Akkaya AV (October 1, 2017) PERFORMANCE ANALYZING OF AN ORGANIC RANKINE CYCLE UNDER DIFFERENT AMBIENT CONDITIONS. Journal of Thermal Engineering 3 5 1498–1504.
IEEE A. V. Akkaya, “PERFORMANCE ANALYZING OF AN ORGANIC RANKINE CYCLE UNDER DIFFERENT AMBIENT CONDITIONS”, Journal of Thermal Engineering, vol. 3, no. 5, pp. 1498–1504, 2017, doi: 10.18186/journal-of-thermal-engineering.338897.
ISNAD Akkaya, Ali Volkan. “PERFORMANCE ANALYZING OF AN ORGANIC RANKINE CYCLE UNDER DIFFERENT AMBIENT CONDITIONS”. Journal of Thermal Engineering 3/5 (October 2017), 1498-1504. https://doi.org/10.18186/journal-of-thermal-engineering.338897.
JAMA Akkaya AV. PERFORMANCE ANALYZING OF AN ORGANIC RANKINE CYCLE UNDER DIFFERENT AMBIENT CONDITIONS. Journal of Thermal Engineering. 2017;3:1498–1504.
MLA Akkaya, Ali Volkan. “PERFORMANCE ANALYZING OF AN ORGANIC RANKINE CYCLE UNDER DIFFERENT AMBIENT CONDITIONS”. Journal of Thermal Engineering, vol. 3, no. 5, 2017, pp. 1498-04, doi:10.18186/journal-of-thermal-engineering.338897.
Vancouver Akkaya AV. PERFORMANCE ANALYZING OF AN ORGANIC RANKINE CYCLE UNDER DIFFERENT AMBIENT CONDITIONS. Journal of Thermal Engineering. 2017;3(5):1498-504.

IMPORTANT NOTE: JOURNAL SUBMISSION LINK http://eds.yildiz.edu.tr/journal-of-thermal-engineering