Heat resources and organic Rankine cycle machines

Renewable and Sustainable Energy Reviews

Volumn 39, Issue , 2014, Pages 1185-1199

  Tchanche, Bertrand F ^a,b   Petrissans M ^b   Papadakis, G ^c  

^a ESIEE PARIS   (France)

^b UNIVERSITÉ DE LORRAINE   (France)

^c AGRICULTURAL UNIVERSITY OF ATHENS   (Greece)

Author keywords

Biomass; Geothermal; Organic Rankine cycles; OTEC; Solar; Waste heat

Indexed keywords

BIOMASS; COST ENGINEERING; COSTS; GEOTHERMAL ENERGY; WASTE HEAT;

AMMONIA/WATER MIXTURE; CAPITAL COSTS; GEOTHERMAL; INVESTMENT COSTS; ORGANIC RANKINE CYCLES; OTEC; SOLAR; SYSTEM INTEGRATION;

RANKINE CYCLE;

EID: 84906494920     PISSN: 13640321     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.rser.2014.07.139     Document Type: Review

References (86)

1. Obernberger I, Hammerschmid A. Biomass fired CHP plant based on an ORC cycle - Project ORC-STIA-Admont, Final Report, Bios-energy systems; 2001.
2. I. Obernberger, P. Thonhofer, and E. Reisenhofer Description and evaluation of the new 1000 kWel organic rankine cycle process integrated in the biomass CHP plant in Lienz, Austria Euroheat and Power 2002
3. G. Qiu, Y. Shao, J. Li, H. Liu, and S.B. Riffat Experimental investigation of a biomass-fired ORC-based micro-CHP for domestic applications Fuel 96 2012 3748 3782
4. A. Rentizelas, S. Karellas, E. Kakaras, and I. Tatsiopoulos Comparative techno-economic analysis of ORC and gasification for bioenergy applications Energy Convers Manag 50 2009 674 681
5. M. Aneke, B. Agnew, C. Underwood, H. Wu, and S. Masheiti Power generation from waste heat in a food processing application Applied Thermal Engineering 36 2012 171 180
6. P.S. Bundela, and V. Chawla Sustainable development through waste heat recovery Am J Environ Sci 6 2010 83 89
7. T.C. Hung, T.Y. Shai, and S.K. Wang A review of organic rankine cycles (ORCs) for the recovery of low-grade waste heat Energy 22 1997 661 667 (Pubitemid 27206837)
8. G.C. Nihous A preliminary assessment of ocean thermal energy conversion resources ASME J Energy Resour Technol 129 2007 10 17 (Pubitemid 46722303)
9. Magesh R. OTEC technology - a world of clean energy and water. In: Proceedings of the World Congrees on Engineering, London, UK, June 30-July 2; 2010.
10. Orosz MS, Mueller A, Quoilin S, Hemond H. Small scale solar ORC system for distributed power, SolarPaces Conference, Berlin, Germany; 2009.
11. B.F. Tchanche, G. Papadakis, G. Lambrinos, and A. Frangoudakis Fluid selection for a low-temperature solar organic Rankine cycle Appl Therm Eng 29 2009 2468 2476
12. Bao JJ, Zhao L, Zhang WZ. A novel auto-cascade low-temperature solar Rankine cycle system for power generation. Solar Energy; vol. 85: p. 2710-719.
13. J.L. Wang, L. Zhao, and X.D. Wang An experimental study on the recuperative low temperature solar Rankine cycle using R245fa Appl Energy 94 2012 34 40
14. T. Guo, H.X. Wang, and S.J. Zhang Fluids and parameters optimization for a novel cogeneration system driven by low-temperature geothermal sources Energy 36 2011 2639 2649
15. A. Borsukiewicz-Gozdur, and W. Nowak Maximising the working fluid flow as a way of increasing power output of geothermal power plant Appl Therm Eng 27 2007 2074 2078 (Pubitemid 46603292)
16. M. Aneke, B. Agnew, and C. Underwood Performance analysis of the Chena binary geothermal power plant Appl Therm Eng 31 2011 1825 1832
17. Bronicki LY. Organic Rankine cycles in geothermal power plants - 25 years of ORMAT experience. GRC Annual Meeting Reno, NV; 2007.
18. Z. Guzovic, B. Majcen, and S. Cvetkovic Possibilities of electricity generation in the Republic of Croatia from medium-temperature geothermal sources Appl Energy 98 2012 404 414
19. Li T, Zhu J, Zhang W. Cascade utilization of low temperature geothermal water in oilfield combined power generation, gathering heat tracing and oil recovery. Applied Thermal Engineering; vol. 40: p. 27-35.
20. Quoilin S, Lemort V. Technological and economical survey of organic Rankine cycle systems. In: Proceedings of the 5th European Conference on Economics and Management of Energy in Industry, Algarve, Portugal; 2009.
21. B.F. Tchanche, G.r. Lambrinos, A. Frangoudakis, and G. Papadakis Low-grade heat conversion into power using organic Rankine cycles - a review of various applications Renew Sustainable Energy Rev 15 2011 3963 3979
22. M.J. Moran, and H.N. Shapiro Fundamentals of engineering thermodynamics 2006 John Wiley & Sons, Inc. USA
23. T.C. Hung, T.Y. Shai, and S.K. Wang A review of organic Rankine cycles (ORCs) for the recovery of low-grade waste heat Energy 22 1998 661 667 (Pubitemid 27206837)
24. W.C. Anderson, and T.J. Bruno Rapid screening of fluids for chemical stability in organic Rankine cycle applications Ind Eng Chem 44 2005 5560 5566
25. P.J. Mago, L.M. Chamra, K. Srinivasan, and C. Somayaji An examination of regenerative organic Rankine cycles using dry fluids Appl Therm Eng 28 2008 998 1007 (Pubitemid 351312696)
26. A. Schuster, S. Karellas, and R. Aumann Efficiency optimization potential in supercritical Organic Rankine Cycles Energy 35 2009 1033 1039
27. B. Saleh, G. Koglbauer, M. Wendland, and J. Fischer Working fluids for low-temperature organic Rankine cycles Energy 32 2007 1210 1221 (Pubitemid 46453001)
28. H. Chen, D.Y. Goswami, M.M. Rahman, and E.K. Stefanakos A supercritical Rankine cycle using zeotropic mixture working fluids for the conversion of low-grade heat into power Energy 36 2011 549 555
29. Cengel YA,Boles MA. Thermodynamics: an engineering approach; 2001.
30. E.G. Feher The supercritical thermodynamic power cycle Energy Convers 8 1968 85 90
31. Karellas S, Schuster A, Leontaritis A-D. Influence of supercritical ORC parameters on plate heat exchanger design. Applied Thermal Engineering; vol. 33: p. 70-6.
32. Y. Chen, P. Lundqvist, A. Johansson, and P. Platell A comparative study of the carbon dioxide transcritical power cycle compared with an organic rankine cycle with R123 as working fluid in waste heat recovery Appl Therm Eng 26 2006 2142 2147 (Pubitemid 43928776)
33. E. Cayer, N. Galanis, M. Desilets, H. Nesreddine, and P. Roy Analysis of a carbon dioxide transcritical power cycle using a low temperature source Appl Energy 86 2008 1055 1063
34. X-R Zhang, H. Yamaguchi, and Y. Cao Hydrogen production from solar energy powered supercritical cycle using carbon dioxide International Journal of Hydrogen Energy 35 2010 4925 4932
35. Vanslambrouck B, Vankeirsbilck I, Gusev S, De Paepe M. Turn waste heat into electricity by using an Organic Rankine Cycle. In: Proceedings of the 2nd European confernce on polygeneration, Tarragona, Spain; 2011.
36. T. Srinivas, and A.V.S.S.K.S. Gupta Generalized Thermodynamic analysis of steam power cycle with 'n' number of feedwater heaters Int J Thermodyn 10 2007 177 185 (Pubitemid 351181203)
37. N. Galanis, E. Cayer, P. Roy, E.S. Denis, and M. Desilets Electricity generation from low temperature soures J App Fluid Mech 2 2009 55 67
38. O.M. Ibrahim, and S.A. Klein Absorption power cycles Energy 21 1996 21 27 (Pubitemid 126685261)
39. H.A. Mlcak Kalina cycle concepts for low temperature geothermal Geothermal Res Council Trans 26 2002 707 713
40. Kalina, AI. Generation of energy, US Patent; 1984.
41. R. DiPippo Second Law assessment of binary plants generating power from low-temperature geothermal fluids Geothermics 33 2004 565 586
42. P. Bombarda, C.M. Invernizzi, and C. Pietra Heat recovery from diesel engines: a thermodynamic comparison between Kalina and ORC cycles Applied Thermal Engineering 30 2010 212 219
43. Uehara H, Ikegami Y, Nishida T. Performance analysis of OTEC using new cycle with absorption and extraction process, in Proc. of Oceanology International, 8-11 March 1994, Brighton, UK
44. Uehara H, Ikegami Y, Nishida T, Kikuchi S, Tsuboi K. OTEC system using Uehara cycle. In: Proceedings of the International OTEC/DOWA Association Conference; 1997.
45. F. Xu, D.Y. Goswami, and S.S. Bhagwat A combined power/cooling cycle Energy 25 2000 233 246 (Pubitemid 30170817)
46. D.Y. Goswami Solar thermal power technology: present status and ideas for the future Energy Sour 20 1998 153 162
47. G.O. Tamm Experimental investigation of an ammonia-based combined power and cooling cycle 2003 University of Florida USA
48. S.M. Sandrameli, and D.Y. Goswami Optimum operating conditions for a combined power and cooling thermodynamic cycle Appl Therm Eng 84 2007 254 265 (Pubitemid 44708480)
49. S. Vijayaraghavan, and D.Y. Goswami A combined power and cooling cycle modified to improve resource utilization efficiency using a distillation stage Energy 31 2006 1177 1196 (Pubitemid 43254718)
50. S. Vijayaraghavan Thermodynamic studies on alternate binary working fluid combinations and configurations for a combined power and cooling cycle 2003 University of Florida USA
51. M. Pouraghaie, K. Atashkari, S.M. Besarati, and N. Nariman-zadeh Thermodynamic performance optimization of a combined power/cooling cycle Energy Convers Manag 51 2010 204 211
52. M.H. Duku, S. Gu, and E.B. Hagan A comprehensive review of biomass resources and biofuels in Ghana Renew Sustainable Energy Rev 15 2011 404 415
53. M.F. Demirbas, M. Balat, and H. Balat Potential contribution of biomass to the sustainable energy development Energy Convers Manag 50 2009 1746 1760
54. A. Demirbas Importance of biomass energy sources for Turkey Energy policy 36 2008 834 842
55. W.H. Avery, and W.G. Berl Solar energy from the tropical oceans Int J Hydrogen Energy 24 1999 295 298
56. Office of Technology Assessment (OTA), Renewable Ocean Energy Sources: Part I - ocean thermal Energy Conversion, Congress of the US, Washington; 1978.
57. International energy agency (IEA), Key world energy statistics; 2011.
58. Endo T, Kawajiri S, Kojima Y, Takahashi K, Baba T, Ibaraki S, et al., Study on maximizing exergy in automotive engines, SAE world Congress, Detroit, Michigan; 2007.
59. BCS Inc. Waste heat recovery: technologies and opportunities in U.S. industry 2008 US Dept. of Energy (DOE)
60. Y. Ammar, S. Joyce, R. Norman, Y. Wang, and A.P. Roskilly Low grade thermal energy sources and uses from the process industry in the UK Appl Energy 89 2012 3 20
61. Rettig A, Lager M, Li S, Mahadea V, McCllion S, Chernushevich J. Application of organic Rankine cycles (ORC). World Engineer's convention, Geneva, Switzerland, 4-9 September; 2011.
62. P. Moriarty, and D. Honnery What energy levels can the Earth sustain? Energy Policy 37 2009 2469 2474
63. Goldstein BA, Hiriart G, Tester J, Bertrani B, Bromley R, Gutierrez-Negrin L, et al. Great expectations for geothermal energy to 2100. In: Proceedings of the 36th workshop on geothermal reservoir engineering, Stanford university, California, January 31-February 2; 2011.
64. Edenhofer O. Sokona, Y. Pichs-Madruga R. Special report on renewable energy sources and climate change mitigation. Intergovernmental Panel on Climate Change (IPCC) - Working Group 3; 2011.
65. Byrne, J, Kurdgelashvili, L, Yu, JM, Zhang, X, Tian, J, Rickerson, W, et al. World solar energy review: technology, markets and policies. Center for Energy and Environmental Policies Report; 2010.
66. S.A. Kalogirou Solar thermal collectors and applications Prog Energy Combustion Sci 30 2004 231 295
67. BEP Europe. http://www.e-rational.net; May 2014.
68. Opcon. http://www.opcon.se; May 2014.
69. Οrmat Inc. http://www.ormat.com/; May 2014.
70. Εlectratherm. http://www.electratherm.com; May 2014.
71. Turboden. Application of ORC units in sawmills. Technical-economic considerations. Available from: www.turboden.it/; May 2014, 2008.
72. Triogen http://www.triogen.nl; May 2014.
73. Motta SY, Spatz M, Becerra EV. Analysis of LGWP alternatives for small refrigeration (plugin) applications. Dowloaded from www.honeywell-orc.com/; May 2014.
74. A.I. Papadopoulos, M. Stijepovic, and P. Linke On the systematic design and selection of optimal working fluids for Organic Rankine Cycles Appl Therm Eng 30 2010 760 769
75. Tchanche, BF, Pétrissans, M, Loonis, P. Fluids for low-temperature thermodynamic power cycles. In: Proceedings of the International Exergy, Life Cycle Analysis and Sustainability Workshop & Symposium, Nisyros, Greece; 7-9 July 2013.
76. Tchanche BF, Loonis P, Pétrissans M, Ramenah H. Organic Rankine cycles: principles, opportunities and challenges. In: Proceedings of the 25th International Conference on Microelectronics (ICM2013), Beirut - Labanon, 15-18 December; 2013.
77. A. Chauhan, and R. Vaish Fluid selection of organic Rankine cycle using decision making approach J Comput Eng 2013 2013 1 10
78. M.Z. Stijepovic, P. Linke, A.I. Papadopoulos, and A.S. Grujic On the role of working fluid properties in Organic Rankine Cycle performance Applied Thermal Engineering 36 2012 406 413
79. S. Quoilin, M.V.D. Broek, Sb Declaye, P. Dewallef, and V. Lemort Techno-economic survey of Organic Rankine Cycle (ORC) systems Renewable Sustainable Energy Reviews 22 2013 168 186
80. C. Invernizzi, P. Iora, and P. Silva Bottoming micro-Rankine cycles for micro-gas turbines Appl Therm Eng 27 2007 100 110 (Pubitemid 44486888)
81. Tchanche BF, Quoilin S, Declaye S, Papadakis G, Lemort V. Economic feasibility study of a small scale organic rankine cycle system in waste heat recovery application. In: Proceedings of the 10th Biennal conference on engineering systems design and analysis (ESDA), Istanbul, Turkey, 12-14 July; 2010.
82. S. Quoilin, S. Declaye, B.F. Tchanche, and V. Lemort Thermo-economic optimization of waste heat recovery Organic Rankine Cycles Appl Therm Eng 31 2011 2885 2893
83. P. Arvay, M.R. Muller, and V. Ramdeen Economic implementation of the organic Rankine cycle in industry 2011 ACEEE Summer Study on Energy Efficiency in Industry USA 1 12
84. R. Chacartegui, J.M.d. Escalona, J.A. Becerra, A. Fernandez, and D. Sanchez Potential of ORC systems to retrofit CHP plants in wastewater treatment stations J Sustainable Dev Energy, Water Environ Syst 1 2012 352
85. Infinityturbine. www.infinityturbine.com; May 2014.
86. http://www.termocycle.com/; May 2014.