Thermodynamic analysis of a combined reheat regenerative thermal power plant and water-LiBr vapor absorption refrigeration system

Energy Conversion and Management

Volumn 78, Issue , 2014, Pages 595-610

  Gogoi, T K ^a   Talukdar, K ^a  

^a TEZPUR UNIVERSITY   (India)

Author keywords

Reheat regenerative power cycle; Thermodynamic analysis; Vapor absorption refrigeration system; Water lithium bromide

Indexed keywords

COEFFICIENT OF PERFORMANCE; COMPARATIVE PERFORMANCE ANALYSIS; EVAPORATOR TEMPERATURE; PERFORMANCE VARIATIONS; REGENERATIVE POWER; THERMO DYNAMIC ANALYSIS; VAPOR ABSORPTION REFRIGERATION SYSTEMS; WATER-LITHIUM BROMIDE;

AIR CONDITIONING; BOILERS; COOLING SYSTEMS; EVAPORATORS; FLOW RATE; POWER PLANTS; STEAM TURBINES; TEMPERATURE; THERMOANALYSIS; THERMOELECTRIC POWER PLANTS; VAPORS;

REHEAT CYCLE;

EID: 84890510282     PISSN: 01968904     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.enconman.2013.11.035     Document Type: Article

References (54)

1. M.I. Karamangil, S. Coskun, O. Kaynakli, and N. Yamankaradeniz A simulation study of performance evaluation of single-stage absorption refrigeration system using conventional working fluids and alternatives Renew Sustain Energy Rev 14 2010 1969 1978
2. L. Trygg, and S. Amiri European perspective on absorption cooling in a combined heat and power system - a case study of energy utility and industries in Sweden Appl Energy 84 2007 1319 1337
3. S. Ajib, and A. Karno Thermo physical properties of acetone-zinc bromide for using in a low temperature driven absorption refrigeration machine Heat Mass Transfer 45 2008 61 70
4. I. Pilatowsky, W. Rivera, and R.J. Romero Thermodynamic analysis of monomethylamine-water solutions in a single-stage solar absorption refrigeration cycle at low generator temperatures Solar Energy Mater Solar Cells 70 2001 287 300
5. 2O Int J Energy Res 22 1998 1099 1103
6. A. De Lucas, C. Donate, J. Villasenor, and J.F. Rodriguez Performance evaluation and simulation of a new absorbent for an absorption refrigeration system Int J Refrig 27 2004 324 330
7. C.A.I. Ferreira Thermodynamic and physical property data equations for ammonia-lithium nitrate and ammonia-sodium thiocyanate solutions Sol Energy 32 1984 231 236
8. 3OH + xLiBr for the application in absorption refrigeration machines and heat pumps J Chem Thermodyn 35 2003 1929 1937
9. J.T. Safarov Study of thermodynamic properties of binary solutions of lithium bromide or lithium chloride with methanol Fluid Phase Equilib 236 2005 87 95
10. V. Muthu, R. Saravanan, and S. Renganarayanan Experimental studies on R134a-DMAC hot water based vapour absorption refrigeration systems Int J Therm Sci 47 2008 175 181
11. R. Saravanan, and M.P. Maiya Thermodynamic comparison of water-based working fluid combinations for a vapor absorption refrigeration system Appl Therm Eng 18 1998 553 568
12. M. Donate, L. Rodriguez, A. De Lucas, and J.F. Rodriguez Thermodynamic evaluation of new absorbent mixtures of lithium bromide and organic salts for absorption refrigeration machines Int J Refrig 29 2006 30 35
13. S. Wu, and I.W. Eames Innovations in vapour-absorption cycles Appl Energy 66 2000 251 266
14. O. Kaynakli, and M. Kilic Theoretical study on the effect of operating conditions on performance of absorption refrigeration system Energy Convers Manage 48 2007 599 607
15. A.J. Khalid, and A.H. Lafta Simulation of a simple absorption refrigeration system Energy Convers Manage 42 2001 1575 1605
16. S.A. Adewusi, and S.M. Zubair Second law based thermodynamic analysis of ammonia-water absorption systems Energy Convers Manage 45 2004 2355 2369
17. O. Kaynakli, and M. Kilic Second law-based thermodynamic analysis of water-lithium bromide absorption refrigeration system Energy 32 2007 1505 1512
18. R. Gomri, and R. Hakimi Second law analyses of double effect vapour absorption cooler system Energy Convers Manage 49 2008 3343 3348
19. G.R. Figueredo, M. Bourouis, and A. Coronas Thermodynamic modeling of a two-stage absorption chiller driven at two-temperature levels Appl Therm Eng 28 2008 211 217
20. Gorri R. Thermodynamic evaluation of triple effect absorption chiller, thermal issues in emerging technologies, ThETA 2, Cairo, Egypt, 17-20th December, 2008.
21. R.D. Misra, P.K. Sahoo, S. Sahoo, and A. Gupta Thermoeconomic optimization of a single effect water/LiBr vapour absorption refrigeration system Int J Refrig 6 2003 158 169
22. 2O/LiBr vapour-absorption refrigeration system Int J Refrig 28 2005 331 343
23. R.D. Misra, P.K. Sahoo, and A. Gupta Thermoeconomic evaluation and optimization of an aqua-ammonia vapour-absorption refrigeration system Int J Refrig 29 2006 47 59
24. B.H. Gebreslassie, E.A. Groll, and S.V. Garimella Multi-objective optimization of sustainable single-effect water/lithium bromide absorption cycle Renew Energy 46 2012 100 110
25. V. Havelsky Energetic efficiency of cogeneration systems for combined heat, cold and power production Int J Refrig 22 1999 479 485
26. A.A. Manzela, S.M. Hanriot, L. Gomez Cabezas, and J.R. Sodre Using engine exhaust gas as energy source for an absorption refrigeration system Appl Energy 87 2010 1141 1148
27. F. Assilzadeh, S.A. Kalogirou, Y. Ali, and K. Sopian Simulation and optimization of a LiBr solar absorption cooling system with evacuated tube collectors Renew Energy 30 2005 1143 1159
28. V. Mittal, K.S. Kasana, and N.S. Thakur Performance evaluation of solar absorption cooling system of Bahal (Haryana) J Indian Inst Sci 85 2005 295 305
29. S.Q. Abu-Ein, S.M. Fayyad, W. Momani, and M. Al-Bousoul Performance analysis of solar powered absorption refrigeration system Int J Heat Mass Transfer 46 2009 137 145
30. A. Khaliq Exergy analysis of gas turbine trigeneration system for combined production of power heat and refrigeration Int J Refrig 32 2009 534 545
31. A.A. Hasan, G.Y. Goswami, and S. Vijayaraghavan First and second law analysis of a new power and refrigeration thermodynamic cycle using a solar heat source Sol Energy 73 2002 385 393
32. G. Tamm, D.Y. Goswami, S. Lu, and A.A. Hasan Theoretical and experimental investigation of an ammonia-water power and refrigeraton thermodynamic cycle Sol Energy 76 2004 217 228
33. F. Xu, D.Y. Goswami, and S.S. Bhagwat A combined power/cooling cycle Energy 25 2000 233 246
34. J.F. Wang, Y.P. Dai, and L. Gao Parametric analysis and optimization for a combined power and refrigeration cycle Appl Energy 85 2008 1071 1085
35. S.M. Sadrameli, and D.Y. Goswami Optimum operating conditions for a combined power and cooling thermodynamic cycle Appl Energy 84 2007 254 265
36. D. Zheng, B. Chen, Y. Qi, and H. Jin Thermodynamic analysis of a novel absorption power/cooling combined-cycle Appl Energy 83 2006 311 323
37. M. Liu, and N. Zhang Proposal and analysis of a novel ammonia-water cycle for power and refrigeration cogeneration Energy 32 2007 961 970
38. N. Zhang, and N. Lior Development of a novel combined absorption cycle for power generation and refrigeration J Energy Res Technol 129 2007 254 265
39. Y. Liang, G. Shu, H. Tian, X. Liang, H. Wei, and L. Liu Analysis of an electricity-cooling cogeneration system based on RC-ARS combined cycle aboard ship Energy Convers Manage 76 2013 1053 1060
40. Y. Dai, J. Wang, and L. Gao Exergy analysis, parametric analysis and optimization for a novel combined power and ejector refrigeration cycle Appl Therm Eng 29 2009 1983 1990
41. G.K. Alexis Performance parameters for the design of a combined refrigeration and electrical power cogeneration system Int J Refrig 30 2007 1097 1103
42. R. Yapici Performance characteristics of the ejector refrigeration system based on the constant area ejector flow mode Energy Convers Manage 46 2005 3117 3135
43. R. Yapici, and C.C. Yetisen Experimental study on ejector refrigeration system powered by low grade heat Energy Convers Manage 48 2007 1560 1568
44. T. Sankarlal, and A. Mani Experimental investigation on ejector refrigeration system with ammonia Renew Energy 32 2007 1403 1413
45. M.A. Habib, and S.M. Zubair Second-law-based thermodynamic analysis of regenerative-reheat Rankine-cycle power plants Energy 17 1992 295 301
46. I. Dincer, and H.A. Muslim Thermodynamic analysis of reheat cycle steam power plants Int J Energy Res 25 2001 727 739
47. Ameri Mohammad, Ahmadi Pouria, and Hamidi Armita Energy, exergy and exergoeconomic analysis of a steam power plant: a case study Int J Energy Res 33 2009 499 512
48. H. Aljundi Isam Energy and exergy analysis of a steam power plant in Jordan Appl Therm Eng 29 2009 324 328
49. Kaushik SC, Singh OK. Estimation of chemical exergy of solid, liquid and gaseous fuels used in thermal power plants. J Therm Anal Calorim. http://dx.doi.org/10:1007/s10973-013-3323-9.
50. P.K. Nag Power plant engineering 2nd ed. 2001 Tata McGraw Hill New Delhi, India
51. T.J. Kotas The exergy method of thermal plan analysis 1985 Butterworths London
52. Lansing FL. Computer modeling of a single stage lithium bromide/water absorption refrigeration unit, JPL Deep Space Network progress Report 42-32, DSN Engineering section. p. 247-57.
53. W. Wagner, J.R. Cooper, A. Dittmann, J. Kijima, H.J. Kretzschmar, and A. Kruse The IAPWS Industrial Formulation 1997 for the thermodynamic properties of water and steam J Eng Gas Turbine Power 122 2000 150 181
54. 2O solutions from 273 to 500 K over full composition range Int J Refrig 29 2006 566 578