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Energy Sources, Part A: Recovery, Utilization, and Environmental Effects Volume 33, 2011 - Issue 17
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Original Articles

A New System to Produce Cooling and Power Using Solar Thermal Energy

Z. S. Abdel-Rehim Mechanical Engineering Department, National Research Center, Dokki, Giza, Egypt
Pages 1636-1650 | Received 10 Aug 2009, Accepted 23 Oct 2009, Published online: 15 Jun 2011

References

  • Amano , Y. , Suzuki , T. , Hashizume , T. , Akiba , M. and Tanzawa , Usui A. A hybrid power generation and refrigeration cycle with ammonia-water mixture . Paper IJPGC-15058: Proc. of Joint Power Generation Conf. ASME . pp. 6
  • Curran , H. M. 1988 . “ Mechanical systems and components. ” . In Active Solar Systems Edited by: Löf , G. Vol. 6 , Cambridge, MA : MIT Press. .
  • Goswami , D. Y. Solar thermal power: Status of technologies and opportunities for research . Heat and Mass Transfer. Proceedings of the 2nd ASME-ISHMT Heat and Mass Transfer Conference . pp. 57 – 60 . New Delhi, , India : Tata-McGraw Hill Publishers. .
  • Goswami , D. Y. and Xu , F. 1999 . Analysis of a new thermodynamic cycle for combined power and cooling using low and mid temperature solar collectors . Solar Energy Eng. J , 121 : 91 – 97 .
  • Kane , M. , Larrain , D. , Favrat , D. and Allani , Y. 2003 . Small hybrid solar power system . Energy , 28 : 1427 – 1443 .
  • Lu , S. and Goswami , D. Y. 2003 . Optimization of a novel combined power/refrigeration thermodynamic cycle . Solar Energy Eng. , 125 : 212 – 217 .
  • Lu , S. and Goswami , D. Y. Theoretical analysis of ammonia-based combined power/refrigeration cycle at low refrigeration temperatures . Proceedings of SOLAR . pp. 9 Reno, NV : American Society of Mechanical Engineers. .
  • Maloney , J. D. and Robertson , R. C. 1953 . Thermodynamic study of ammonia-water heat power cycles. ORNL Report CF: 53 8–43 Oak Ridge, TN : ORNL. .
  • Mittelman , C. , Kribus , A. and Dayan , A. 2007 . Solar cooling with concentrating photovoltaic/thermal (CPVT) system . Energy Convers. Manage , 48 : 2481 – 2490 .
  • Prigmore , D. and Barber , R. E. 1975 . Cooling with the sun's heat: Design considerations and test data for a Rankine cycle prototype . Solar Energy , 17 : 185 – 192 .
  • Smith , R. W. , Ranasinghe , J. , Stats , D. and Dykas , S. Kalina combined cycle performance and operability . Joint Power Generation Conference . pp. 701 – 727 . Houston, TX : ASME. .
  • Tamm , G. , Goswami , D. Y. , Lu , S. and Hasan , A. A. 2003 . Novel combined power and cooling thermodynamic cycle for low temperature heat sources, Part I: Theoretical investigation . Solar Energy Eng. J , 125 : 218 – 222 .
  • Tamm , G. and Goswami , D. Y. 2003 . Novel combined power and cooling thermodynamic cycle for low temperature heat sources, Part II: Experimental investigation . Solar Energy Eng. J , 125 : 223 – 229 .
  • Vijayaraghavan , S. 2003 . Thermodynamic studies on alternate binary working fluid combinations and configurations for a combined power and cooling cycle , Ph.D. dissertation Gainesville, FL : University of Florida. .
  • Vijayaraghavan , S. and Goswami , D. Y. 2005 . Organic working fluids for a combined power and cooling cycle . Energy Res. Technol. J , 127 : 125 – 130 .
  • Xu , F. and Goswami , D. Y. 1999 . Thermodynamic properties of ammonia-water mixtures for power-cycle applications . Energy , 24 : 525 – 536 .
  • Xu , F. , Goswami , D. Y. and Bhagwat , S. S. 2000 . A combined power/cooling cycle . Energy , 25 : 233 – 246 .
  • Zhang , N. , Cai , R. and Lior , N. A Novel Ammonia-Water Cycle for Power and Refrigeration Cogeneration. IMECE2004–60692 . Proc. of IMECE . pp. 14 Anaheim, CA : ASME. .
  • Zhai , X. Q. , Wang , R. Z. , Wu , J. Y. , Dai , Y. J. , Xu , Y. X. and Ma , Q. 2007 . Solar integrated energy system for a green building . Energy Build , 39 : 985 – 993 .
  • Zhai , X. Q. , Wang , R. Z. , Wu , J. Y. , Dai , Y. J. and Ma , Q. 2008 . Design and performance of a solar powered air-conditioning system in a green building . Appl. Energy , 85 : 297 – 311 .

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