A review of thermally activated cooling technologies for combined cooling, heating and power systems

被引:329
作者
Deng, J. [1 ,2 ]
Wang, R. Z. [1 ]
Han, G. Y. [2 ]
机构
[1] Shanghai Jiao Tong Univ, Inst Refrigerat & Cryogen, Shanghai 200240, Peoples R China
[2] Xuzhou AF Coll, Dept Aerial Stn 4, Xuzhou 221006, Peoples R China
关键词
Heat powered cycles; Thermally activated cooling; Absorption cooling; Adsorption cooling; Desiccant cooling; CCHP system; SELECTIVE WATER SORBENTS; AIR-CONDITIONING SYSTEM; SILICA-GEL PORES; PERFORMANCE ANALYSIS; ABSORPTION-REFRIGERATION; MULTIPLE APPLICATIONS; ADSORPTION CHILLER; WASTE HEAT; FUEL-CELL; ECONOMIC-FEASIBILITY;
D O I
10.1016/j.pecs.2010.05.003
中图分类号
O414.1 [热力学];
学科分类号
摘要
The state of the art of research in thermally activated cooling technologies for combined cooling, heating and power (CCHP) systems are presented here in detail, mainly including absorption and adsorption refrigeration, and desiccant cooling. A basic description of thermally activated cooling is given first. Next, according to the diverse categories of thermally activated cooling, the working principles, products markets available or under development, diverse combinations of thermally activated technologies in CCHP applications or experimental units, and existing problems are listed and discussed through a comprehensive review of the literature. Furthermore, more recent advanced research of thermally activated cooling in innovative concept, material and technologies are included. Finally, detailed summary and suggestions are proposed for proper utilization of thermally activated cooling technologies, and the future development roadmap and preferred strategies are also outlined. The review will demonstrate that thermally activated cooling technologies are attractive alternatives that not only serve the need for air-conditioning, refrigeration, dehumidification, and augmenting prime movers, but also can meet the demand for energy conservation and environmental protection. (C) 2010 Elsevier Ltd. All rights reserved.
引用
收藏
页码:172 / 203
页数:32
相关论文
共 146 条
  • [31] Laboratory research on combined cooling, heating and power (CCHP) systems
    Fu, L.
    Zhao, X. L.
    Zhang, S. G.
    Jiang, Y.
    Li, H.
    Yang, W. W.
    [J]. ENERGY CONVERSION AND MANAGEMENT, 2009, 50 (04) : 977 - 982
  • [32] Emission operational strategy for combined cooling, heating, and power systems
    Fumo, Nelson
    Mago, Pedro J.
    Chamra, Louay M.
    [J]. APPLIED ENERGY, 2009, 86 (11) : 2344 - 2350
  • [33] Garland P., 2003, Chp for buildings integration: test centers at ornl and university of maryland. oak ridge national laboratory
  • [34] Experimental investigation on a one-rotor two-stage rotary desiccant cooling system
    Ge, T. S.
    Dai, Y. J.
    Wang, R. Z.
    Li, Y.
    [J]. ENERGY, 2008, 33 (12) : 1807 - 1815
  • [35] Glav B.O., 1966, U.S. Patent, Patent No. 3251402
  • [36] Theoretical and experimental evaluation of an indirect-fired GAX cycle cooling system
    Gomez, V. H.
    Vidal, A.
    Best, R.
    Garcia-Valladares, O.
    Velazquez, N.
    [J]. APPLIED THERMAL ENGINEERING, 2008, 28 (8-9) : 975 - 987
  • [37] Sepiolite-based adsorbents as humidity controller
    González, JC
    Molina-Sabio, M
    Rodríguez-Reinoso, F
    [J]. APPLIED CLAY SCIENCE, 2001, 20 (03) : 111 - 118
  • [38] Composites "lithium halides in silica gel pores": Methanol sorption equilibrium
    Gordeeva, Larisa G.
    Freni, Angelo
    Krieger, Tamara A.
    Restuccia, Giovanni
    Aristov, Yuri I.
    [J]. MICROPOROUS AND MESOPOROUS MATERIALS, 2008, 112 (1-3) : 254 - 261
  • [39] Haberle A., 2007, Proceedings of the second international conference solar air-conditioning, P662
  • [40] Performance analysis of dehumidification rotating wheel using liquid desiccant
    Hamed, AM
    Khalil, A
    Kabeel, AE
    Bassuoni, MM
    Elzahaby, AM
    [J]. RENEWABLE ENERGY, 2005, 30 (11) : 1689 - 1712