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复合干燥剂转轮性能测试及其应用 被引量:16

Experimental Study on Composite Desiccant Wheel and Its Application in a Desiccant Cooling System
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摘要 测试了新型复合干燥剂和硅胶的平衡吸附性能.实验结果显示与常用硅胶干燥剂相比,前者的吸湿能力约是后者的2倍以上.为了进一步验证新型复合干燥剂优良的吸湿性能,设计了一台除湿机,测试了转速、再生温度对转轮除湿性能的影响,并且分析了在典型气候条件下,该除湿机在除湿冷却空调中的应用情况.结果表明,采用新型复合干燥剂的除湿冷却空调不仅出口空气的温湿度能够达到送风要求,而且系统性能系数(COP)能达到1.28,比采用硅胶干燥剂的系统COP提高了34.7%. A new composite desiccant used in the manufacture of dehumidifier was tested. The equilibrium adsorption test results show that the hygroscopic capacity of new composite desiccant is two times bigger than that of silica gel. In order to further evaluate the performance of composite desiccant, a dehumidifier was developed. The impacts of rotation speed and regeneration temperature on dehumidification performance were tested. And then the application of the dehumidifier in a desiccant cooling system was analyzed under typical climates. It is found that the temperature and relative humidity of outlet air, which is processed by the composite desiccant cooling system, meet the requirement of supplying air. The performance index COP of the composite desiccant cooling system is 34.7 % higher than that of silica gel desiccant cooling system.
作者 贾春霞 吴静怡 代彦军 王如竹
机构地区 上海交通大学制冷与低温工程研究所
出处 《上海交通大学学报》 EI CAS CSCD 北大核心 2006年第8期1283-1286,共4页 Journal of Shanghai Jiaotong University
基金 国家重点基础研究发展规划(973)项目(G2000026309) 上海市科委重点基础研究项目(02DJ14044)
关键词 复合干燥剂 硅胶 等温吸附线 除湿冷却系统 composite desiccant silica gel adsorption isotherm desiccant cooling system
分类号 TK173 [动力工程及工程热物理—热能工程]
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参考文献7

二级参考文献16

  • 1崔群,陈海军,姚虎卿.Studies on Benign Working Pairs for Adsorption Refrigeration[J].Journal of Southeast University(English Edition),2002,18(3):283-288. 被引量:1
  • 2Aistov Yu I Restuccia G Cacciola G et al. A family of new working materials for solid sorption sir conditioning systems [ J ]. Applied Thermal Engineering,2002, 22: 191-204.
  • 3Vasiliev L L, Mishkinis D A Antukh A A. Solar-gas solid sorption refrigerator [ J ]. Adsorption, 2001, 7(2) : 149 - 161.
  • 4Anyanwu E E. Review of solid adsorption solar refrigerator I: an overview of the refrigeration cycle [ J ].Enery Conversion and Management, 2003, 44 (2):301-312.
  • 5Cui Qun, Chen Haijun, Yao Huqing. Properties of Advanced Adsorbent for Solid Desiccant Cooling [ J ].Journal of Southest University (English Edition),2001, 17(2): 91-94.
  • 6Niu J L, Zhang L Z. Effects of wall thickness on the heat and moisture transfers in desiccant wheels for air dehumidification and enthalpy recovery[J]. Heat Mass Transfer, 2002, 29(2): 255-268.
  • 7Zhang L Z, Niu J L. Performance comparisons of desiccant wheels for air dehumidification and enthalpy recovery[J]. Applied Thermal Engineering,2002,22 : 1347- 1367.
  • 8张学军.[D].上海:上海交通大学机械与动力工程学院,2002.
  • 9张敏华,朱彦.直燃型氨-水 GAX 吸收式热泵的计算机仿真及研制[J].暖通空调,1997,27(6):34-37. 被引量:1
  • 10许煜雄,李明.平板式太阳能固体吸附式制冰机的设计[J].新能源,1999,21(9):6-10. 被引量:6

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上海交通大学学报
2006年 第8期

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