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硅胶-氯化锂复合干燥剂除湿转轮性能优化 被引量:7

Performance Optimization of Silica Gel-Lithium Chloride Composite Desiccant Dehumidification Wheel
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摘要 根据硅胶-氯化锂复合干燥剂除湿转轮的传质传热模型,分析了复合干燥剂除湿转轮运行参数、结构参数、物性参数对转轮除湿量的影响,提出了优化转轮除湿性能的途径。 Based on the model for heat and mass transfer in silica gel-lithium chloride composite desiccant dehumidification wheel, the influence of operation parameters, structure parameters and physi- cal parameters of the composite desiccant dehumidification wheel on the rotary dehumidification is analyzed. The way to optimize the rotary dehumidification performance is put forward.
作者 贾春霞 代彦军 吴静怡
机构地区 北方工业大学建筑工程学院 上海交通大学制冷与低温工程研究所
出处 《煤气与热力》 2008年第10期30-32,共3页 Gas & Heat
关键词 硅胶-氯化锂复合干燥剂 除湿转轮 传热 传质 性能优化 silica gel-lithium chloride composite desiccant dehumidification wheel heattransfer mass transfer performance optimization
分类号 TU995 [建筑科学—供热、供燃气、通风及空调工程]
  • 相关文献

参考文献7

  • 1BECCALI M. Simplified models for the performance evaluation of desiccant wheel dehumidification [ J ]. International Journal of Energy Research,2003,27( 1 ) :17 -29.
  • 2贾春霞,代彦军,吴静怡.潜热、显热分级处理的复合空调系统性能研究[J].暖通空调,2006,36(9):51-54. 被引量:7
  • 3ZHENG W,WOREK W M. Numerical simulation of combined heat and mass transfer process in a rotary dehumidifier [ J ]. Numerical Heat Transfer, 1993,23 ( Part A) :211 - 232.
  • 4MACLAINE-CROSS I L,BANKS P J. Coupled heat and mass transfer in regenerators - Prediction using an analogy with heat transfer [ J ]. Int. J. Heat Mass Transfer, 1972,15 (6) : 1225 - 1242.
  • 5张学军,代彦军,王如竹.蜂窝式除湿转轮的传热传质数学模型及其试验验证[J].机械工程学报,2005,41(1):82-87. 被引量:10
  • 6MAJUMDAR P. Heat and mass transfer in composite desiccant pore structures for dehumidification[ J ]. Solar Energy, 1998,62( 1 ) :1 - 10.
  • 7ZHENG W, WOREK W M, NOVESEL D. Performance optimization of rotary dehumidifier [ J ]. Journal of Solar Energy Engineering, 1995,117 ( 1 ) :40 - 44.

二级参考文献20

  • 1Pla-Barby F E, Vliet G C. Rotary bed solid desiccant drydyiing: an analytical and experimental investigation. In:Presentation at the Joint ASME/AIChE 18th National Heat Transfer Conference, San Diego, Calif., 1979:1-8.
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  • 3Van Den Bulck E, Mitchell J W, Klein S A. Design theory for rotary heat and mass exchangers--Ⅱ. effectiveness-number-of-transfer-units method for rotary heat and mass exchangers. Int. J. Heat Mass Transfer, 1985, 28(7):1 587-1 595.
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  • 5Collier R K, Cohen B M. An analytical examination of methods for improving the performance of desiccant cooling systems. Transactions of the ASME, Journal of Solar Energy Engineering, 1991, 113(1): 157-163.
  • 6Zheng W, Worek W M. Numerical simulation of combined heat and mass transfer process in a rotary dehumidifier.Numerical Heat Transfer, 1993, Part A, 23 : 211-232.
  • 7Zheng W, Worek W M, Novesel D. Performance optimization of rotary dehumidifiers. Journal of Solar Energy Engineering, 1995, 117(1): 40-44.
  • 8Dai Y J, Wang R Z, Zhang H F. Parameter analysis to improve rotary desiccant dehumidification using a mathematical model. Int. J. Therm. Sci., 2001, 40(4): 400--408.
  • 9Niu J L, Zhang L Z. Effects of wall thickness on the heat and moisture transfers in desiccant wheels for air dehumidification and enthalpy recovery. Int. Comm. Heat Transfer, 2002, 29(2): 255-268.
  • 10San J Y. Heat and mass transfer in a two-dimensional cross-flow regenerator with a solid conduction effect. Int. J.Heat Mass Transfer, 1993, 36(3): 633--643.

共引文献14

同被引文献64

引证文献7

二级引证文献16

煤气与热力
2008年 第10期

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