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无散热损失的热泵型供热系统研究 被引量:2

Study on a heat-loss free heat pump heating system
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摘要 提出了一种可在环境温度下实现能量输运的供热系统。该系统利用吸收式热泵原理,以氨水为工作流体,发生器和冷凝器布置在热源端,而吸收器和蒸发器布置在热用户端,利用吸收器中溶液吸收蒸气所放出的吸收热来提供热能。由于采用质量分数不同的氨水作为能量载体,因此,可以在环境温度下实现能量输运,没有散热损失;同时,由于该系统利用潜热供热,大大减少了泵功耗。分析结果表明,当供热距离较远时,该系统具有明显优势。 Presents a heating system based on absorption heat pumps, in which energy can be transferred by ammonia-water solutions at an ambient temperature. The absorber and evaporator are located at the heat demand side while the generator and condenser at the heat supply side, and the absorption heat in the absorber is supplied to heat consumers. The energy is transferred by the latent heat of absorption solutions with different concentrations, so to avoid the heat loss during the transferring process, the pump-consumed power is much lowered due to the latent heat between the ammonia solutions with different concentration is very large. This system has more remarkable
作者 江守利 程文龙 赵锐 陈则韶
机构地区 中国科学技术大学
出处 《暖通空调》 北大核心 2007年第12期66-69,76,共5页 Heating Ventilating & Air Conditioning
关键词 吸收式热泵 供热系统 氨水 absorption type heat pump, advantage for longer transportation distance heating system, ammonia-water solution
分类号 TU833 [建筑科学—供热、供燃气、通风及空调工程]
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参考文献3

  • 1李良梧.空气调节新学理与吸收冷冻工程学[M].台北:中志文化事业有限公司,1998:129-164.
  • 2Kang Y T, Akisawa A, Sambe Y, et al.Absorption heat pump system for solution transportation at ambient temperature--STA cycle[J]. Energy, 2003, 25(4) :355-370.
  • 3Tillner-Roth R, Friend D G. Helmholtz free energy formulation of the thermodynamic properties of the mixture { water+ ammonia} [J]. Journal of Physical and Chemical Reference Data, 1998,27 (1) : 63-96.

同被引文献24

  • 1Liu Q S, Yabe A, Kajiyama S, et al. A review of study on thermal energy transport system by synthesis and decomposition reactions of methanol [J]. JSME International Journal, Series B, 2002, 45 (3) :473-480.
  • 2Fujita Y, Shikata I, Kawai A, et al. Latent heat storage and transportation system "TransHeat Container" [C]//IEA/ ECES Annex 18, 1 st workshop and Expert Meeting, 2006, Tokyo, Japan.
  • 3Ogura H. Waste heat recycling system using chemical heat pump container [C]//IEA, ECES IA Annex 17, Advanced thermal energy storage through phase change materials and chemical reactions-feasibility studies and demonstration projects. 3rd Workshop, 2002, Tokyo, Japan.
  • 4Kato Y. Possibility of chemical heat storage in thermal energy transportation market [C]//IEA, ECES IA Annex 18, Transportation of Energy utilizing Thermal Energy Storage Technology, 1 st Workshop, 2006, Tokyo, Japan.
  • 5Kang B H, Yabe A. Performance analysis of a metalhydride heat transformer for waste heat recovery [J]. Applied Thermal Engineering, 1996, 16 (8-9) :677-690.
  • 6Takeda H, Kabutomori T, Wakisaka Y, et al. Characteristics of heat-hydrogen gas energy conversion and hydrogen gas transportation using hydrogen absorbing alloy [J]. Journal of Alloys and Compounds, 1997, 253-254:677-681.
  • 7Nasako K, Ito Y, Osumi M. Intermittent heat transport using hydrogen absorbing alloys[J]. International Journal of Hydrogen Energy, 1998; 23 (9) :815-824.
  • 8Nasako K, Ito Y, Osumi M. Long-distance heat transport system using a hydrogen compressor [J]. International Journal of Hydrogen Energy, 1998, 23 (10) :911-919.
  • 9Hasegawa H, Ishitani H, Matsuhashi R, et al. Analysis on waste-heat transportation systems with different heatenergy carriers [J]. Applied Energy, 1998, 61:1-12.
  • 10Srivastava N C, Eames I W. A reviews of adsorbents and adsorbates in solid-vapour adsorption heat pump systems [J]. Applied Thermal Engineering, 1998, 18:707-714.

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二级引证文献11

暖通空调
2007年 第12期

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