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以R32+R134a/DMF作为工质的自行复叠吸收制冷循环性能分析 被引量:3

Performance Study on Auto-cascade Absorption Refrigeration Cycle Using R32+R134a/DMF as Working Pairs
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摘要 建立了自行复叠吸收制冷(ACAR)循环的数学物理模型,以R32+R134a/DMF作为工质,对循环性能进行了分析,得到了制冷剂成分、发生温度、冷凝温度及吸收温度等的变化对系统性能所产生的影响。 The model was presented to investigate the performance of Auto- cascade Absorption Refrigeration Cycle (ACAR) using R32 + R134a/DMF as working pairs in this study. The effects of the factors such as composition of working pairs, generation temperature, condensation temperature, and absorption temperature, on the performance of the cycle were also calculated and analyzed.
作者 陈光明 房杉 孟祥锋
机构地区 浙江大学制冷与低温研究所
出处 《制冷学报》 CAS CSCD 北大核心 2006年第4期31-36,共6页 Journal of Refrigeration
基金 国家自然科学基金资助项目(50276054)
关键词 热工学 自行复叠 吸收制冷 性能分析 Pyrology Auto - cascade Absorption refrigeration Performance study
分类号 TB612 [一般工业技术—制冷工程] TB616 [一般工业技术—制冷工程]
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参考文献7

  • 1Jose Fernendez- Seam, Jaime Sieres, Manuel Vazquez. Absorption Refrigeration Prototype for Onboard Cooling Productionin Fishing Vessels. In: ISHPC' 02, Proc of the Int Serption Heat Pump Conf, Shanghai, 2002,130 - 135
  • 2Bassols J, Kuckelkom B, Langreck B, et al. Trigeneration in the Food Industry. Applied Thermal Engineering, 2002, 22:595 - 602
  • 3Bruno J C, et al. Efficiency Improvement in Oil Refining Process Using Absorption Refrigeration Plants Driven by Waste Heat In: ISHPC' 02, Proc of the Int Sorption Heat Pump Conf, Shanghai, 2002,111- 116
  • 4钟永芳,陈光明.用于深度冷冻的自行复叠吸收制冷循环理论研究[J].太阳能学报,2002,23(6):786-790. 被引量:8
  • 5Zhong Y, Chen G. Theoretical and Experimental Study of a New Absorption Refrigeration Cycle. ASHRAE Transactions,2003, Vol.110, Part 1,508-514
  • 6何一坚,陈光明.吸收制冷循环极限制冷温度研究[J].工程热物理学报,2004,25(6):917-920. 被引量:4
  • 7何一坚,洪荣华,陈光明.热驱动深度制冷循环[J].科学通报,2005,50(3):287-291. 被引量:2

二级参考文献30

  • 1[1]Massamba Thioye. Performance Improvement of Absorption Cooling Systems by Using Staged Absorption and Desorption Cycle. International Journal of Refrigeration,1997, 20(2): 136-145
  • 2[2]Berlitz T, Plank H, Ziegler F, et al. An Ammonia-Water Absorption Refrigerator with a Large Temperature Lift for Combined Heating and Cooling. International Journal of Refrigeration, 1998, 21(3): 219-229
  • 3[3]Jelinek M, Borde I. Single- and Double-Stage Absorption Cycles Based on Fluorocarbon Refrigerants and Organic Absorbents. Applied Thermal Engineering, 1998,18:765-771
  • 4[4]Jose Fernendez-Seara, Alberto Vales, Manuel Vazquez.Heat Recovery System to Power an Onboard NH3-H2O Absorption Refrigeration Plant in Trawler Chiller Fishing Vessels. Applied Thermal Engineering, 1998, 18: 1189-1205
  • 5[5]Jose Fernendez-Seara, Jaime Sieres, Manuel Vazquez.Absorption Refrigeration Prototype for Onboard Cooling Production in Fishing Vessels. In: ISHPC'02, Proc. o f the Int. Sorption Heat Pump Conf.. Shanghai, 2002.130-135
  • 6[6]Bassols J, Kuckelkorn B, Langreck B, et al. Trigeneration in the Food Industry. Applied Thermal Engineering,2002, 22:595-602
  • 7[7]Bruno J C, et al. Efficiency Improvement in Oil Refining Process Using Absorption Refrigeration Plants Driven by Waste Heat. In: ISHPC'02, Proc. of the Int. Sorption Heat Pump Conf.. Shanghai, 2002. 111-116
  • 8[8]Kleemenko A P. One-Flow Cascade Cycle. In: Proc. Xth Int. Congress of Refrig. Pergamon Press, 1959. 34-39
  • 9[9]Little W A. Kleemenko Cycle Coolers: Low Cost Refrigeration at Cryogenic Temperatures. ICEC17, 1998, 1-9
  • 10[10]Vjacheslav Naer, Andrey Rozhentsev. Application of Hydrocarbon Mixtures in Small Refrigerating and Cryogenic Machines. International Journal of Refrigeration, 2002,25:836-847

共引文献9

同被引文献15

引证文献3

二级引证文献3

制冷学报
2006年 第4期

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