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水—溴化锂—硝酸锂与水—溴化锂吸收式制冷循环的比较 被引量:2

The contrast between the water-lithium bromide-lithium nitrate and the water-lithium bromide absorption refrigeration cycle
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摘要 比较了水—溴化锂—硝酸锂三元工质与传统的水—溴化锂工质的单、双效吸收式制冷循环,分析了发生温度、冷凝温度和蒸发温度对系统性能的影响;同时也分析了直燃型双效制冷系统。结果表明:采用新工质后,系统的热力系数COP有了明显的提高,其它表征系统热力性能的经济指标也均有不同程度的改善,尤其在直燃型双效冷热水机组中有明显的优势,热力系数COP提高约30%,溶液循环倍率f降低12%。因此,该新工质与传统的水—溴化锂工质相比,具有较好的热力性能。 The water-lithium bromide-lithium nitrate absorption refrigeration cycle is compared with the traditional water-lithium bromide system.The effect of generating temperature, condensing temperature and evaporating temperature on system performance is analyzed. Moreover, the double-effect absorption refrigeration system is also investigated.The results show that the COP of the water-lithium bromide-lithium nitrate absorption refrigeration system is enhanced and the other thermodynamic parameters are also improved. Especially for the double-effect absorption system,the COP has been increased by 30% and the f has been reduced by 12%.Thus, the water-lithium bromide-lithium nitrate absorption system has better performance than the system of water-lithium bromide.
作者 魏林生 张雪东 胡亚才 俞自涛 王建平 洪荣华
机构地区 浙江大学机械与能源工程学院
出处 《能源工程》 2004年第5期15-18,共4页 Energy Engineering
关键词 吸收式制冷循环 溴化锂 工质 COP 蒸发温度 冷凝温度 制冷系统 热力系数 冷热水机组 热力性能 water-lithium Bromide-lithium nitrate water-lithium Bromide absorption refrigeration cycle
分类号 TK229 [动力工程及工程热物理—动力机械及工程] TB616 [一般工业技术—制冷工程]
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共引文献14

同被引文献28

  • 1陈燕,吴裕远.NH_3-H_2O-LiBr吸收式制冷系统的可行性研究[J].低温与超导,2004,32(4):37-42. 被引量:3
  • 2周启瑾.吸收器中最佳强化传热管的研究[J].制冷技术,1994,14(4):12-15. 被引量:4
  • 3陈燕,吴裕远.NH_3-H_2O-LiBr相平衡特性实验研究[J].制冷学报,2005,26(2):14-18. 被引量:4
  • 4Yong Tae Kang,Hyun June Kim,Kang II Lee.Heat and mass transfer enhancement of binary nanofluids for H2O/LiBr falling film absorption process.International journal of refrigeration,2008,31(5):850-856.
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  • 9Kaushik Ghosh,Xinhui Zhou,Keith E Herold.Circulation of 2-Ethyl-Hexanol in an absorption Chiller.ASHRAE Trans,2002,13(1):861-866.
  • 10Nobuya Nishimura.Proceedings of International Sorption Heat Pump Conference.Shanghai,2002:72-75.

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能源工程
2004年 第5期

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