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以船舶尾气为驱动热源的吸附制冰系统性能研究

Performance of Adsorption Ice-Making System Driven by Ship Exhaust
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摘要 为了提高单位质量吸附剂的吸附量,缩小吸附床的体积,并选择合适的化学吸附制冷工质对,在分析国内外吸附制冷系统研究进展的基础上,采用了多发生器吸附制冰系统。对系统中的关键部件吸附床内的单元管传热性能进行了研究,对单元管传热热阻对系统的影响进行了理论分析,同时还对减小各部分热阻的方法进行了探讨,基于此,对多发生器制冰系统进行了制冷性能研究。结果表明,烟气与单元管的对流换热热阻占总热阻的89%,而船舶尾气余热吸附制冰系统的性能参数可达25%。 In order to improve the adsorption capacity and choose chemical adsorption as refrigerant, the mul per unit mass of adsorbent, reduce bed volume, tl-g troduced. Then the heat transfer performance of unit pipe in enerator absorption ice-making system was in- the adsorbent bed was researched, and the sys- tern influence of unit pipe heat transfer resistance was also analyzed. Besides, some methods of reducing the thermal resistance of each part were discussed. The results show that the percentage of thermal resis- tance of convective heat transfer is 89%, while heat performance parameter of the adsorption ice-making system driven by ship exhaust is up to 25%
作者 陈焕新 魏莉 张威 董媛媛
机构地区 华中科技大学能源与动力工程学院
出处 《中国舰船研究》 2012年第4期88-93,共6页 Chinese Journal of Ship Research
基金 武汉市科技供需对接计划项目(201150124015)
关键词 多发生器 单元管 传热热阻 制冰性能 multi-generator unit pipe thermal resistance ice-making performance
分类号 U664.8 [交通运输工程—船舶及航道工程]
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参考文献9

  • 1王丽伟,吴静怡,王如竹,许煜雄.渔船用吸附式制冰系统的模拟仿真以及试验[J].制冷学报,2003,24(3):42-44. 被引量:8
  • 2MEI V, CHATURVEDI S K, LAVAN Z. A truck exhaust gas operated absorption refrigeration system [J]. ASHRAE Trans, Part 2,1979 : 66-76.
  • 3SUZUKI M. Application of adsorption cooling systems to automobiles [J]. Heat Recovery Systems and CHP,1993, 13(4):335-340.
  • 4董景明,黄党和,谷杰然,潘新祥.吸附式制冷在船舶空调中应用的可行性研究[J].船舶工程,2008,30(1):19-22. 被引量:10
  • 5SAHA B B, KOYAMA S, LEE J B, et al. Performance evaluation of a low-temperature waste heat driven multi-bed adsorption chiller [J]. International Journal of Multiphase Flow, 2003 (29) : 1249-1263.
  • 6MAGGIO G, FRENI A, RESTUCCIA G. A dynamic model of heat and mass transfer in a double-bed adsorption machine with internal heat recovery [J]. International Journal of Refrigeration, 2006 (29) : 589-600.
  • 7杨培志,陈焕新.吸附式制冷循环热力学及性能[J].中南大学学报(自然科学版),2007,38(3):461-467. 被引量:12
  • 8BRAHAM K, MAIYA M P. Performance analysis of a single stage four bed metal hydride cooling system: in- fluence of combined heat and mass recovery [J]. International Journal of Heat and Mass Transfer, 2005,34 (3) : 1508-1514.
  • 9CRITOPH R E. Forced convection enhancement of adsorption cycles [J]. Heat Recovery Systems and CHP, 1994, 14(4): 343-350.

二级参考文献22

  • 1陈焕新,谭显光.燃料电池汽车余热利用的可行性探讨[J].建筑热能通风空调,2004,23(5):81-84. 被引量:9
  • 2陆泉,苏跃红,刘震炎,葛新石,王永堂.几种吸附式致冷新工质对的性能预测[J].太阳能学报,1996,17(2):184-188. 被引量:6
  • 3王雪章,杨昆鸟鹏,杨建,王海,潘新祥.船用吸附式空调制冷系统可行性设计[J].大连海事大学学报,2006,32(3):11-14. 被引量:3
  • 4Pons M,Poyelle F.Adsorptive machines with advanced cycles for heat pumping or cooling application[J].International Journal of Refrigeration,1999,22(1):27-77.
  • 5Shelton S V,Wepfer W J,Miles D J.Ramp wave analysis of the solid/vapor heat pump[J].Journal of Energy Resources Technology,1990,112(1):69-78.
  • 6Critoph R E.Evolution of alternative refrigerant-adsorbent pairs for refrigeration cycles[J].Applied Thermal Engineering,1996,16(7):891-900.
  • 7Sun L M,Feng Y,Pons M.Numerical investigation of adsorption heat pump system with thermal wave heat regeneration under uniform-pressure conditions[J].Heat Mass Transfer,1997,40(2):281-293.
  • 8Ben Amar N,Sun L M,Meunier F.Numerical analysis of adsorptive temperature wave regenerative heat pump[J].Applied Thermal Engineering,1996,16(5):405-418.
  • 9Gui Y B,Wang R Z,Wang W,Wu J Y,Xu Y X.Performance modeling and testing on a heat-regenerative adsorptive reversible heat pump[J].Applied Thermal Engineering,2002,22(3):309-320.
  • 10Wang R Z.Performance improvement of adsorption heat pump by heat and mass recovery operation[J].International Journal of Refrigeration,2001,24(7):602-611.

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中国舰船研究
2012年 第4期

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