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制冷空调用CO_2摆动活塞膨胀压缩机的设计与参数计算 被引量:4

Design and parametric calculation of CO_2 swinging piston expansion compressor adopted in refrigeration and air-conditioning
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摘要 CO2 是制冷空调业中最有潜力的自然工质之一。为减小CO2 跨临界循环系统节流部分的膨胀功损失 ,应该采用膨胀压缩机代替节流阀回收部分膨胀功并直接用于压缩工质 ,从而克服其系统运行效率较低的缺点。在综述国内、外CO2 膨胀压缩机的研究现状 ,分析现有膨胀压缩机的技术特点的基础上 ,设计了膨胀腔活塞与压缩腔活塞同轴联接的摆动活塞式膨胀压缩机 ,并根据某一设计工况进行了具体的参数计算 。 CO_2 is one of the most potential natural working substances in the refrigeration and air-conditioning trade. In order to reduce the loss of expansion work of the throttle part in CO_2 trans-critical circulation system the throttle valve should be replaced by the expansion compressor to retrieve partial expansion work and employed it directly to the compressive working substance, thus overcame the shortcoming of comparatively low operation efficiency of the system. On the basis of summing up the current status of research on CO_2 expansion compressor, and of analyzing the technological features of the existingexpansion compressors, the swinging piston typed expansion compressor has been designed with the coaxial connection to pistons of expansion chamber and compressive chamber. The concrete parametric calculation was carried out according to a certain designing operating condition. A certain feasibility analysis was put up on the obtained result of computation.
作者 管海清 马一太 李敏霞 杨俊兰
机构地区 天津大学热能研究所
出处 《机械设计》 CSCD 北大核心 2004年第12期25-28,共4页 Journal of Machine Design
基金 高等学校博士学科专项科研基金资助项目 (D0 2 0 0 1 0 5)
关键词 CO2跨临界循环 摆动活塞式膨胀压缩机 膨胀功 设计与计算 trans-critical circulation swinging piston typed expansion compressor expansion work design and calculation
分类号 TK515 [动力工程及工程热物理—热能工程]
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参考文献8

  • 1Pettersen J, Hafner A, Skargen G. Development of compact heat exchangers for CO2 air-conditioning systems[J]. International Journal of Refrigeration, 1998,21(3):180-193. 被引量:1
  • 2Lorenzen G. Revival of Carbon Dioxide as a refrigerant[J].International Journal of Refrigeration, 1994, 17(5): 292-301. 被引量:1
  • 3Heyl P. Free piston expander-compressor for CO2 design, applications and results[R]. http://www.tu-dresden.de/mw/iem/kkt/mitarbeiter/lib/Peter/sydney.html,2003. 被引量:1
  • 4Nickl J, Will G, Kraus W E ,et al. Design considerations for a second generation CO2-expander[C]. Preliminary proceedings of the 5th IIR-Gustav Lorentzen conference on natural working fluids at Guangzhou. Guangzhou, China, 2002,189-196. 被引量:1
  • 5Nickl J, Will G. Third generation CO2 expander[C]. http://www.icr2003.org/abstracts/ICR0571.pdf,2003. 被引量:1
  • 6Fukuta M, Yanagisawa T. Cycle performance of CO2 cycle with vane compressor-expander combination[C]. City university,London,UK: International conference on compressors and their systems,2001:315-324. 被引量:1
  • 7Stosic N., Smith I K, Kovacevic A. A twin screw combined compressors and expanders for CO2 refrigeration systems[C]. The proceeding of the sixteenth international compressor engineering conference at Purdue. Purdue, USA,2002. 被引量:1
  • 8Huff H J, Radermacher R. CO2 compressor-expander analysis[R]. USA:ARTI-21CR/611-10060-01,2003. 被引量:1

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机械设计
2004年 第12期

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