两级旋叶式膨胀机动力特性的理论研究Theoretical Research on Dynamic Characteristic of Rotary Vane Expander
王猛,赵远扬,李连生,夏春礼,束鹏程
WANG Meng,ZHAO Yuan-yang,LI Lian-sheng,XIA Chun-li,SHU Peng-cheng(Xi′an Jiaotong University
摘要(Abstract):
两级旋叶式膨胀机与传统旋叶式膨胀机在结构上有着明显的差别,能够实现更高的容积膨胀比,适合用于R410A等具有较高膨胀比的制冷系统。本文通过对两级旋叶式膨胀机运动和受力特征的分析,建立了滑片的受力模型,并应用该模型对拟开发的两级旋叶式膨胀机进行动力计算,分析比较了滑片的运动和所受各种力的计算结果,重点讨论了背压对滑片顶部与气缸壁面间接触力的影响,得出将滑片两侧工作腔中高压腔内工质引入背压腔的方法更适合于两级旋叶式膨胀机。
There are significant differences between the two-stage rotary vane expander and the traditional one,the two-stage rotary vane expander can reach higher volumetric expansion ratio,and is suitable for the refrigeration system with R410A as refrigerant,which possesses high expansion ratio.A dynamic model of the vane was developed by analyzing the characteristics of the motion and forces of the two-stage rotary vane expander.Utilized this model for dynamic calculation in this new type of expander,analyzed the results of the motion and forces of the vane,especially the influence of the back pressure on the contact force between the top of vane and inner cylinder wall,and concluded that by introducing the refrigerant from the higher pressure expansion chamber,one of the two expansion chambers besides the vane which has a higher pressure,to the back pressure chamber is a proper way for two-stage rotary vane expander.
关键词(KeyWords):
旋叶式膨胀机;两级;滑片;动力分析;背压
rotary vane expander;two-stage;vane;dynamic analysis;back pressure
基金项目(Foundation): 国家高新技术研究发展计划资助项目(2007AA05Z260);; 长江学者创新团队发展计划(IRT0746)
作者(Author):
王猛,赵远扬,李连生,夏春礼,束鹏程
WANG Meng,ZHAO Yuan-yang,LI Lian-sheng,XIA Chun-li,SHU Peng-cheng(Xi′an Jiaotong University
参考文献(References):
- [1]曾寒松,杨炳春,郭蓓,等.跨临界CO2滑片膨胀机的研究与开发[J].制冷与空调,2007,7(4):56-58.
- [2]Yang BC,Zeng HS,Guo B,et al.Mathematical mod-eling and experimental investigation of the vane motionof a rotary vane expander in CO2heat pump system[A].The 22ndInternational Congress of Refrigeration[C].Beijing,2007.
- [3]Beak JS,Groll EA,Lawless PB.Piston-cylinder workproducing expansion device in a transcritical carbon di-oxide cycle-Part:Experimental investigation[J].International Journal of Refrigeration,2005,28(2):141-151.
- [4]Fukuta M,Yanagisawa T.Performance prediction ofvane type expander for CO2cycle[A].InternationalCongress of Refrigeration[C].Washington D.C.,2003.
- [5]Fukuta M,Yanagisawa T,Kosuda O,et al.Perform-ance of scroll expander for CO2refrigeration cycle[C].International Compressor Engineering Confer-ence,West Lafayette,IN,2006.
- [6]Guan H,Ma Y,Li M.Some design features of CO2swing piston expander[J].Applied Thermal Engi-neering,2006,26(2-3):237-243.
- [7]Nickl J,Will G,Quack H,et al.Integration of athree-stage expander into a CO2refrigeration system[J].International Journal of Refrigeration,2005,28(8):1219-1224.
- [8]Zhang B,Peng X,He Z,et al.Development of adouble acting free piston expander for power recoveryin transcritical CO2cycle[J].Applied Thermal Engi-neering,2007,27(8-9):1629-1636.
- [9]Tao He,Chunli Xia,Yuanyang Zhao,et al.Develop-ment of Pelton-type Expander Used in RefrigerationSystem[A].Proceedings of the 6thInternational Con-ference on Compressor and Refrigeration[C].Xi′an,Xi′an Jiaotong University Press,2008:441-449.
- [10]郭蓓,李连生,束鹏程.旋叶式压缩机的动力特性[J].西安交通大学学报,1999,33(7):37-40.
- [11]马国远,李红旗.旋转压缩机[M].北京:机械工业出版社,2001.130-135.
- [12]马国远,顾兆林,郁永章.双作用腔滑片压缩机气缸型线的研究及特性分析[J].西安交通大学学报,1999,33(10):82-87.