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R410a制冷剂性能参数的显式快速计算模型Ⅰ.饱和线方程 被引量:4

Fast Calculation Model of Thermodynamic and Transport Properties of R410a Refrigerant: Ⅰ. Equation for Saturation Curve
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摘要 在Martin-Hou方程的基础上,提出了R410a制冷剂在饱和线的热力学性能参数和传输特性参数的显式快速计算模型.该模型不存在迭代,在保证较高计算精度的同时,可以保证模型的计算速度和稳定性.以热力学性能参数计算软件REFPROP 7的数据源作为原始数据,在饱和线(139.00~343.32 K)范围内,对R410a制冷剂的性能参数进行拟合,并将该模型的计算结果与REFPROP 7数据源进行对比.结果表明:所有快速计算模型的总平均误差均小于1.174%,最大误差小于13.218%;其计算速度比REFPROP 7提高了2~4个数量级. Based on the Martin-Hou equation of state,a fast calculation model for R410a thermodynamic and transport properties,covering saturation curve(139.00—343.32 K),was presented due to no need of iteration.This method can not only achieve the accuracy,but guarantee the calculation stability and high calculation speed of thermophysical and transport properties of R410a.The source data was calculated from REFPROP 7.The total mean relative error and maximum relative error for all fast calculation models are less than 1.174% and 13.218%,respectively.The comparison result shows that the calculation speed of the fast calculation model is two to four orders faster than those of REFPROP 7.
作者 洪迎春 谷波 韩华
机构地区 上海交通大学制冷与低温工程研究所
出处 《上海交通大学学报》 EI CAS CSCD 北大核心 2011年第9期1374-1378,共5页 Journal of Shanghai Jiaotong University
基金 国家自然科学基金项目(50876059)
关键词 R410A制冷剂 热力学性能 传输特性 饱和 计算模型 R410a refrigerant thermodynamic properties transport properties saturated calculation model
分类号 TB66 [一般工业技术—制冷工程]
  • 相关文献

参考文献8

  • 1Monte F D. Calculation of thermodynamic properties of R407c and R410a by the MartinHou equation of state: Part I.Theoretical development[J]. Int J Refrig, 2002, 25(3): 306313.
  • 2Monte F D. Calculation of thermodynamic properties of R407c and R410a by the MartinHou equation of state: Part II.Technical interpretation[J]. Int J Refrig, 2002, 25(3): 314329.
  • 3McLinden M O, Klein S A, Lemmon E W. NIST REFPROP V7.0[M]. USA: National Institute of Standards and Technology, 2006, 20(4):149167.
  • 4DuPont Fluorochemicals. Thermodynamic properties of Suva 9100 refrigerant[R]. DuPont Technical Information R410A (50/50). Wilmington, DE, USA: DuPont Company, 1996.
  • 5Cleland A C. Polynomial curvefits for refrigerant thermodynamic properties: Extension to include R134a[J]. Int J Refrig, 1994, 17 (4):121123.
  • 6Cleland A C. Computer subroutines for rapid evaluation of refrigerant thermodynamic: Properties[J]. Int J Refrig, 1986, 9(8): 346351.
  • 7MartinDominguez I R, McDonald T W. Correlation for some saturated thermodynamic and transport troperties of refrigerant R22[J]. ASHRAE Trans, 1993, 99(1): 344348.
  • 8胡欢,谷波,龙琼,曾伟平,张春路.亚临界压力区CO2热力性质及传输特性的快速计算模型[J].上海交通大学学报,2008,42(8):1259-1264. 被引量:6

二级参考文献8

  • 1叶其孝,沈永欢.实用数学手册[M].北京:科学出版社,2006.
  • 2Chan C Y, Haselden G G. Computer-based refrigerant thermodynamic properties. Part 1. Basic equations[J]. IntJRefrig, 1981, 4 (1):7-12.
  • 3McLinden M O, Klein S A, I.emmon E W, et al. NIST REFPROP V7. 0 [CP/DK]. USA: National Institute of Standards and Technology, 2006.
  • 4Monte F D. Calculation of thermodynamic properties of R407C and R410A by the Martin-Hou equation of state. Part I. Theoretical development [J]. Int J Refrig, 2002, 25(3): 306-313.
  • 5Monte F D. Calculation of thermodynamic properties of R407C and R410A by the Martin-Hou equation of state. Part Ⅱ. Technical interpretation[J]. Int J Refrig, 2002, 25(3): 314-329.
  • 6Cleland A C. Computer subroutines for rapid evaluation of refrigerant thermodynamic: Properties [J]. IntJ Refrig, 1986, 9(8):346-351.
  • 7Cleland A C. Polynomial curve-fits for refrigerant thermodynamic properties: Extension to include R134a[J]. IntJ Refrig, 1994, 17(4): 245-249.
  • 8Martin-Dominguez I R, McDonald T W. Correlation for some saturated thermodynamic and transport properties of refrigerant R-22 [J]. ASHRAE Trans, 1993, 99(1): 344-348.

共引文献5

同被引文献38

  • 1李平,马沛生,衣守志,赵志刚,丛霖滋.基团对应状态法(CSGC)用于纯物质饱和蒸气压的估算[J].化工学报,1995,46(3):332-337. 被引量:11
  • 2吴志刚,丁国良,芮银波.制冷剂热力性质的快速计算 Ⅱ.典型工质计算公式[J].上海交通大学学报,2006,40(2):301-305. 被引量:5
  • 3Monte F D. Calculation of thermodynamic properties of R407c and R410a by the MartinHou equation of state:Part I.Theoretical development[J]. Int J Refrig, 2002, 25 (3): 306313.
  • 4Monte F D. Calculation of thermodynamic properties of R407c and R410a by the MartinHou equation of state:Part II.Technical interpretation[J]. Int J Refrig, 2002, 25 (3): 314329.
  • 5McLinden M O, Klein S A. Lemmon E W NIST REFPROP V7.0[M]. USA: National Institute of Standards and Technology, 2006.
  • 6DuPont Fluorochemicals. Thermodynamic properties of Suva 9100 refrigerant [R]. DuPont Technical Information R410A (50/50). Wilmington, DE, USA:DuPont Company, 1996.
  • 7Cleland A C. Polynomial curve-fits for refrigerant thermodynamic properties.. Extension to include R134a[J]. IntJ Refrig, 1994, 17 (4):121-123.
  • 8Cleland A C. Computer subroutines for rapid evaluation of refrigerant thermodynamic: Properties[J]. Int J Refrig, 1986, 9 (8): 346-351.
  • 9Martin-Dominguez I R, McDonald T W. Correlation for some saturated thermodynamic and transport properties of refrigerant R-22 [J]. ASHRAE Trans, 1993, 99 (1): 344-348.
  • 10M Mohanraj, S Jayaraj, C Muraleedharan. Environment friendly alternatives to halogenated refrigerants-A review [J]. Greenhouse Gas Control, 2009, 3(1): 108-119.

引证文献4

二级引证文献13

上海交通大学学报
2011年 第9期

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