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Numerical Simulation of Refrigerant Flow Through Adiabatic Capillary Tube: A Comparison between Homogeneous Equilibrium Model (HEM), Delayed Equilibrium Model (DEM) and Improved Delayed Equilibrium Model (IDEM)

机译：通过绝热毛细管的制冷剂流量的数值模拟：均匀平衡模型（下摆），延迟平衡模型（DEM）与改进延迟平衡模型（IDEM）的比较

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As the industries are moving towards the alternatives to HCFC-22, more accurate and general calculation tools are required to predict the capillary tube performance using the new refrigerants. In the present paper, three different methods: Homogeneous Equilibrium Model (HEM), Delayed Equilibrium Model (DEM) and Improved Delayed Equilibrium Model (IDEM) are used to study the behaviour of the new refrigerant mixture R410A through an adiabatic capillary tube. The numerical results were compared with the experimental results of Sanzovo and Mattos (2003). The comparison showed that good agreement exists between the experimental and numerical pressure and temperature profiles along the capillary tube. Also, it was noticed that IDEM predicts the mass flow rate better in compare with that of HEM and DEM.

机译：随着行业朝向HCFC-22的替代方向移动，需要更准确和一般的计算工具来使用新制冷剂预测毛细管性能。在本文中，三种不同的方法：均匀平衡模型（下摆），延迟平衡模型（DEM）和改进的延迟平衡模型（IDEM）用于研究新的制冷剂混合物R410a通过绝热毛细管的行为。将数值结果与Sanzovo和Mattos（2003）的实验结果进行了比较。比较表明，在毛细管的实验和数值压力和温度曲线之间存在良好的一致性。此外，有人注意到IDEM以与下摆和DEM的比较更好地预测质量流量更好。

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《International industrial simulation conference》|2009年||共6页
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作者
Abdul Qaiyum Shaik; Henk Versteeg;
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正文语种
中图分类自动模拟理论（自动仿真理论）;
关键词
adiabatic capillary tubes; alternative refrigerants; metastable flow; numerical simulation; refrigeration and air-conditioning; two-phase flow;

机译：绝热毛细管;替代制冷剂;稳定流动;数值模拟;制冷和空调;两相流量;

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4. Numerical Simulation of Refrigerant Flow Through Adiabatic Capillary Tube: A Comparison between Homogeneous Equilibrium Model (HEM), Delayed Equilibrium Model (DEM) and Improved Delayed Equilibrium Model (IDEM) [C] . Abdul Qaiyum Shaik, rnHenk Versteeg 7th international industrial simulation conference 2009 . 2009

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Numerical Simulation of Refrigerant Flow Through Adiabatic Capillary Tube: A Comparison between Homogeneous Equilibrium Model (HEM), Delayed Equilibrium Model (DEM) and Improved Delayed Equilibrium Model (IDEM)

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