论文信息 - A new model for depicting mass flow rate characteristic of electronic expansion valves

A new model for depicting mass flow rate characteristic of electronic expansion valves

Abstract This paper experimentally investigates the mass flow rate characteristic of an electronic expansion valve (EEV). A new model for depicting the mass flow rate characteristic of EEVs, which employs the combination of the homogeneous equilibrium fluid model (HEM) and the frozen flow model (FFM), is developed. On the basis of tested data, an equation of meta-stability coefficient is proposed. Different from the mass flow coefficient in the conventional model, the meta-stability coefficient has nothing to do with the inlet pressure and the outlet state parameters. Only the inlet sub-cooled degree and the flow area are correlated in the equation. Compared with the experimental results, the deviation of the predicted mass flow rate by the model is in the range of −8.59% to 7.56%.

Qifang Ye | Zhijiu Chen | Jiangping Chen | Jinghui Liu

[1] Clark W. Bullard,et al. Pressure drop and flashing mechanisms in refrigerant expansion devices , 2003 .

[2] Dennis L. O'Neal,et al. A semi-empirical model of two-phase flow of refrigerant-134a through short tube orifices , 1994 .

[3] Alan A. Kornhauser,et al. Efficiency of a flashing flow nozzle , 1996, IECEC 96. Proceedings of the 31st Intersociety Energy Conversion Engineering Conference.

[4] Y. M. Niu,et al. Experimentation and correlation of R744 two-phase flow through short tubes , 2004 .

[5] Shanwei Ma,et al. Experimental analysis of R22 and R407c flow through electronic expansion valve , 2006 .