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A novel special distributed method for dynamic refrigeration system simulation.
Author(s) : WANG F. Q., MAIDMENT G. G., MISSENDEN J. F., et al.
Type of article: Article, IJR article
Summary
A novel dynamic mathematical model based on spatially distributed approach has been developed and validated in this paper. This model gives good agreement in predicting the system COP and other parameters. The validated model has been used to enhance the prediction of the micro variations of superheat and sub-cooling. The novel spatial distributed model for the condenser and evaporator in refrigeration system, calculates the two-phase region in gas and liquid field separately since the gas and liquid in the two-phase region have different velocities. Previous researchers have used a pre-defined function of the void fraction in their spatially distributed model, based on experimental results. This approach results in the separate solution of the mass and energy equations, and less calculation is required. However, it is recognized that the mass and energy equations should be coupled during solving for more accurate solution. Based on the energy and mass balance, the spatial distribution model constructed here solves the velocity, pressure, refrigerant temperature, and wall temperature functions in heat exchangers simultaneously. A novel iteration method is developed and reduces the intensive calculations required. Furthermore, the condenser and evaporator models have shown a parametric distribution along the heat exchanger surface, therefore, the spatial distribution parameters in the two heat exchangers can be visualised numerically with a two-phase moving interface clearly shown.
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Details
- Original title: A novel special distributed method for dynamic refrigeration system simulation.
- Record ID : 2007-1453
- Languages: English
- Source: International Journal of Refrigeration - Revue Internationale du Froid - vol. 30 - n. 5
- Publication date: 2007/08
Links
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Indexing
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Themes:
Mass transfer;
Two-phase flow - Keywords: Two-phase flow; Heat transfer; Superheat; Subcooling; Modelling; Evaporator; COP; Condenser
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