论文信息 - The novel use of phase change materials in refrigeration plant. Part 2: Dynamic simulation model for the combined system

The novel use of phase change materials in refrigeration plant. Part 2: Dynamic simulation model for the combined system

A dynamic mathematical model for coupling the refrigeration system and PCMs has been developed in this paper. Overall the model consists of the following basic components: a compressor, a condenser, an expansion valve, an evaporator cooler and a PCM heat exchanger. The model developed here, is based on a lumped-parameter method. The condenser and evaporator were treated as storage tanks at different states, which have a superheat region, a two-phase region and a sub-cooled region. In the single-phase region the parameters are considered homogeneous whereas in the two-phase region, the intensive properties are considered as in thermal equilibrium. The compressor model is considered as an adiabatic process; an isentropic efficiency is employed in this process. The expansion process in the thermostatic expansion valve is considered as an isenthalpic process. The PCM is treated as a one-dimensional heat transfer model. The mathematical simulation in this study predicts the refrigerant states and dynamic coefficient of performance in the system with respect to time. The dynamic validation shows good agreement with the test result.

[1] Zhu Yingxin,et al. A General Model for Analyzing the Thermal Characteristics of a Class of Latent Heat Thermal Energy Storage Systems , 1999 .

[2] J. MacArthur,et al. Unsteady compressible two-phase flow model for predicting cyclic heat pump performance and a comparison with experimental data , 1989 .

[3] Eric W. Grald,et al. A moving-boundary formulation for modeling time-dependent two-phase flows , 1992 .

[4] Kamal Abdel Radi Ismail,et al. Convection‐based model for a PCM vertical storage unit , 1998 .

[5] A. C Cleland,et al. Food refrigeration processes : analysis, design, and simulation , 1990 .

[6] R. W. James,et al. Dynamic Analysis of an Industrial Refrigeration System to Investigate Capacity Control , 1975 .

[7] M. Lacroix. Study of the heat transfer behavior of a latent heat thermal energy storage unit with a finned tube , 1993 .

[8] A. C Cleland,et al. Simple mathematical model for predicting the transient behaviour of an ice-bank system , 1993 .

[9] A. C Cleland,et al. Improved dynamic simulation of multi-temperature industrial refrigeration systems for food chilling, freezing and cold storage. , 1998 .

[10] Morten Willatzen,et al. A general dynamic simulation model for evaporators and condensers in refrigeration. Part I: moving-boundary formulation of two-phase flows with heat exchange , 1998 .