Transient simulation of vapour-compression packaged liquid chillers

This paper presents a transient simulation model that is useful for predicting the dynamic performance of vapour-compression liquid chillers over a wide range of operating conditions. The model employs a thermal capacitance approach for specific state variables to account for the dynamics of the chiller and ancillaries. The model accounts for the change in heat transfer coefficients throughout the heat exchangers thereby improving both physical realism and the accuracy of the simulation model. The model requires only a select few initial conditions (eg. the chilled water and condenser water temperatures). A simple compressor model based on empirical regression has been employed in the simulation. The outputs of the model include system performance variables such as the compressor electrical work input and the coefficient of performance (COP) as well as states of the refrigerant throughout the refrigeration cycle with respect to time. The model is validated with data from two in -situ screw chillers. Predictions are found to be within ±10%, although for one of the chillers a degree of empiricism was employed for the evaporator tube wall mass in order to give satisfactory results for the start-up process.

[1]  S. B. Austin Chilled water system optimization , 1993 .

[2]  R. W. James,et al.  Multiple liquid chillers: Intelligent control , 1990 .

[3]  J. J. Guy,et al.  Steady- and dynamic-state simulations of heat-pumps. Part II: Modelling of a motor driven water-to-water heat-pump , 1988 .

[4]  Shengwei Wang,et al.  Dynamic simulation of a building central chilling system and evaluation of EMCS on-line control strategies , 1998 .

[5]  M. W. Browne,et al.  Different modelling strategies for in situ liquid chillers , 2001 .

[6]  E. W. Grald,et al.  Prediction of cyclic heat pump performance with a fully distributed model and a comparison with experimental data , 1987 .

[7]  M. A. Salim,et al.  Transient analysis of heat pump assisted distillation systems. 1 The heat pump , 1991 .

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

[9]  J. Vargas,et al.  Simulation in transient regime of a heat pump with closed-loop and on-off control , 1995 .

[10]  M. A. Comeau,et al.  Development of a simulation model for predicting dynamic behaviour of heat pump with nonazeotropic refrigerant mixtures , 1992 .

[11]  M. Zaheeruddin,et al.  Sub-optimal on–off switching control strategies for chilled water cooling systems with storage , 1998 .

[12]  Kim Choon Ng,et al.  Performance Evaluation of Centrifugal Chillers in an Air-Conditioning Plant with The Building Automation System (BAS) , 1994 .

[13]  J. MacArthur,et al.  Theoretical analysis of the dynamic interactions of vapor compression heat pumps , 1984 .

[14]  Pradeep Bansal,et al.  Heat transfer characteristics of boiling phenomenon in flooded refrigerant evaporators , 1999 .

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

[16]  R. Webb,et al.  Nucleate pool boiling data for five refrigerants on plain, integral-fin and enhanced tube geometries , 1992 .

[17]  D. Didion,et al.  A simulation model of the transient performance of a heat pump , 1982 .

[18]  Pradeep Bansal,et al.  An elemental NTU-ε model for vapour-compression liquid chillers , 2001 .

[19]  Pradeep Bansal,et al.  An overview of condensation heat transfer on horizontal tube bundles , 1999 .

[20]  Masahiro Kawaji,et al.  Two-Phase Crossflow and Boiling Heat Transfer in Horizontal Tube Bundles , 1996 .

[21]  Asfaw Beyene,et al.  Conventional chiller performances simulation and field data , 1994 .

[22]  H. Kruse,et al.  Simulation of the Transient Behavior of Household Refrigerators and Freezers , 1994 .

[23]  M. Jensen,et al.  Two‐phase pressure drop in vertical crossflow across a horizontal tube bundle , 1988 .

[24]  J. C. Chen Correlation for Boiling Heat Transfer to Saturated Fluids in Convective Flow , 1966 .

[25]  R. Webb,et al.  A Critical Review of Correlations for Convective Vaporization in Tubes and Tube Banks , 1992 .

[26]  P. K. Bansal,et al.  Modelling of In-Situ Liquid Chillers , 2000 .