This content is not included in
your SAE MOBILUS subscription, or you are not logged in.
Robust Compressor Model for AC System Simulation
Technical Paper
2007-01-0596
ISSN: 0148-7191, e-ISSN: 2688-3627
Annotation ability available
Sector:
Language:
English
Abstract
Simple component models are advantageous when simulating vehicle AC systems so that overall model complexity and computation time can be minimized. These models must be robust enough to avoid instability in the iteration method used for determining the AC system operating or “balance” point. Simplicity and stability are especially important when the AC system model is coupled with a vehicle interior model for studies of transient performance because these are more computationally intensive. This paper presents a semi-empirical modeling method for compressors based on dimensionless parameters. Application to some sample compressor data is illustrated. The model equations are simple to employ and will not introduce significant stability problems when used as part of a system simulation.
Recommended Content
Citation
Scott, T. and Sundaram, S., "Robust Compressor Model for AC System Simulation," SAE Technical Paper 2007-01-0596, 2007, https://doi.org/10.4271/2007-01-0596.Also In
Reliability and Robust Design in Automotive Engineering, 2007
Number: SP-2119; Published: 2007-04-16
Number: SP-2119; Published: 2007-04-16
SAE 2007 Transactions Journal of Passenger Cars: Mechanical Systems
Number: V116-6; Published: 2008-08-15
Number: V116-6; Published: 2008-08-15
References
- Ramos, J.I. Internal Combustion Engine Modeling Hemisphere 1989
- Heywood, J.B. Internal Combustion Engine Fundamentals McGraw-Hill 1988
- Benson, R.S. Ucer, A.S. “A Theoretical and Experimental Investigation of a Gas Dynamic Model for A Single Stage Reciprocating Compressor with Intake and Deliver Pipe Systems” Journ. Mech. Eng. Sci. 14 4 1972 265 279
- Tain, C. et.al. “A Mathematical Model of Variable Displacement Wobble Plate Compressor for Automotive Air Conditioning System” Applied Thermal Engin. 24 2004 2467 2486
- Rigola, J. et.al. “Parametric Studies on Hermetic Reciprocating Compressors” Int. Journ. Refrig. 28 2005 253 266
- Stoecker, W.F. Refrigeration and Air Conditioning McGraw-Hill 1968 158 171
- Davis, G. L. Chainese, F. Scott, T.C. “Computer Simulation of Automotive Air Conditioning - Components, System, and Vehicle” SAE Paper 720077 1972
- Huang, D.C. et.al. “A Dynamic Computer-Aided Engineering Model for Automobile Climate Control System Simulation and Application Part 1: A/C/Component Simulations and Intergration” SAE Paper 1999-10-1195 1999
- Taylor, C.F. The Internal Combustion Engine in Theory and Practice 1 MIT Press 1985
- Terauchi, K. Tsukagoshi, Y. Hiraga, M. “The Characteristics of the Spiral Compressor for Automotive Air Conditioning” SAE Paper 830541 1983
- Fujisaki, S. et.al. “Dual Cylinder Rolling Piston Rotary Compressor for Automotive Air Conditioner” SAE Paper 830539 1983
- Chlumsky, V. Reciprocating and Rotary Compressors E & F Spon Ltd 1965
- York, R. “Compressor Design for the Process Industries” Ind. and Eng. Chem. 34 5 1942 535 544
- Smutny, F. “Study of Factors Influencing the Volumetric Efficiency of Reciprocating Compressors” Prog. in Refrig. Sci. and Tech., 11 th Int. Conf. 1963 1 445 454
- Scott, T.C. “Modeling Compact Exchangers for HVAC Applications” Proc. ASME Summer Heat Trans. Conf. 2003