Keywords: Inverse models; superheat control; vapor compression cycles; feedforward control
Proceedings of the 10th International Modelica Conference; March 10-12; 2014; Lund; Sweden
 Y. Chen, S. Deng, X. Xu and M. Chan. A study on the operational stability of a refrigeration system having a variable speed compressor. International Journal of Refrigeration, 31(8):1368-1374, May 2008.
 W. Chen, Z. Chen, R. Zhu and Y. Wu. Experimental investigation of a minimum stable superheat control system of an evaporator. International Journal of Refrigeration, 25(8):1137-1142, December 2002.
 K.J. √Östr√∂m and T. H√§gglund. Advanced PID Control. Instrumentation, Systems and Automation Society, USA, August 2005.
 G. Looye, M. Th√ľmmel, M. Kurze, M. Otter, J. Bals. Nonlinear Inverse Models for Control. In: Proceedings of the 4th International Modelica Conference, Hamburg, Germany, 2005.
 C. Richter. Proposal of New Object-Oriented Equation-Based Model Libraries for Thermodynamic Systems. PhD thesis, Technische Universit√§t Braunschweig, 2008.
 C. Schulze. A Contribution to Numerically Efficient Modelling of Thermodynamic Systems. PhD thesis, Technische Universit√§t Braunschweig, 2013.
 M. Gr√§ber, K. Kosowski, C. Richter, W. Tegethoff. Modelling of Heat Pumps with an Object-Oriented Model Library for Thermodynamic Systems. Mathematical and Computer Modelling of Dynamical Systems, Taylor & Francis, October 2010.
 T. H√§gglund, K.J. √Östr√∂m. Revisiting the Ziegler-Nichols rules for PI control. Asian Journal of Control, 4(4):364-380, 2002.