The moving boundary method is an appealing approach for the design, testing and validation of advanced control schemes for evaporators and condensers. When it comes to advanced control strategies, not only accurate but fast dynamic models are required. Moving boundary models are fast low-order dynamic models, and they can describe the dynamic behavior with high accuracy. This paper presents a mathematical formulation based on physical principles for two-phase flow moving boundary evaporator and condenser models which support dynamic switching between all possible flow configurations. The models were implemented in a library using the equation-based object-oriented Modelica language. Several integrity tests in steady-state and transient predictions together with stability tests verified the models. Experimental data from a direct steam generation parabolic-trough solar thermal power plant is used to validate and compare the developed moving boundary models against finite volume models.
CITATION STYLE
Bonilla, J., Yebra, L. J., Dormido, S., & Cellier, F. E. (2012). Object-Oriented Library of Switching Moving Boundary Models for Two-phase Flow Evaporators and Condensers. In Proceedings of the 9th International MODELICA Conference, September 3-5, 2012, Munich, Germany (Vol. 76, pp. 71–80). Linköping University Electronic Press. https://doi.org/10.3384/ecp1207671
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