Title :
Modular Modeling System Model Builder
Author :
McKim, Curtis S. ; Matthews, M. Todd
Author_Institution :
Framatome Technol., Lynchburg, VA, USA
Abstract :
The latest release of the Modular Modeling System (MMS) Model Builder adds still more time-saving features to an already powerful MMS dynamic-simulation tool set. The Model Builder takes advantage of 32-bit architecture within the Microsoft Windows 95/NTTM Operating Systems to better integrate a mature library of power-plant components. In addition, the MMS Library of components can now be modified and extended with a new tool named MMS CompGenTM. The MMS Model Builder allows the user to quickly build a graphical schematic representation for a plant by selecting from a library of predefined power plant components to dynamically simulate their operation. In addition, each component has a calculation subroutine stored in a dynamic-link library (DLL), which facilitates the determination of a steady-state condition and performance of routine calculations for the component. These calculations, termed auto-parameterization, help avoid repetitive and often tedious hand calculations for model initialization. Component connection is provided within the Model Builder based on connectivity rules defined for each component. The simulation code generator makes use of the graphically defined connections to automatically and analytically define fluid-flow paths, mechanical couples, or signal/logic flow paths within the simulation model. In striving to meet the needs for large models and increase user productivity, the MMS Model Builder has been completely revamped to make power plant model creation and maintainability easier and more efficient
Keywords :
digital simulation; nuclear power stations; power engineering computing; simulation; software packages; thermal power stations; 32-bit architecture; MMS CompGen; Microsoft Windows 95/NT; Modular Modeling System Model Builder; auto-parameterization; connectivity rules; dynamic-link library; dynamic-simulation tool set; fluid-flow paths; fossil power plants; graphically defined connections; mechanical couples; nuclear power plants; operation simulation; power-plant components; predefined power plant components; routine calculations; signal/logic flow paths; simulation code generator; steady-state condition; Algorithms; Analytical models; Automatic logic units; Libraries; Operating systems; Power generation; Power system modeling; Signal analysis; Signal generators; Steady-state;
Conference_Titel :
Energy Conversion Engineering Conference, 1996. IECEC 96., Proceedings of the 31st Intersociety
Conference_Location :
Washington, DC
Print_ISBN :
0-7803-3547-3
DOI :
10.1109/IECEC.1996.553433