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Item Information   Holdings       More by this author     Burgess, Kelly (author)     Milwaukee School of Engineering     Subjects     Dynamometer.     MATLAB     SIMULINK.     Computer simulation -- Computer programs.     Engineering mathematics -- Data processing     MSE Project.     Browse Catalog     by author:      Burgess, Kelly (author)      Milwaukee School of Engineering       by title:      Modeling and analysi...         MARC Display

Modeling and analysis of a large-scale hydraulic dynamometer using MATLAB Simulink : a report submitted to the faculty of the Milwaukee School of Engineering in partial fulfillment of the requirements for the degree of Master of Science in Engineering / by Kelly Burgess. by Burgess, Kelly (author), Milwaukee School of Engineering Subjects Dynamometer.   MATLAB   SIMULINK.   Computer simulation -- Computer programs.   Engineering mathematics -- Data processing   MSE Project. Description:  166 leaves : illustrations, some of which are in color ; 29 cm. Contents:  Introduction, background, and literature review -- Modeling and simulation methodology -- Results and discussion -- Conclusion -- Appendices A & B: Complete ERC circuit schematic -- C: Test stand data. The purpose of this research project is to examine and model the steady state 1RPM conditions of a large scale hydraulic dynamometer. The system components and subsystems are investigated and modeled within MATLAB Simulink. Base level analyses of all system components are conducted within this project, and include but are not limited to the examination of an axial-piston variable displacement pressure compensated pump, an interchangeable pressure relief valve, a directional control valve, and three different hydraulic motor architectures. First, a simplified fixed displacement pump source and needle-valve load model is created, and complexity is systematically added until completion of the final model. Heat transfer analysis and fluid properties are discussed but not considered in this investigation. No hydraulic-specific software packages are utilized within this model, which makes the design a challenging task. The resulting model will be utilized in future research as more information pertaining to fluid properties and their effects becomes available from manufacturers. The main recommendation resulting from examining the methodology of using MATLAB Simulink to fully describe the actual system would be to utilize an additional program or package that allows this simulation to run continuously in real time, allowing the user to dynamically adjust the system parameters while running the program. Comparison of the results from the simulation to real world recorded results show a strong and repeatable correlation. Form:  text unmediated volume   Copy/Holding information Location Collection Call No. Status   Walter Schroeder Library Master's Theses AC805 .B865 2014 Available Add Copy to MyList Format: HTMLPlain textDelimited Subject:   Email to:

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