This content is not included in
your SAE MOBILUS subscription, or you are not logged in.
User Oriented, Computer Aided Hydraulic System Design
Annotation ability available
Sector:
Language:
English
Abstract
The Computer Aided Analysis and Simulation (CAAS) package is the result of a multiphased program aimed at developing a user oriented, computer aided design technique for the analysis, design and specification of hydraulic power transmission systems. The package is intended to eliminate the need for detailed computer programming on the part of the system designer and allows effective use of the technique by anyone familiar with the CAAS package. This study has included the development of the general system analysis and optimization techniques, the development of the Probelm Oriented Language (POL), modeling of the most commonly used hydraulic components and testing of a selected group of hydraulic system components to verify the models developed. This paper presents the rationale of the CAAS package. The theoretical basis, program structure and application examples are included.
Authors
Citation
Martin, S. and Hong, I., "User Oriented, Computer Aided Hydraulic System Design," SAE Technical Paper 831363, 1983, https://doi.org/10.4271/831363.Also In
References
- Aircraft Hydraulic System Dynamic Analysis I, II “Transient Analysis (HYTRAN),” Developed by McDonnel Douglass Corp., Tech Report AFAPL-TR 76-43 St Louis 1977
- Aircraft Hydraulic System Dynamic Analysis I, II “Steady-State Flow Analysis (SSFAN),” Developed by McDonnel Douglass Corp., Tech Report AFAPL-TR 76-43 St Louis 1977
- Amies, G. “Computer Simulation of Hydraulic Systems Under Dynamic Conditions,” National Conference on Fluid Power 1976
- Backe', W. Systematik der hydraulischen Widerstand-sschal-tugen in Ventilen und Regelkreisen Otto Drausskopf-Verlag GmbH, Mainz 1974
- Backe W. Hoffman W. “DSH-Program System for Digital Simulation of Hydraulic Systems,” 6th International Fluid Power Simposium April 1981
- Barbe, E. D. Linear Control Systems International Textbook Co. Scranton, PA. 1963
- Bhatta, R.S. Stecki J. S. “Hydraulic System Analysis--Development of a Problem-Oriented Language (POL),” The BFPR Journal 1981
- Blackburn J.F. Reethof G. Schearer J.L. Fluid Power Control The M.I.T. Press 1960
- Bowns, D.E., et.al. “Progress Towards a General Purpose Hydraulic System Simulation Language,” The 6th International Fluid Power Symposium April 1981
- Brodowski, Dipl, Ing. “Concerning the Stability Behavior of Single State Pressure Relief Valves,” 3rd International Fluid Power Symposium 1973
- Cannon, R.H. Jr. Dynamics of Physical Systems McGraw-Hill 1967
- Close S.M. Frederick D.K. Modeling and Analysis of Dynamic Systems Houghton Mifflin Co. 1978
- Dokanish, M.A. “On the Nonlinear Response of a Relief Valve,” Transactions of the ASME 100 1978
- Dransfiels, D. Hydraulic Control Systems Design and Analysis of Their Dynamics Springer-Verlag 1981
- Ebbesen, L.R. “Digital Computer Simulation of the Mechanical and Thermal Response of Complex Hydraulic Systems,” Unpub. PH.D. Dissertation, Oklahoma State University 1976
- Fitch, E.C. Fluid Power and Control Systems McGraw-Hill Books Co