Chen Liping
CAD Center, Huazhong Univ. Of Sci. & Tech., Wuhan, China
Zhao Yan
CAD Center, Huazhong Univ. Of Sci. & Tech., Wuhan, China
Zhou Fanli
CAD Center, Huazhong Univ. Of Sci. & Tech., Wuhan, China
Zhao Jianjun
CAD Center, Huazhong Univ. Of Sci. & Tech., Wuhan, China
Tian Xianzhao
Suzhou Tongyuan Software & Control Tech. Co., Suzhou, China
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http://dx.doi.org/10.3384/ecp11063421Ingår i: Proceedings of the 8th International Modelica Conference; March 20th-22nd; Technical Univeristy; Dresden; Germany
Linköping Electronic Conference Proceedings 63:46, s. 421-429
Publicerad: 2011-06-30
ISBN: 978-91-7393-096-3
ISSN: 1650-3686 (tryckt), 1650-3740 (online)
In this paper; we present a new method of modeling the hybrid external gear pumps based on Modelica and assess it experimentally. We model the whole working process of an external gear pump. The chamber of the pump is divided into a set of Control Volumes (CVs); whose effective volumes change along with the rotation of the gears. The CVs take in fluid from the inlet port and squeeze fluid out at the outlet port. The whole model of the pump also takes into account flow ripple; pressure distribution; leakages; meshing conditions; etc. Details of each component of the whole pump are provided. From the pressure distribution in space of the gear tooth; we can calculate radial force on shaft; based on which the shaft motion can be simulated.
We carry out a set of predictions in MWorks and report some results on the post processing. These results are consistent with those from the experimental data.
Hybrid Gear-Pump Modeling; Control Volumes; Pressure Distribution; Radial Force on shaft; Modelica
[1] Noah D.Manring; Suresh B.Kasaragadda. The Theoretical Flow Ripple of an External Gear Pump. Journal of Dynamic Systems; Measurement; and Control. Transaction of the ASME 2003; September: 396-404
[2] Aaron S.Heisler; John J.Moskwa; Frank J.Fronzak. SIMULATED HELICAL GEAR PUMP ANALYSIS USING A NEW CFD AP-PROACH. Fluids Engineering Division Summer Meeting 2009-78472
[3] Abdul Wahab. ANALYTICAL PREDICTION TECHNIQUE FOR INTERNAL LEAKAGE IN AN EXTERNAL GEAR PUMP. Proceedings of ASME Turbo Expo;GT 2009-59287
[4] R.Castilla; M.Gutes; P.J.Gamez-Monter; E.Codina. Experimental Study of the Shaft Motion in the Journal Bearing of a Gear Pump. Jour-nal of Engineering for Gas Turbines and Power; 2009-052502
[5] R.Castilla; M.Gutes; P.J.Gamez-Monter; E.Codina. Numerical Analysis of the Shaft Motion in the Journal Bearing of a Gear Pump. Jour-nal of Engineering for Gas Turbines and Power; 2010-012504
[6] G.Dalpiaz; G.D’Elia; E.Mucchi; A.Fernandez der Rincon. MODELING RUN IN PROCESS IN EXTERNAL GEAR PUMPS. Proceedings of ESDA2006-95466
[7] Andrea Vacca; Germano Franzoni and Paolo Casoli. ON THE ANALYSIS OF EXPERI-MENTAL DATA FOR EXTERNAL GEAR MACHINES AND THEIR COMPARISON WITH SIMULATION RESULTS. International Mechanical Engineering Congress and Exposition; IMECE2007-422664
[8] Fan-Li Zhou; Li-Ping Chen; Yi-Zhong Wu; Jian-Wan Ding; Jian-Jun Zhao; Yun-Qing Zhang. MWorks: a Modern IDE for Modeling and Simulation of Multidomain Physical Systems Based on Modelica. Modelica 2006; September 4th – 5th: 725-732
[9] P.Beater. Modeling and Digital Simulation of Hydraulic Systems in Design and Engineer-ing Education using Modelica and HyLib. Modelica Workshop 2000 Proceedings:33-40
