Work place: National School of Electricity and Mechanics, ENSEM University Hassan II Ain Chock, Casablanca, Morocco
E-mail: Ha.berdai@gmail.com
Website:
Research Interests: Computational Mathematics, Mathematics of Computing, Physics & Mathematics, Mathematics
Biography
Berdai Abdelmajid. Was born in Rabat, Morocco in 1968. Now he is Assistant Professor in the National School of Electricity and Mechanics, ENSEM, University Hassan II Ain Chock Casablanca in Morocco. From 2002 to the present, he is a member of the Laboratory Building Technologies and Industrial Systems ( TCSI ),Research Group: Electrical Systems ( ESE ). Currently he is preparing his dissertation (PhD) at the Automation control systems and electric drive department on speciality: Electrotchnical complexes and systems in Kremenchuk Mykhailo Ostrohradskyi National University. His research interests include Dynamic Simulation of Electric Machinery, Numerical integration methods of differential equations systems for electromechanical systems models, HSimulation and optimisation of renewable energy systemsH.
By Berdai Abdelmajid Abdelhadi El Moudden Chornyi O.P.
DOI: https://doi.org/10.5815/ijitcs.2011.05.01, Pub. Date: 8 Nov. 2011
Today, simulation of electrical drives with asynchronous motors based on systems of differential equations is regarded as one of the principal means of their research study. The difficulty of the simulation is determined by the need for accuracy of the results obtained and the complexity of the mathematical model’s differential equations. In this article, we present a study of the particularities of the simulation of electrical drives systems with asynchronous motors. We have studied models composed of three-phase and orthogonal coordinates systems and we have shown that qualitative and quantitative differences exist in the process of changing the angular speed of the rotor and electromagnetic torque. The result obtained is above all influenced by the non-linear character of the load opposing a fan-type or “dry friction”-type resistant torque. For dual-earthed electromagnetic actuation with the moments of the resistant torques indicated, integration of differential equation systems was carried out with various digital methods used in professional mathematical software for simulation.
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