Loss minimization of induction machines during torque transients

Author:

Abdelati Riadh12ORCID,Mimouni Mohamed Faouzi12

Affiliation:

1. University of Monastir, National School of Engineers of Monstir (ENIM), Tunisia

2. Laboratory of Automation, Electrical Systems and Environment (LAS2E), National School of Engineers of Monastir (ENIM), University of Monastir, Monastir, Tunisia

Abstract

This article presents a new design of an energy optimization approach to induction motor drives. The proposed control strategy is based on a designed cost function given as a weighting sum of power and energy models and subjected to the dynamic of a low-order current-fed induction motor model, which considers only the dynamics of the rotor flux and the mechanical equation as constraints to the problem. Such a strategy uses the concept of off-line optimal closed-loop control. Considering the case of a random desired torque, the resolution with suboptimal conditions allows a time-varying rotor flux that converges to the optimal solution and minimizes energy in a dynamic operation. This solution is presented in an analytical form and is dedicated to optimizing a transient regime characterized by a random load torque. This command law will become invariant with respect to time and will asymptotically tend to a stationary optimal solution. Aiming to check the validity of the proposed algorithm, a comparison study is conducted between rotor-field-oriented control operating with a suboptimal rotor flux and rated constant-flux control. The simulation and experimental results obtained for a 1.5-kW laboratory induction motor demonstrate the effectiveness of the proposed strategy.

Publisher

SAGE Publications

Subject

Mechanical Engineering,Control and Systems Engineering

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