Title :
Calculation of Temperature Rise in Air-cooled Induction Motors Through 3-D Coupled Electromagnetic Fluid-Dynamical and Thermal Finite-Element Analysis
Author :
Zhang, Yujiao ; Ruan, Jiangjun ; Huang, Tao ; Yang, Xiaoping ; Zhu, Houquan ; Yang, Gao
Abstract :
This paper investigates a 3-D coupled-field finite-element method (FEM) used in simulation of temperature distributions in air-cooled asynchronous induction motors. The temperature rise in motors is due to Joule´s losses in stator windings and squirrel cages, and heat dissipation by air convection and solid conduction. The Joule´s losses calculated by 3-D eddy-current field analysis are used as the input for the thermal field analysis, which is deeply dependent on accurate air fluid field analysis. Moreover, a novel multi-component fluid model is proposed to deal with the influence of rotor rotation upon the air convection. A test prototype is designed and manufactured. The good agreement of the temperature distributions between the simulated and measured results validates the proposed methodology.
Keywords :
cooling; eddy currents; finite element analysis; fluid dynamics; induction motors; temperature distribution; 3D coupled electromagnetic fluid-dynamical analysis; 3D eddy-current field analysis; air convection; air-cooled asynchronous induction motors; heat dissipation; multicomponent fluid model; solid conduction; squirrel cages; stator windings; temperature distributions; temperature rise; thermal finite-element analysis; Atmospheric modeling; Induction motors; Mathematical model; Rotors; Stator windings; Temperature distribution; Temperature measurement; Air-cooled asynchronous induction motors; coupled-field finite-element method; eddy-current field; fluid field; multi-component fluid model; temperature rise; thermal field;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2011.2174433
