Title :
Air-gap convection in a switched reluctance machine
Author :
Romanazzi, Pietro ; Howey, David A.
Author_Institution :
Dept. of Eng. Sci., Univ. of Oxford, Oxford, UK
fDate :
March 31 2015-April 2 2015
Abstract :
Switched reluctance machines (SRMs) have recently become popular in the automotive market as they are a good alternative to the permanent magnet machines commonly employed for an electric powertrain. Lumped parameter thermal networks are usually used for thermal analysis of motors due to their low computational cost and relatively accurate results. A critical aspect to be modelled is the rotor-stator air-gap heat transfer, and this is particularly challenging in an SRM due to the salient pole geometry. This work presents firstly a review of the literature including the most relevant correlations for this geometry, and secondly, numerical CFD simulations of air-gap heat transfer for a typical configuration. A new correlation has been derived: Nu = 0.181 Tam0.207.
Keywords :
computational fluid dynamics; convection; machine insulation; numerical analysis; reluctance machines; rotors; stators; SRM; air-gap convection; automotive market; electric powertrain; geometry; lumped parameter thermal network; numerical CFD simulation; permanent magnet machine; rotor-stator air-gap heat transfer; salient pole geometry; switched reluctance machine; Atmospheric modeling; Geometry; Heat transfer; Reluctance motors; Rotors; Stators; CFD; air-gap; convection; switched reluctance; thermal model;
Conference_Titel :
Ecological Vehicles and Renewable Energies (EVER), 2015 Tenth International Conference on
Conference_Location :
Monte Carlo
Print_ISBN :
978-1-4673-6784-4
DOI :
10.1109/EVER.2015.7112962
