Stator and rotor vent modelling in a MVA rated synchronous machine

Stator and rotor vent modelling in a MVA rated synchronous machine

An investigation into the solution dependence of a conjugate heat transfer computational fluid dynamics (CFD) model of a synchronous generator, with respect to meshing, has been carried out. Utilising CFD as a tool for investigating the airflow and thermal performance of electrical machines is incre...

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Bibliographic Details
Main Authors: Connor, Peter H., Eastwick, Carol, Pickering, S.J., Gerada, C., Rolston, R.
Format: Conference or Workshop Item
Published: 2016
Subjects:
Generators
Cooling
Fluid Dynamics
Thermal Analysis
Thermal Engineering
Rotating Machines
Numerical Simulation
Energy Efficiency
Vents
Online Access:https://eprints.nottingham.ac.uk/39042/
Description
Summary:An investigation into the solution dependence of a conjugate heat transfer computational fluid dynamics (CFD) model of a synchronous generator, with respect to meshing, has been carried out. Utilising CFD as a tool for investigating the airflow and thermal performance of electrical machines is increasing. Meshing is a vital part of the CFD process, but its importance is often misunderstood or overlooked in the context of electrical machine analyses; partly due to the relative mesh independency of the finite element analysis (FEA) numerical method. This paper demonstrates how a relatively complex, aircooled generator CFD model can be considerably influenced by changes in the mesh. Flow rate, velocity and windage effects are assessed as a function of the mesh adopted. Mesh changes have been shown to affect the mass flow rate through a single vent by up to 55% and the associated heat transfer coefficient by 128%.

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