Kevin Bersch scite author profile

A combined electromagnetic and thermal modelling approach has been developed to optimise the design of multiple radial stator vents in an air-cooled, synchronous generator with a power rating of several hundred kVA. An experimentally validated 3-D Conjugate Heat Transfer Computational Fluid Dynamics model has been created and coupled with 2-D Electromagnetic Finite Element Analysis. Correlations between the combined vent width and rotor copper, rotor iron and stator iron losses were derived from the electromagnetic analysis. These correlations were implemented into the optimisation procedure of the parametric thermofluid model. Five parameters: vent locations, widths and the height of a baffle, were optimised simultaneously with the aim of minimising the peak stator winding temperature. The peak stator winding temperature was reduced by 11.1 %. The average stator winding temperature decreased by 6.3 %. To maintain the machine's power output, the removal of active stator material was compensated by increasing the rotor current.

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Thermal and Electromagnetic Stator Vent Design Optimisation for Synchronous Generators

Bersch

Nuzzo

Connor

et al. 2021

IEEE Trans. Energy Convers.

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Kevin Bersch

CFD optimisation of the thermal design for a vented electrical machine

CFD and experimental investigation into a non‐intrusive method for measuring cooling air mass flow rate through a synchronous generator

Combined Thermofluid and Electromagnetic Optimisation of Stator Vent Cooling

Thermal and Electromagnetic Stator Vent Design Optimisation for Synchronous Generators

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