Title :
Parallel CFD Analysis of Conjugate Heat Transfer in a Dry-Type Transformer
Author :
Ortiz, Carlos ; Skorek, Adam W. ; Lavoie, Michel ; Bénard, Pierre
Author_Institution :
GSS Inc., Montreal, QC, Canada
Abstract :
In this paper, we present the conjugate heat transfer analysis in a 167-kVA dry-type transformer using the parallel version of the computational fluid dynamics code Fluent 6.0. The renormalization group kappa-epsiv model is proposed to compute the turbulent aspect of the convective airflow inside the transformer metal tank for Air Natural/Air Natural cooling conditions. An experimental approach was used to assess Joule losses in the low-/high-voltage windings and eddy-current losses in the magnetic core. The resulting mathematical model was solved using 14 compute nodes on a distributed machine.
Keywords :
computational fluid dynamics; heat transfer; power transformers; renormalisation; transformer windings; air natural/air natural cooling conditions; computational fluid dynamics code Fluent 6.0; conjugate heat transfer; distributed machine; dry-type transformer; eddy-current losses; low-/high-voltage windings; magnetic core; mathematical model; parallel computational fluid dynamics analysis; renormalization group kappa-epsiv model; transformer metal tank; Computational fluid dynamics (CFD) analysis; dry-type power transformers; heat transfer; indirect power measurement; parallel processing;
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.2009.2023561
