Improving the thermal performance of transformer oil by modifying fin shapes

A suggested distribution transformer thermal model is studied. A Finite Element Method (a 2-D steady-state thermal analysis) was used to find the fin shapes effect on the thermal performance for the 3Ø transformer specified as (250 kVA, 11/.416 kV, oil-immersed, core type) utilizing "ANSYS, Wor...

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Hauptverfasser:	Azeez, Azhar K., Hasan, Ibtisam A., Mohammad, Mohammad J.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Finite element method Perforation Thermal analysis Transformers Two dimensional analysis
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creator	Azeez, Azhar K. Hasan, Ibtisam A. Mohammad, Mohammad J.
description	A suggested distribution transformer thermal model is studied. A Finite Element Method (a 2-D steady-state thermal analysis) was used to find the fin shapes effect on the thermal performance for the 3Ø transformer specified as (250 kVA, 11/.416 kV, oil-immersed, core type) utilizing "ANSYS, Workbench". Several fin shapes have been used and compared between them to get the best result. Where the traditional rectangular fin was divided into two, three, and four pieces, it found the average oil temperature improved by about 3% when divided the fin into four sections. as well as the method of perforating the fin with circular and square holes was used and the number of holes was increased from one to four and compared between them, it obtained the heat transfer enhanced and the average oil temperature improved by 4.5 % after perforation fin into four square holes and it was 8% when using fin with four circles holes. Results show that the best fin thermal performance was in the case of piercing with four circular holes.
doi_str_mv	10.1063/5.0205923
format	Conference Proceeding
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A Finite Element Method (a 2-D steady-state thermal analysis) was used to find the fin shapes effect on the thermal performance for the 3Ø transformer specified as (250 kVA, 11/.416 kV, oil-immersed, core type) utilizing "ANSYS, Workbench". Several fin shapes have been used and compared between them to get the best result. Where the traditional rectangular fin was divided into two, three, and four pieces, it found the average oil temperature improved by about 3% when divided the fin into four sections. as well as the method of perforating the fin with circular and square holes was used and the number of holes was increased from one to four and compared between them, it obtained the heat transfer enhanced and the average oil temperature improved by 4.5 % after perforation fin into four square holes and it was 8% when using fin with four circles holes. 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identifier	ISSN: 0094-243X
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source	AIP Journals Complete
subjects	Finite element method Perforation Thermal analysis Transformers Two dimensional analysis
title	Improving the thermal performance of transformer oil by modifying fin shapes
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