Simulation flux distribution and loss calculation on Three Phase Transformer core 1000 KVA using FEM

This project will show the flux distribution simulation and loss calculation on three phase transformer core 1000kVA using Finite Element Method. Transformer is static device that convert electrical energy from one electric circuit to another, with fix frequency, by the principles of electromagnetic...

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Main Author: Muhamad Nor Azhar Abdullah
Other Authors: Dina Maizana, Ir. (Advisor)
Format: Learning Object
Language:English
Published: Universiti Malaysia Perlis 2009
Subjects:
Online Access:http://dspace.unimap.edu.my/xmlui/handle/123456789/4269
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spelling my.unimap-42692009-01-28T09:29:13Z Simulation flux distribution and loss calculation on Three Phase Transformer core 1000 KVA using FEM Muhamad Nor Azhar Abdullah Dina Maizana, Ir. (Advisor) Flux distribution Electric transformers Transformer lamination Transformer core Power loss T-joint Finite element method (FEM) This project will show the flux distribution simulation and loss calculation on three phase transformer core 1000kVA using Finite Element Method. Transformer is static device that convert electrical energy from one electric circuit to another, with fix frequency, by the principles of electromagnetic induction either increases (steps up) or decreases (steps down) AC voltage. A transformer does not generate electrical power. It transfers electrical power from one AC circuit to another through magnetic coupling. The transformer core is used to provide a controlled path for the magnetic flux which generated in the transformer. The core is build up from thin sheet-steel with many layer of lamination. The lamination is use to reduce heating on transformer core which will cause power loss. For this project, a grain oriented silicon steel M-5 chosen as steel sheet for the transformer. The T-Joint configuration that used in this simulation is 23°, 45°, 60° and 90° will test with four packet of transformer which is in different size of. The simulation will use Finite Element method software called Quickfield 5.5. QuickField 5.5 is a very efficient Finite Element Analysis package for electromagnetic, thermal and stress design simulation with coupled multi-field analysis. From the result of the simulation, it show that the direction of flux line for the transformer lamination is based on the direction of the limb. The result also shown that the 60° T-joint is the best configuration of the transformer lamination and transformer lamination with different packet is more efficient than with the same packet. The best configuration and the most efficient of transformer lamination recorded the lowest losses. 2009-01-28T09:29:13Z 2009-01-28T09:29:13Z 2008-04 Learning Object http://hdl.handle.net/123456789/4269 en Universiti Malaysia Perlis School of Electrical Systems Engineering
institution Universiti Malaysia Perlis
building UniMAP Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaysia Perlis
content_source UniMAP Library Digital Repository
url_provider http://dspace.unimap.edu.my/
language English
topic Flux distribution
Electric transformers
Transformer lamination
Transformer core
Power loss
T-joint
Finite element method (FEM)
spellingShingle Flux distribution
Electric transformers
Transformer lamination
Transformer core
Power loss
T-joint
Finite element method (FEM)
Muhamad Nor Azhar Abdullah
Simulation flux distribution and loss calculation on Three Phase Transformer core 1000 KVA using FEM
description This project will show the flux distribution simulation and loss calculation on three phase transformer core 1000kVA using Finite Element Method. Transformer is static device that convert electrical energy from one electric circuit to another, with fix frequency, by the principles of electromagnetic induction either increases (steps up) or decreases (steps down) AC voltage. A transformer does not generate electrical power. It transfers electrical power from one AC circuit to another through magnetic coupling. The transformer core is used to provide a controlled path for the magnetic flux which generated in the transformer. The core is build up from thin sheet-steel with many layer of lamination. The lamination is use to reduce heating on transformer core which will cause power loss. For this project, a grain oriented silicon steel M-5 chosen as steel sheet for the transformer. The T-Joint configuration that used in this simulation is 23°, 45°, 60° and 90° will test with four packet of transformer which is in different size of. The simulation will use Finite Element method software called Quickfield 5.5. QuickField 5.5 is a very efficient Finite Element Analysis package for electromagnetic, thermal and stress design simulation with coupled multi-field analysis. From the result of the simulation, it show that the direction of flux line for the transformer lamination is based on the direction of the limb. The result also shown that the 60° T-joint is the best configuration of the transformer lamination and transformer lamination with different packet is more efficient than with the same packet. The best configuration and the most efficient of transformer lamination recorded the lowest losses.
author2 Dina Maizana, Ir. (Advisor)
author_facet Dina Maizana, Ir. (Advisor)
Muhamad Nor Azhar Abdullah
format Learning Object
author Muhamad Nor Azhar Abdullah
author_sort Muhamad Nor Azhar Abdullah
title Simulation flux distribution and loss calculation on Three Phase Transformer core 1000 KVA using FEM
title_short Simulation flux distribution and loss calculation on Three Phase Transformer core 1000 KVA using FEM
title_full Simulation flux distribution and loss calculation on Three Phase Transformer core 1000 KVA using FEM
title_fullStr Simulation flux distribution and loss calculation on Three Phase Transformer core 1000 KVA using FEM
title_full_unstemmed Simulation flux distribution and loss calculation on Three Phase Transformer core 1000 KVA using FEM
title_sort simulation flux distribution and loss calculation on three phase transformer core 1000 kva using fem
publisher Universiti Malaysia Perlis
publishDate 2009
url http://dspace.unimap.edu.my/xmlui/handle/123456789/4269
_version_ 1643788097664581632
score 13.222552