Development of a control system for a domestic grid-connected wind turbine

In the United Kingdom (UK), homeowners who install grid connected renewable energy sources receive a threefold benefit. They can use the electricity generated by the source, they enjoy reduced household bills and they can also receive Feed-in Tariff payments from the UK government. Tariffs are paid...

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Main Authors: Adamson, M.A., Muhammad-Sukki, F., Aziz, N.F.A., Abu-Bakar, S.H., Sellami, N., Iyi, D., Ramirez-Iniguez, R., Bani, N.A., Mas'ud, A.A., Munir, A.B., Yasin, S.H.M.
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Language:English
Published: 2020
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spelling my.uniten.dspace-132952020-03-16T08:46:17Z Development of a control system for a domestic grid-connected wind turbine Adamson, M.A. Muhammad-Sukki, F. Aziz, N.F.A. Abu-Bakar, S.H. Sellami, N. Iyi, D. Ramirez-Iniguez, R. Bani, N.A. Mas'ud, A.A. Munir, A.B. Yasin, S.H.M. In the United Kingdom (UK), homeowners who install grid connected renewable energy sources receive a threefold benefit. They can use the electricity generated by the source, they enjoy reduced household bills and they can also receive Feed-in Tariff payments from the UK government. Tariffs are paid for generating electricity and for exporting electricity back to the grid. Savings can be maximized by correctly managing the ratio of number of units consumed by the homeowner to the number of units exported to the grid. In order to achieve a low percentage export situation, it was postulated that a control system would be needed. This paper proposes a control system for a small wind turbine based on an Arduino Uno microcontroller. The system was designed and built in order to evaluate its effectiveness. Results showed that the control system was effective in ensuring a low percentage export. When immediate domestic demand was met, surplus electricity was diverted to a storage circuit. Only as a last resort, when domestic and storage demand was met, was electricity exported. A cost analysis of the system showed that having a control system incorporated as part of the wind turbine installation could lead to savings of more than 12,000 over the life of the product. Copyright © 2019 American Scientific Publishers All rights reserved. 2020-02-03T03:31:38Z 2020-02-03T03:31:38Z 2019 Article 10.1166/jctn.2019.7881 en
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
language English
description In the United Kingdom (UK), homeowners who install grid connected renewable energy sources receive a threefold benefit. They can use the electricity generated by the source, they enjoy reduced household bills and they can also receive Feed-in Tariff payments from the UK government. Tariffs are paid for generating electricity and for exporting electricity back to the grid. Savings can be maximized by correctly managing the ratio of number of units consumed by the homeowner to the number of units exported to the grid. In order to achieve a low percentage export situation, it was postulated that a control system would be needed. This paper proposes a control system for a small wind turbine based on an Arduino Uno microcontroller. The system was designed and built in order to evaluate its effectiveness. Results showed that the control system was effective in ensuring a low percentage export. When immediate domestic demand was met, surplus electricity was diverted to a storage circuit. Only as a last resort, when domestic and storage demand was met, was electricity exported. A cost analysis of the system showed that having a control system incorporated as part of the wind turbine installation could lead to savings of more than 12,000 over the life of the product. Copyright © 2019 American Scientific Publishers All rights reserved.
format Article
author Adamson, M.A.
Muhammad-Sukki, F.
Aziz, N.F.A.
Abu-Bakar, S.H.
Sellami, N.
Iyi, D.
Ramirez-Iniguez, R.
Bani, N.A.
Mas'ud, A.A.
Munir, A.B.
Yasin, S.H.M.
spellingShingle Adamson, M.A.
Muhammad-Sukki, F.
Aziz, N.F.A.
Abu-Bakar, S.H.
Sellami, N.
Iyi, D.
Ramirez-Iniguez, R.
Bani, N.A.
Mas'ud, A.A.
Munir, A.B.
Yasin, S.H.M.
Development of a control system for a domestic grid-connected wind turbine
author_facet Adamson, M.A.
Muhammad-Sukki, F.
Aziz, N.F.A.
Abu-Bakar, S.H.
Sellami, N.
Iyi, D.
Ramirez-Iniguez, R.
Bani, N.A.
Mas'ud, A.A.
Munir, A.B.
Yasin, S.H.M.
author_sort Adamson, M.A.
title Development of a control system for a domestic grid-connected wind turbine
title_short Development of a control system for a domestic grid-connected wind turbine
title_full Development of a control system for a domestic grid-connected wind turbine
title_fullStr Development of a control system for a domestic grid-connected wind turbine
title_full_unstemmed Development of a control system for a domestic grid-connected wind turbine
title_sort development of a control system for a domestic grid-connected wind turbine
publishDate 2020
_version_ 1662758842434322432
score 13.222552