Integrated renewable energy micro-grid for meeting peak hours demand

K. A. Aznan, Sheroz Khan, Mashkuri Yaacob, Othman O. Khalifa, Ezzidin Aboadla, Majdee Tohtayong, Ashraf Khalil, Naser A.N. Muhaisen, Nadia Mei Lin Tan

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

In the TNB-based conventional system, the power demand varies randomly depending upon seasons and months of the year including festive occasions, reaching peak in some hours of days of some months. Sometime a heavy demand (in MW) falls at a time of a day. Such heavy energy demands need to be transported from far-away power stations over long lengthy transmissions causing energy loss not less than 20% in most of the cases. This paper presents load demand variation scenario, identifying peaks, and finally suggesting a strategy for meeting the peak demand from Renewable Energy Sources (RES) of solar and wind. An integrated RES-based microgrid is suggested with analytical and simulation results showing how the peak demand is being met from alternative sources of solar. The results of this paper find applications in suggesting RES-based generations for distributed locations within the low-voltage distribution network of Malaysian Electric Utility Tenaga Nasional Berhad.

Original languageEnglish
Title of host publicationIET Conference Publications
PublisherInstitution of Engineering and Technology
EditionCP749
ISBN (Electronic)9781785618161, 9781785618437, 9781785618468, 9781785618871, 9781785619427, 9781785619694, 9781839530036
ISBN (Print)9781785617911
Publication statusPublished - 01 Jan 2018
Event5th IET International Conference on Clean Energy and Technology, CEAT 2018 - Kuala Lumpur, Malaysia
Duration: 05 Sep 201806 Sep 2018

Publication series

NameIET Conference Publications
NumberCP749
Volume2018

Conference

Conference5th IET International Conference on Clean Energy and Technology, CEAT 2018
CountryMalaysia
CityKuala Lumpur
Period05/09/1806/09/18

Fingerprint

Electric utilities
Electric power distribution
Energy dissipation
Electric potential

All Science Journal Classification (ASJC) codes

  • Electrical and Electronic Engineering

Cite this

Aznan, K. A., Khan, S., Yaacob, M., Khalifa, O. O., Aboadla, E., Tohtayong, M., ... Tan, N. M. L. (2018). Integrated renewable energy micro-grid for meeting peak hours demand. In IET Conference Publications (CP749 ed.). (IET Conference Publications; Vol. 2018, No. CP749). Institution of Engineering and Technology.
Aznan, K. A. ; Khan, Sheroz ; Yaacob, Mashkuri ; Khalifa, Othman O. ; Aboadla, Ezzidin ; Tohtayong, Majdee ; Khalil, Ashraf ; Muhaisen, Naser A.N. ; Tan, Nadia Mei Lin. / Integrated renewable energy micro-grid for meeting peak hours demand. IET Conference Publications. CP749. ed. Institution of Engineering and Technology, 2018. (IET Conference Publications; CP749).
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Aznan, KA, Khan, S, Yaacob, M, Khalifa, OO, Aboadla, E, Tohtayong, M, Khalil, A, Muhaisen, NAN & Tan, NML 2018, Integrated renewable energy micro-grid for meeting peak hours demand. in IET Conference Publications. CP749 edn, IET Conference Publications, no. CP749, vol. 2018, Institution of Engineering and Technology, 5th IET International Conference on Clean Energy and Technology, CEAT 2018, Kuala Lumpur, Malaysia, 05/09/18.

Integrated renewable energy micro-grid for meeting peak hours demand. / Aznan, K. A.; Khan, Sheroz; Yaacob, Mashkuri; Khalifa, Othman O.; Aboadla, Ezzidin; Tohtayong, Majdee; Khalil, Ashraf; Muhaisen, Naser A.N.; Tan, Nadia Mei Lin.

IET Conference Publications. CP749. ed. Institution of Engineering and Technology, 2018. (IET Conference Publications; Vol. 2018, No. CP749).

Research output: Chapter in Book/Report/Conference proceedingConference contribution

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AU - Khalil, Ashraf

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Aznan KA, Khan S, Yaacob M, Khalifa OO, Aboadla E, Tohtayong M et al. Integrated renewable energy micro-grid for meeting peak hours demand. In IET Conference Publications. CP749 ed. Institution of Engineering and Technology. 2018. (IET Conference Publications; CP749).