Optimal placement of power factor correction capacitors considering transient switching events and load uncertainty

Al-Nujaimi, Abdullah; Al-Othman, Abdullah; Al-Muhanna, Abdulaziz; AlMuhaini, Mohammad

Artykuł - szczegóły

Tytuł artykułu

Optimal placement of power factor correction capacitors considering transient switching events and load uncertainty

Autorzy

Al-Nujaimi Abdullah , Al-Othman Abdullah , Al-Muhanna Abdulaziz , AlMuhaini Mohammad

Wybrane pełne teksty z tego czasopisma

https://papers.itc.pw.edu.pl/index.php/JPT

Identyfikatory

Warianty tytułu

Języki publikacji

Abstrakty

Power factor correction projects are required to supply reactive power locally to power system loads. The main advantage for the consumer is reducing the electricity bill, which factors in reactive demand. Other advantages can also result from these projects, including voltage regulation at local buses, energy loss minimization in the transmission lines and increased system capacity to add additional load. These advantages will be maximized by optimally allocating the power factor correction devices to reduce the bill. With these great advantages, consideration needs to be given to several technical issues, including resonance and switching transient associated with capacitor installations. The latter is investigated in this paper in the context of a planning horizon of 20 years. The objective function is to implement the lowest cost option that meets both the energy loss minimization and voltage regulation requirements. A new factor is considered during placement: the effect of transient switching events when energizing and deenergizing capacitor banks.

Słowa kluczowe

power factor correction PFC shunt capacitors energy loss minimization transient switch

korekcja współczynnika mocy kondensatory bocznikowe minimalizacja strat energii przełącznik przejściowy

Wydawca

Institute of Heat Engineering, Warsaw University of Technology

Czasopismo

Journal of Power Technologies

Rocznik

2021

Tom

Vol. 101, nr 3

Strony

144--153

Opis fizyczny

Bibliogr. 19 poz., rys., tab., wykr.

Twórcy

autor

Al-Nujaimi Abdullah

g200839160@kfupm.edu.sa

King Fahd University of Petroleum Minerals, Saudi Arabia

autor

Al-Othman Abdullah

King Fahd University of Petroleum Minerals, Saudi Arabia

autor

Al-Muhanna Abdulaziz

King Fahd University of Petroleum Minerals, Saudi Arabia

autor

AlMuhaini Mohammad

King Fahd University of Petroleum Minerals, Saudi Arabia

Bibliografia

1. ECRA, Available: http://www.ecra.gov.sa/ en-us/DataAndStatistics/NationalRecord/ HistoricalData/Pages/Home.aspx..
2. (2014) Optimum shunt capacitor placement in distribution system - A review and comparative study. Renewable and Sustainable Energy Reviews, 30.
3. M.A.S. Masoum, A.J., M. Ladjevardi, and Fuchs, E.F. (2004) Optimal Placement, Replacement and Sizing of Capacitor Banks in Distorted Distribution Networks by Genetic Algorithms. IEEE Transactions on Power Delivery, 19.
4. Shahat, A. (2014) PV Module Optimum Operation Modeling. Journal of Power Technologies, 94.
5. R.A. Gallego, A.J.M., and Romero, R. (2001) Optimal Capacitor Placement in Radial Distribution Networks. IEEE Transactions on Power Systems, 16.
6. -Y. Park, J.-M.S., and Park, J.-K. (2009) Optimal Capacitor Allocation in a Distribution System Considering Operation Costs. IEEE Transactions on Power Systems, 24.
7. (2013) Energy Loss Reduction by Conductor Replacement and Capacitor Placement in Distribution Systems. IEEE Transactions on Power Systems, 28.
8. C.L. Cooper, R.O.P., and Dionise, T.J. (2013) A Systematic Approach for Medium-Voltage Power Factor Correction Design. IEEE Transactions on Industry Applications, 49.
9. El-Fergany, A.A., and Abdelaziz, A.Y. (2014) Capacitor allocations in radial distribution networks using cuckoo search algorithm. IET Generation, Transmission & Distribution, 8.
10. Jannat, M.B., and Savic, A.S. (2016) Optimal capacitor placement in distribution networks regarding uncertainty in active power load and distributed generation units production. IET, 10.
11. Askarzadeh, A. (2016) Capacitor placement in distribution systems for power loss reduction and voltage improvement: a new methodology. IET, 10.
12. M. Ayoubi, R.-A.H., and Esfahani, M.T. (2017) Optimal capacitor placement in distorted distribution systems considering resonance constraint using multi-swarm particle swarm optimisation algorithm. IET, 11.
13. IEEE (2010) IEEE Std 1036 - Guide for Application of Shunt Power Capacitors.
14. Willis, H.L. (1997) Power Distribution Planning Refrence Book, Marcel Dekker, Inc.
15. Introduction to Switching of Shunt Capacitor Banks.
16. Das, J.C. (2005) Analysis and Control of Large- Shunt-Capacitor-Bank Switching Transients. IEEE Transactions on Industry Applications, 41.
17. Blooming, T.M., and Carnovale, D.J. (2008) Capacitor Application Issues. IEEE Transactions on Industry Applications, 44.
18. Seifi, H., and Sepasian, M.S. (2011) Electric Power System Planning: Issues, Algorithms and Solutions, Springer.
19. M. Rahli, A.B., L. Benasla, and Abdelhakem-Koridak, L. (2015) Real power-system economic dispatch using a variable weights linear programming method. Journal of Power Technologies, 95.

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).

Typ dokumentu

Bibliografia

Identyfikator YADDA

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