Optimization of Distribution System Reliability

• Autorzy: Zemite L. , Gerhards J. , Gorobetz M. , Levchenkov A.

Identyfikatory

DOI

10.22149/teee.v1i3.20

• Konferencja: International Conference on Environment and Electrical Engineering EEEIC (16 ; 06-08.06.2016 ; Florence, Italy)
• Języki publikacji: EN

Abstrakty

EN

Reliability analysis of distribution systems has been attracting increasing attention. A special concern pertains to the distribution networks on which most failures occurs. The optimization of distribution system of breakers and power switches is a possible strategy to improve reliability. The paper describes development procedure for modelling restoring after a fault and calculating associated reliability indices and customers’ outage costs. The developed model of the network and reliability and outage costs calculating algorithm is suitable for multi-criteria analysis of the network. Proposed reliability and outage costs calculation algorithm is based on Monte Carlo simulation and genetic algorithm.

Słowa kluczowe

EN

distribution network; simulation; power supply reliability

• Wydawca: EEEIC International Publishing
• Czasopismo: Transactions on Environment and Electrical Engineering
• Rocznik: 2016
• Tom: Vol. 1, No. 3
• Strony: 94--99
• Opis fizyczny: Bibliogr. 11 poz., rys.

Twórcy

autor

Zemite L.

• Riga Technical University Institute of Power and Electrical Engineering

autor

Gerhards J.

• Riga Technical University Institute of Power and Electrical Engineering

autor

Gorobetz M.

• Riga Technical University Institute of Industrial Electronics and Electrical Engineering

autor

Levchenkov A.

• Riga Technical University, Institute of Industrial Electronics and Electrical Engineering, Institute of Railway Transport

Bibliografia

• [1] Brown R. E. Electric Power Distribution Reliability. – Marcel Dekker, New York, 2002. – p. 365.
• [2] Alevehag K. Impact of Dependencies in Risk Assessments of Power Distribution Systems. – Licentiate Thesis, Royal Institute of Technology, School of Electrical Engineering, Electric Power Systems, Stockholm: Sweden, 2008. – p. 155.
• [3] Helseth A. Modeling Reliability of Supply and Infrastructural Dependency in Energy Distribution Systems. – Thesis for the degree of philosophy doctor, Trondheim, Norwegian University of Science and Technology, 2008. – p. 132.
• [4] Chayakulkheeree K. Economy of Power System Reliability. – A Training Workshop on Power System Economics and Planning, Asian Institute of Technology, 2006. – p. 68.
• [5] Kjølle G. H., Samdal K., Singh B., Kvitastein O. A. Customer Costs Related to Interruptions and Voltage Problems: Methodology and Results. – Power Systems, IEEE Transactions on, vol.23, no.3, Aug. 2008. – pp. 1030 – 1038.
• [6] Billinton R. Reliability of power supplies. In Electronics and Power, vol.24, no.4, April 1978. – pp. 307 – 310.
• [7] Theil A., Theil M. Medium Voltage network reliability: efficiency oriented supply restoration strategies. – 15th PSCC, Session 8, Paper 5, Liege, 2005. – pp. 1–6.
• [8] Distribuzione C. N. Optimal Placement of Automation Devices in Enel Distribution Network. – in Electricity Distribution – Part 1, 2009. CIRED 2009. 20th International Conference and Exhibition, 8–11 June 2009. – pp. 1 – 4.
• [9] Haghifam M. R. Optimal allocation of tie points in radial distribution systems using a genetic algorithm.– Eur. Trans. Elect. Power, vol. 14, no. 2, 2004. – pp. 85 – 96.
• [10] Zemīte L., Gerhards J., Gorobecs M., Ļevčenkovs A. Optimization of Switch Allocation in Power Distribution Systems – International Workshop on Deregulated Electricity Market Issues (DEMSEE 2015), Ungārija, Budapešta, 2014.. – pp.166 – 173.
• [11] Sljivac D., Nikolovski S., Kovac Z. Distribution Network Restoration Using Sequential Monte Carlo Approch. – The 9th International Conference on Probabilistic Methods Applied to Power Systems, June 11–15, 2006. – p. 6.

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).