Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Urban medium voltage (MV) electric power distribution networks are supplied with primary (HV/MV) substations. These networks supply secondary (MV/LV) transformer substations and are often built as closed structures - loop arrangements. The design problem of optimal urban MV distribution network structure consists of determining the number of primary substations, establishing the number of MV loops supplied with the primary substations, and assigning the secondary MV/LV transformer substations to the MV loops. The optimization task becomes especially complex when the number of the primary substations is greater than one. The minimum of total annual costs is sought. The total annual costs include: fixed (investment) costs, variable (operating) costs and supply-interruption costs. Typical constraints are also accounted for. The so defined optimization problem is a complicated mathematical problem in respect of computational effort. In order to resolve the mathematical model of the optimization problem, evolutionary algorithms and artificial neural networks have been used. Exemplary computational experiments have been executed on the model of urban MV multi-loop electric power distribution networks. The results from the evolutionary algorithm and the artificial neural network calculations have been compared.
Czasopismo
Rocznik
Tom
Strony
667--689
Opis fizyczny
Bibliogr. 24 poz., il.
Twórcy
autor
autor
autor
- Warsaw University of Technology Institute of Electrical Power Engineering 00-662 Warsaw, Koszykowa 75, Poland, miroslaw.parol@ien.pw.edu.pl
Bibliografia
- JAIN A.K., MAO J., MOHIUDDIN K. M. (1996) Artificial Neural Networks: A Tutorial, Neural Computing. IEEE Computational Science & Engineering. March, 31-44.
- BROŻEK J. (1999) Designing of distribution urban electric power networks using artificial neural networks (in Polish). Proceedings of the 9th International Conference on „Present-day Problems of Power Engineering” APE’99, Poland, Gdańsk-Jurata, June 9-11, 1999, 4, 93-100.
- BROŻEK J. (2003) Optimization of urban electric power distribution networks (in Polish). Proceedings of the 11th International Conference on „Present-day Problems of Power Engineering” APE’03, Poland, Gdańsk-Jurata, June 11-13, 2003, 4, 107-114.
- BROŻEK J. (2004)Hybrid algorithm for optimisation of m-loop electric Power distribution network. IEE Proceedings, Generation, Transmission & Distribution, 151, 2, 246-251.
- CHENG R. and GEN M. (1996) Fuzzy Vehicle Routing and Scheduling Problem Using Genetic Algorithms. In: F. Herrera and J. Verdegay, eds., Genetic Algorithms and Soft Computing. Springer-Verlag, 683-709.
- CHENG R. and GEN M. (1997)Genetic Algorithms and Engineering Design. John Wiley & Sons, New York.
- CHENG R., GEN M., TOZAWA T. (1995) Vehicle Routing Problem With Fuzzy Due-Time Using Genetic Algorithms. Japanese Journal of Fuzzy Theory and Systems, 7, 5, 665-679.
- GLAMOCANIN V. and FILIPOVIC V. (1993) Open loop distribution system design. IEEE Transactions on Power Delivery, 8, 4, October, 1900-1906.
- HERTZ J., KROGH A., PALMER R. G. (1991) Introduction to the Theory of Neural Computation. Addison Wesley Publishing Company.
- KOHONEN T. (1995) Self-organizing Maps. Springer-Verlag, Berlin.
- KULCZYCKI J. (1990) Optimisation of Electric Power Network Structure (in Polish). WNT.
- LAVORATO M., RIDER M. J., GARCIA A. V., ROMERO R. (2010) A Constructive Heuristic Algorithm for Distribution System Planning. IEEE Transactions on Power Systems, 25, 3, August, 1734-1742.
- LEVITIN G., MAZAL-TOV S., ELMAKIS D. (1995) Genetic algorithm for open-loop distribution system design. Electric Power System Research, 32, 81-87.
- MARTINETZ M., BERKOVICH S., SCHULTEN K. (1993) Neural-gas network for vector quantisation and its application to time series prediction. IEEE Transactions on Neural Networks, 4, 558-569.
- MENDOZA F., BERNAL-AUGUSTIN J. L., DOMINGUEZ-NAVARRO J. A. (2006) NSGA and SPEA Applied to Multiobjective Design of Power Distribution Systems. IEEE Transactions on Power Systems, 21, 4, November, 1938-1945.
- MICHALEWICZ Z. (1996) Genetic Algorithms + Data Structure = Evolution Programs, 3rd ed. Springer-Verlag, New York.
- NAHMAN J. M., PERIC D. M. (2008) Optimal Planning of Radial Distribution Networks by Simulated Annealing Technique. IEEE Transactions on Power Systems, 23, 2, May, 790-795.
- NAJAFI S., HOSSEINIAN S. H., ABEDI M., VAHIDNIA A., ABACHEZADEH S. (2009) A Framework for Optimal Planning in Large Distribution Networks. IEEE Transactions on Power Systems, 24, 2, May, 1019-1028.
- NAVARRO A., RUDNICK H. (2009a) Large Scale Distribution Planning – Part I: Simultaneous Network and Transformer Optimization. IEEE Transactions on Power Systems, 24, 2, May, 744-751.
- NAVARRO A., RUDNICK H. (2009b) Large Scale Distribution Planning - Part II: Macro-Optimization with Voronoi’s Diagram and Tabu Search. IEEE Transactions on Power Systems, 24, 2, May, 752-758.
- OSOWSKI S.(2006) Neural Networks for Information Processing (in Polish) Publishing House of the Warsaw University of Technology, 2nd ed., Warsaw.
- PAROL M. (2003) Designing of multi loop electric power network structures with the use of evolutionary algorithms. Archives of Energetics, XXXII, 1-2, 63-84.
- RAMIREZ-ROSADO I. J., DOMINGUEZ-NAVARRO J. A. (2006) New Multiobjective Tabu Search Algorithm for Fuzzy Optimal Planning of Power Distribution Systems. IEEE Transactions on Power Systems, 21, 1, February, 224-231.
- WANG D. T-C., OCHOA L. F., HARRISON G. P. (2011) Modified GA and Data Envelopment Analysis for Multistage Distribution Network Expansion Planning Under Uncertainty. IEEE Transactions on Power Systems, 26, 2, May, 897-904.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BATC-0011-0122