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Nowa skuteczna metoda obliczania rozpływu mocy w radialnej sieci rozproszonej
Języki publikacji
Abstrakty
A new efficient method is proposed for load-flow solution of radial distribution networks. Simple transcendental equations are used to relate the sending-end voltage, receiving-end voltage and voltage drops in each branch of the distribution system. The effect of charging capacitance of the line has been incorporated in load-flow solution. A computer algorithm is developed in such a way that there is no need to adopt any sequential node numbering scheme for the solution of the networks. The angle of the receiving-end voltage is also computed along with the magnitude of the voltage. It is an iterative method. The flat voltage (1pu) start from substation to every end-node is considered. The voltage magnitude and angle are updated after each successive iteration and the voltage drops are then computed by using the new obtained values of voltage magnitude and angle. The comparison of speed and memory requirement by the proposed method with the other methods has been verified to show its efficiency.
Zapropowano nową metodę kontroli przepływu mocy w radialnej sieci rozproszonej. Użyto prostego równania transcedentalnego do opisu napięcia wysyłanego, otrzymanego i spadki napięcia w każdej z gałęzi sieci. Opracowano odpowiedni algorytm komputerowy a obliczenia są przeprowadzane iteracyjne, gdzie amplituda i kąt napięcia są sukcesywnie zmieniane.
Wydawca
Czasopismo
Rocznik
Tom
Strony
66--73
Opis fizyczny
Bibliogr. 20 poz., il., tabl., wykr.
Twórcy
autor
autor
- Department of Electrical and Instrumentation Engineering of Thapar University, Patiala, Punjab, India, kultar22@yahoo.com
Bibliografia
- [1] Tinney, W. G. and Hart, C. E., Power flow solutions by Newton’s method, IEEE Transactions on Power Apparatus and Systems, 86(1967), pp.1449–1457.
- [2] Stott, B. and Alsac, O., Fast decoupled load flow, IEEE Transactions on Power Apparatus and Systems, 93(1974), No. 3, pp. 859–869.
- [3] Iwamoto, S. and Tamura, Y., A load flow-calculation method for ill-conditioned power systems, IEEE Transactions on Power Apparatus and Systems, 100(1981), No. 4, pp. 1736–1743.
- [4] Rajicic, D. and Tamura, Y., A Modification to Fast Decoupled Power Flow for Network with High R/X Ratios, IEEE Transactions on Power Delivery, 3(1988) No. 2, pp. 743–746.
- [5] Kersting, W. H., A method to the design and operation of a distribution system, IEEE Transactions on Power Apparatus and Systems, 103(1984) No. 7, pp. 1945–1952.
- [6] Shirmohammadi, D., Hong, H. W., Semlyen, A., and Luo, G. X., A compensation-based power-flow method for weakly meshed distribution and transmission networks, IEEE Transactions on Power System, 3(1988), No. 2, pp. 753–762.
- [7] Baran, M. E. and Wu, F. F., Optimal sizing of capacitors placed on a radial distribution system, IEEE Transactions on Power Delivery, 4(1989), No. 1, pp. 735–743.
- [8] Renato Cespedes, G., New method for the analysis of distribution networks, IEEE Transactions on Power Delivery, 5(1990), No. 1, pp. 391–396.
- [9] Goswami, S.K. and Basu, S.K., “Direct solution of distribution systems”, IEE Proceedings on Generation Transmission and Distribution, 138(1991), No. 1, pp. 78–88.
- [10] Jasmon, G. B., and Lee, L. H. C., Distribution network reduction for voltage stability Analysis and load flow calculations, International journal of Electric Power and Energy System, 13(1991), No. 1, pp. 9–13.
- [11] Das, D., Nagi, H.S. and D.P. Kothari, Novel method for solving radial distribution networks, IEE Proceedings on Generation Transmission and Distribution, 141(1994), No. 4, pp. 291–298.
- [12] Haque, M. H., Load flow-solution of distribution systems with voltage dependent load models, Power System Research, 36(1996), No. 3, pp. 151–156.
- [13] Ghosh, S. and Das, D., Method for load solution of radial distribution networks, IEE Proceedings on Generation Transmission and Distribution, 146(1999), No. 6, pp. 641–648.
- [14] Aravindhababu, P., Ganapathy, S. and Nayar, K.R., A novel technique for the analysis of radial distribution systems, International Journal of Electrical Power and Energy Systems, 23(2001), No.3, pp. 167-171.
- [15] Mekhamer, S.F., Soliman, S.A., Mustafa, M. A. and El-Hawary, M.E., Load flow Solution of radial distribution feeders: a new contribution,” Electrical Power and Energy Systems, 24(2002), No. 5, pp. 701-707.
- [16] Eminoglu, U., and Hocaoglu, M. H., A new power flow method for radial distribution systems including voltage dependant load models, Electric Power Systems Research, 76(2005), No. 1-3, pp. 106-114.
- [17] Satyanarayana, S., Ramana, T., Sivanagaraju, S. and Rao, G. K., An efficient load flow solution for radial distribution network including voltage dependent load models, Electric Power Components and Systems, 35(2007), No. 5, pp. 539-551.
- [18] Nagaraju, K., Sivanagaraju, S., Ramana, T. and Prasad, P. V., A Novel Load Flow Method for Radial Distribution Systems for Realistic Loads, Electric Power Components and Systems, 39(2011), No. 2, pp. 128-141.
- [19] Baran, M. E. and Wu, F. F., Optimal capacitor placement onradial distribution systems,” IEEE Transactions on Power Delivery, 4(1989) No. 2, pp. 1401-1407.
- [20] Hamouda, A. and Zehar, K., Improved algorithm for radial distribution networks load flow solution, International Journal of Electrical Power and Energy Systems, 33(2011), No. 3, pp. 508-514.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-PWA7-0056-0014