Optimal Resources Dispatching Technology of Distribution Network Rush-Repairing


Confronted with the requirement of higher efficiency and higher quality of distribution network fault rush-repair, the subject addressed in this paper is the optimal resource dispatching issue of the distribution network rush-repair when single resource center cannot meet the emergent resource demands. A multi-resource and multi-center dispatching model is established with the objective of “the shortest repair start-time” and “the least number of the repair centers”. The optimal and worst solutions of each objective are both obtained, and a “proximity degree method” is used to calculate the optimal resource dispatching plan. The feasibility of the proposed algorithm is illustrated by an example of a distribution network fault. The proposed method provides a practical technique for efficiency improvement of fault rush-repair work of distribution network, and thus mostly abbreviates power recovery time and improves the management level of the distribution network.

Share and Cite:

Zhang, C. , Chen, X. , Xiong, X. , Zhou, J. and Zhang, W. (2014) Optimal Resources Dispatching Technology of Distribution Network Rush-Repairing. Journal of Power and Energy Engineering, 2, 457-462. doi: 10.4236/jpee.2014.24061.

Conflicts of Interest

The authors declare no conflicts of interest.


[1] Cui, W. and Wang, B.D. (2002) Development and Application of an Electrical Rush Repair Scheduling System. Automation of Electric Power Systems, 26, 64-67.
[2] Lu, Z.G., Sun, B. and Liu, Z.Z. (2011) A Rush Repair Strategy for Distribution Networks Based on Improved Discrete Multi-Objective BBC Algorithm after Discretization. Automation of Electric Power Systems, 35, 55-59.
[3] Tao W.W., Zhang, H.B. and Ding, J.Y. (2010) Design of Multi-Level Synthetical Intelligent Decision-Making Support System for Secure Operation of Large-Scale Regional Power Network. Power System Technology, 34, 80-86.
[4] US-Canada Power System Outage Task Force (2004) Final Report on the August 14, 2003 Blackout in the United States and Canada: Causes and Recommendations.
[5] Yang, Y.H., Zhang, D.Y. and Ma, S. (2004) Study on the Architechture of Security and Defense System of Large- Scale Power Grid. Power System Technology, 28, 23-27.
[6] Wang, Y. and He, J.M. (2002) Reasearch on Multi-Resource Dispatch in Emergency System. Journal of Southeast University (Natural Science Edition), 32.

Copyright © 2023 by authors and Scientific Research Publishing Inc.

Creative Commons License

This work and the related PDF file are licensed under a Creative Commons Attribution 4.0 International License.