A Novel Reconfiguration Strategy for Active Distribution Network Considering Maximum Power Supply Capability

Wei Liang; Xiao Long Jin; Yun Fei Mu; Hong Jie Jia; Ming Shen Wang; Nan Wang

doi:10.4028/www.scientific.net/AMM.448-453.2747

Paper Titles

Connotation and Research Areas of Coordinated Development of Power Supply, Load and Power Grid in Sichuan
p.2717

Distributed Modeling Technology for Large Power Grid Modeling Based on Cloud Computing
p.2721

Multi-Dimensional Model Version Management System Based on Model Cloud Technology
p.2730

The Combined Generation-Consumption Scheduling Mode Considering Price-Responsive and Interruptible Loads
p.2740

A Novel Reconfiguration Strategy for Active Distribution Network Considering Maximum Power Supply Capability
p.2747

Post-Evaluation of Electric Power Construction Project Based on Grey Rough Set
p.2753

Specifications on OMS Data Exchange between Provincial-Level and Regional Power Dispatching
p.2757

A Comprehensive Model for Monthly Prediction of Energy Output of Run-of-River Small Hydropower Station in Electricity Market Environment
p.2762

Preliminary Design of Demand Response Management System
p.2769

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 448-453A Novel Reconfiguration Strategy for Active...

A Novel Reconfiguration Strategy for Active Distribution Network Considering Maximum Power Supply Capability

Abstract:

In this paper, a novel reconfiguration strategy for active distribution network considering maximum power supply capability (PSC) is proposed. Firstly, a PSC index (PSCI) is proposed to evaluate the real-time security level of distribution network. Then, a novel reconfiguration strategy is developed for enhancing the PSCI of distribution network when the PSCI is lower than a pre-defined warning value. The reconfiguration strategy can be integrated to distribution management system (DMS) as a preventive control method to prevent outages of customers, which can significantly increase the reliability of distribution network. Case studies are carried out by using a typical 33-bus distribution network, and simulation results verify the effectiveness of the proposed reconfiguration strategy, which has a good engineering application prospect.

You might also be interested in these eBooks

Renewable Energy and Environmental Technology

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volumes 448-453)

Pages:

2747-2752

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.448-453.2747

Citation:

Cite this paper

Online since:

October 2013

Authors:

Wei Liang, Xiao Long Jin*, Yun Fei Mu, Hong Jie Jia, Ming Shen Wang, Nan Wang

Keywords:

Distribution Network, Power Supply Capability Index (PSCI), Preventive Control, Reconfiguration Strategy

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] P. DJAPIC, C. RAMSAY: IEEE Power and Energy Magazine. Vol. 5 (2007), p.68.

Google Scholar

[2] H.C. Chin and K.Y. Huang: IEEE Trans. Power Syst. Vol. 2 (2000), p.607.

Google Scholar

[3] H. Kim, Y. Ko, and K. H. Jung: IEEE Trans. Power Del. Vol. 8 (1993), p.1356.

Google Scholar

[4] M.E. Baran and F.F. Wu: IEEE Trans. Power Del. Vol. 4 (1989), p.1401.

Google Scholar

[5] B. Venkatesh, G. Sadasivam and M.A. Khan: IEEE Trans. Power Syst. Vol. 15 (2000), p.844.

Google Scholar

[6] H. Kim, Y. Ko and K.H. Jung: IEEE Trans. Power Del. Vol. 7 (1992), p.1434.

Google Scholar

[7] Y. Fujii, A. Miura and J. Tsukamoto: Int. J. Elect. Power Energy Syst. Vol. 14 (1992), p.45.

Google Scholar

[8] A.L. Morelato and A. Monticelli: IEEE Trans. Power Del. Vol. 4 (1989), p.2235.

Google Scholar

[9] D. Shirmohammadi: IEEE Trans. Power Del. Vol. 7 (1994), p.952.

Google Scholar

[10] L.L. Garver, P.R. VanHorne: IEEE Transactions on Power Apparatus and Systems. Vol. 98 (1979), p.957.

Google Scholar

[11] A.Y. Abdelaziz∗, F.M. Mohammed: Electric Power Systems Research. Vol. 79 (2009), p.1521.

Google Scholar

[12] Y.H. Song, G.S. Wang: Proc. Inst. Elect. Eng. —Gener. Transm. Vol. 144 (1997), p.345.

Google Scholar

[13] EN 50160: 2007, Voltage characteristics of electricity supplied by public distribution systems, European Committee for Electrotecnical Standardization-CENELEC.

Google Scholar