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:: Volume 7, Issue 1 (9-2018) ::
ieijqp 2018, 7(1): 35-44 Back to browse issues page
A Linear Path-based Method to Load Restoration in Distribution Networks by Microgrids Formation
MirSaeed Mousavizadeh1 , Mahmoud reza Haghifam * 1, Mohammad hossein Shariatkhah1
1- Tarbiat modares university
Abstract:   (4252 Views)
Natural disasters and severe weather conditions can lead to extensive outages in power networks. In order to reduce the economic and social effects of blackouts, most electric utilities apply pre-determined instructions and procedures to recover the system and restore the loads. However, due to the high impacts and different nature of such incidents, traditional methods of load restoration in the distribution networks can not guarantee the desired performance of the system in these situations. Therefore, in this paper, a novel model based on mixed-integer linear programming is presented to load restoration in distribution networks after such disasters. In this model, by utilizing graph related theories, the topological features of the distribution network along with its electrical characteristics are formulated in the form of one linear optimization problem. The formation of microgrids, determination of their service areas, and the optimal management of different technologies such as distributed generation units and demand response resources have been also considered. Finally, by performing multiple simulations, the efficiency and applicability of the proposed integrated model have been verified.
Keywords: Restoration, microgrid, distribution network, demand response
Full-Text [PDF 1194 kb]   (1477 Downloads)    
Type of Study: Research |
Received: 2017/09/7 | Accepted: 2018/07/7 | Published: 2018/08/25
References
1. [1] Aki H., "Demand-Side Resiliency and Electricity Continuity: Experiences and Lessons Learned in Japan," in Proceedings of the IEEE, Vol. 105, No. 7, pp. 1443-1455, July 2017.
2. [2] Gholami A., Aminifar F. and Shahidehpour M., "Front Lines Against the Darkness: Enhancing the Resilience of the Electricity Grid Through Microgrid Facilities," in IEEE Electrification Magazine, Vol. 4, No. 1, pp. 18-24, March 2016.
3. [3] Panteli M., Mancarella P., “Influence of extreme weather and climate change on the resilience of power systems: Impacts and possible mitigation strategies,” Electric Power Systems Research, Vol. 127, 2015.
4. [4] Adibi M. M., Fink L. H., “Power system restoration planning,” IEEE Trans. Power Syst., Vol. 9, No. 1, pp. 22–28, Feb. 1994.
5. [5] Lindemeyer D., Dommel H. W., Adibi M. M., “Power system restoration—A bibliographical survey,” Int. J. Electr. Power Energy Syst., Vol. 23, No. 3, pp. 219–227, Mar. 2001.
6. [6] Bie Z., Lin Y., Li G., "Battling the Extreme: A Study on the Power System Resilience," in Proceedings of the IEEE, Vol. 105, No. 7, pp. 1253-1266, July 2017.
7. [7] Chen C., Wang J., Ton D., "Modernizing Distribution System Restoration to Achieve Grid Resiliency Against Extreme Weather Events: An Integrated Solution," in Proceedings of the IEEE, Vol. 105, No. 7, pp. 1267-1288, July 2017.
8. [8] Tsikalakis A., Hatziar N., “Operation of microgrids with demand side bidding and continuity of supply for critical loads,” Eur. Trans. Electr. Power, Vol. 21, No. 2, pp. 1238–1254, Mar. 2011.
9. [9] Rahman S., “Framework for a resilient and environment-friendly microgrid with demand-side participation,” in Proc. IEEE Power Eng.Soc. Gen. Meeting—Convers. Del. Electr. Energy 21st Century, 2008.
10. [10] Resende F. O., Gil N. J., and Lopes J. A. P., “Service restoration on distribution systems using Multi-MicroGrids,” Eur. Trans. Electr. Power, Vol. 21, No. 2, pp. 1327–1342, Mar. 2011.
11. [11] Colson C. M., Nehrir M. H., and Gunderson R. W., “Distributed multiagent microgrids: A decentralized approach to resilient power system self-healing,” in Proc. 4th Int. Symp. Resilient Control Syst., 2011.
12. [12] Hurtt J., Mili L., “Residential microgrid model for disaster recovery operations,” in Proc. IEEE Grenoble Conf., pp. 1–6, 2013.
13. [13] Farzin H., Fotuhi-Firuzabad M., Moeini-Aghtaie M., "Enhancing Power System Resilience Through Hierarchical Outage Management in Multi-Microgrids," in IEEE Transactions on Smart Grid, Vol. 7, No. 6, pp. 2869-2879, Nov. 2016.
14. [14] Gao H., Chen Y., Xu Y., "Resilience-Oriented Critical Load Restoration Using Microgrids in Distribution Systems," in IEEE Transactions on Smart Grid, Vol. 7, No. 6, pp. 2837-2848, Nov. 2016.
15. [15] Chen B., Chen C., Wang J., Butler-Purry K., "Sequential Service Restoration for Unbalanced Distribution Systems and Microgrids," in IEEE Transactions on Power Systems, Vol. PP, No. 99, pp. 1-1.
16. [16] Chen C., Wang J., Qiu F., "Resilient Distribution System by Microgrids Formation After Natural Disasters," in IEEE Transactions on Smart Grid, Vol. 7, No. 2, pp. 958-966, March 2016.
17. [17] Ding T., Lin Y., Bie Z., Chen C., “A resilient microgrid formation strategy for load restoration considering master-slave distributed generators and topology reconfiguration,” Applied Energy, Vol. 199, , pp. 205-216, 2017.
18. [18] Fischer J, Heun V. Theoretical and Practical Improvements on the RMQ-Problem, with Applications to LCA and LCE. Combinatorial Pattern Matching 2006; 4009. Springer, Berlin.
19. [19] Yuan H., Li F., Wei Y., "Novel Linearized Power Flow and Linearized OPF Models for Active Distribution Networks with Application in Distribution LMP," in IEEE Transactions on Smart Grid, Vol. PP, No. 99, pp. 1-1.
20. [20] IBM ILOG CPLEX 12.6 ; 2015.
21. [21] Zhang D., Fu Z., Zhang L., “An improved TS algorithm for loss-minimum reconfiguration in large-scale distribution systems,” Electric Power Systems Research, Vol. 77, No. 5, 2007.
22. [22] Selim, K., Gorpinich A., "Economical optimization of capacitor placement for large-scale practical distorted distribution network," Electrical Power Quality and Utilisation Journal Vol. 16, pp. 21-29, 2013.
23. [23] https://www.dropbox.com/s/v3ha3w4hj8e4p9j/274_bus_Data.xlsx?dl=0


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Mousavizadeh M, haghifam M R, shariatkhah M H. A Linear Path-based Method to Load Restoration in Distribution Networks by Microgrids Formation. ieijqp 2018; 7 (1) :35-44
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Volume 7, Issue 1 (9-2018) Back to browse issues page
نشریه علمی- پژوهشی کیفیت و بهره وری صنعت برق ایران Iranian Electric Industry Journal of Quality and Productivity
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