© The Institution of Engineering and Technology
With increased penetration of energy storage system in micro-grids, rapid and standardised information exchange is becoming essential for secure and reliable operation of energy storage system. This study presents an extensional information model for battery energy storage system (BESS) in micro-grid, which is based on the communication standards of the International Electrotechnical Commission (IEC) 61850. The implementation framework for BESS operation based on the extensional information model is proposed in detail; and the actual BESS operation tests are performed through an intelligent electronic device and a micro-grid test system. The experimental results show that the proposed BESS extensional information model and the implementation framework for BESS operation are available, which demonstrates an effective solution for flexible operation of BESS.
References
-
-
1)
-
9. Katiraei, F., Iravani, M.R.: ‘Power management strategies for a microgrid with multiple distributed generation units’, IEEE Trans. Power Syst., 2006, 21, (4), pp. 1821–1831 (doi: 10.1109/TPWRS.2006.879260).
-
2)
-
9. Stjepan, S., Tomislav, D., Tomislav, C., et al: ‘Economic dispatch of virtual power plants in an event-driven service-oriented framework using standards-based communications’, Electr. Power Syst. Res., 2011, 81, (12), pp. 2108–2119 (doi: 10.1016/j.epsr.2011.08.008).
-
3)
-
15. Timbus, A., Larsson, M., Yuen, C.: ‘Active management of distributed energy resources using standardized communications and modern information technologies’, IEEE Trans. Ind. Electron., 2009, 56, (10), pp. 4029–4037 (doi: 10.1109/TIE.2009.2017123).
-
4)
-
19. Ren, Y.M., Cao, F.M.: ‘New development and new application of IEC 61850’, Autom. Electr. Power Syst., 2013, 37, (2), pp. 1–6.
-
5)
-
16. Ustun, T.S., Ozansoy, C.R., Zayegh, A.: ‘Implementing vehicle-to-grid (V2G) technology with IEC 61850-7-420’, IEEE Trans. Smart Grid, 2013, 4, (2), pp. 1180–1187 (doi: 10.1109/TSG.2012.2227515).
-
6)
-
7)
-
20. Ustun, T.S., Ozansoy, C., Zayegh, A.: ‘Extending IEC 61850-7-420 for distributed generators with fault current limiters’, IEEE Innov. Smart Grid Technol. Asia (ISGT), 13–16 Nov 2011, pp. 1–8.
-
8)
-
23. Strasser, T., Andren, F., Lehfuss, F., et al: ‘Online reconfigurable control software for IEDs’, IEEE Trans. Ind. Inf., 2013, 9, (3), pp. 1455–1465 (doi: 10.1109/TII.2013.2247045).
-
9)
-
10)
-
23. Barton, J.P., Infield, D.G.: ‘Energy storage and its use with intermittent renewable energy’, IEEE Trans. Energy Convers., 2004, 19, (2), pp. 441–448 (doi: 10.1109/TEC.2003.822305).
-
11)
-
21. Manassero, G., Pellini, E.L., Senger, E.C., et al: ‘IEC61850–based systems – functional testing and interoperability issues’, IEEE Trans. Ind. Inf., 2013, 9, (3), pp. 1436–1444 (doi: 10.1109/TII.2012.2217977).
-
12)
-
6. Chen, C.L., Wang, Y.B., Lai, J.S., et al: ‘Design of parallel inverters for smooth mode transfer microgrid applications’, IEEE Trans. Power Electron., 2010, 25, (1), pp. 6–15 (doi: 10.1109/TPEL.2009.2025864).
-
13)
-
10. Ruiz-Alvarez, A., Colet-Subirachs, A., Alvarez-Cuevas, F.F., et al: ‘Operation of a utility connected microgrid using an IEC 61850-based multi-level management system’, IEEE Trans. Smart Grid, 2012, 3, (2), pp. 858–865 (doi: 10.1109/TSG.2012.2187222).
-
14)
-
12. Yoo, B.K., Seung, Y.H., Hyo-Sik, Y., et al: ‘Communication architecture of the IEC 61850-based micro grid system’, J. Electr. Eng. Tech., 2011, 6, (5), pp. 605–612. (doi: 10.5370/JEET.2011.6.5.605).
-
15)
-
[30]. Palensky, P., Dietrich, D.: ‘Demand side management: demand response, intelligent energy systems, and smart loads’, IEEE Trans. Ind. Inform., 2011, 7, (3), pp. 381–388 (doi: 10.1109/TII.2011.2158841).
-
16)
-
17. Colet-Subirachs, A., Ruiz-Alvarez, A., Gomis-Bellmunt, O., et al: ‘Centralized and distributed active and reactive power control of a utility connected microgrid using IEC61850’, IEEE Syst. J., 2012, 6, (1), pp. 58–67 (doi: 10.1109/JSYST.2011.2162924).
-
17)
-
8. Peças Lopes, J.A., Moreira, C.L., Madureira, A.G.: ‘Defining control strategies for microgrids islanded operation’, IEEE Trans. Power Syst., 2006, 21, (2), pp. 916–924 (doi: 10.1109/TPWRS.2006.873018).
-
18)
-
3. Deng, W., Pei, W., Qi, Z.P.: ‘Micro-grid information exchange based on IEC 61850’, Autom. Electr. Power Syst., 2013, 37, (3), pp. 6–11.
-
19)
-
7. Ozansoy, C.R., Zayegh, A., Kalam, A.: ‘Object modeling of data and datasets in the international standard IEC 61850’, IEEE Trans. Power Deliv., 2009, 24, (3), pp. 1140–1147 (doi: 10.1109/TPWRD.2008.2005658).
-
20)
-
11. Ingram, D.M.E., Schaub, P., Taylor, R.R., et al: ‘Network interactions and performance of a multifunction IEC 61850 process bus’, IEEE Trans. Ind. Electron., 2013, 60, (12), pp. 5933–5942 (doi: 10.1109/TIE.2012.2233701).
-
21)
-
12. Abbey, C., Joos, G.: ‘Supercapacitor energy storage for wind energy applications’, IEEE Trans. Ind. Appl., 2007, 43, pp. 769–776 (doi: 10.1109/TIA.2007.895768).
-
22)
-
22. Santodomingo, R., Rohjans, S., Uslar, M., et al: ‘Facilitating the automatic mapping of IEC 61850 signals and CIM measurements’, IEEE Trans. Power Syst., 2013, 28, (4), pp. 4348–4355 (doi: 10.1109/TPWRS.2013.2267657).
-
23)
-
24)
-
8. Ozansoy, C.R., Zayegh, A., Kalam, A.: ‘The application-view model of the international standard IEC 61850’, IEEE Trans. Power Deliv., 2009, 24, (3), pp. 1132–1139 (doi: 10.1109/TPWRD.2008.2005657).
-
25)
-
24. Zhabelova, G., Vyatkin, V.: ‘Multiagent smart grid automation architecture based on IEC 61850/61499 intelligent logical nodes’, IEEE Trans. Ind. Electron., 2012, 59, (5), pp. 2351–2362 (doi: 10.1109/TIE.2011.2167891).
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