Research on demand side management programs and analysis of their usage efficiency

Authors

  • Сергій Петрович Денисюк National Technical University of Ukraine «Kyiv Polytechnic Institute», Ukraine, 03056, Kyiv, Peremogy av., 37, Ukraine https://orcid.org/0000-0002-6299-3680
  • Віталій Павлович Опришко National Technical University of Ukraine «Kyiv Polytechnic Institute», Ukraine, 03056, Kyiv, Peremogy av., 37, Ukraine https://orcid.org/0000-0003-4963-2490

DOI:

https://doi.org/10.15587/2312-8372.2016.71984

Keywords:

Smart Grid, demand side management, peak load, power, energy efficiency, Frieze power

Abstract

Modern trends in Smart Grid systems aimed on intellectualization of existing electricity supply networks, energy supply and creating local Microgrid systems ensure a high level of reliability and power quality. As part of the Smart Grid concept demand side management applications play an important role in solving technical and technological problems arising in the practical implementation of this concept. The network must implement a catena of demand side management programs by providing various services according to the situation, requirement contracts, forecasting of consumption/demand and collect information about energy savings.

An important need in demand side management programs implementation is an adequate indicator for actual power consumption to relatively optimal, as a variant of this indicator should be used an indicator based on Frieze power, as it takes place on uneven terms of processes even in the absence of reactive elements in the network.

The concept of Frieze power Qф for the grid period is distributed, which helped to get value for optimal assessment processes taking into account voltage and current deviations and ripple coefficients. Variant of usage of Qф/U12·I12 indicator is an illustration of the real power consumption to optimal, because it takes place even in absence of reactive elements in grid.

Author Biographies

Сергій Петрович Денисюк, National Technical University of Ukraine «Kyiv Polytechnic Institute», Ukraine, 03056, Kyiv, Peremogy av., 37

Doctor of Technical Sciences, Professor

Department of electric power supply

Віталій Павлович Опришко, National Technical University of Ukraine «Kyiv Polytechnic Institute», Ukraine, 03056, Kyiv, Peremogy av., 37

PhD student

Department of electric power supply

References

  1. Wade, H. (2010). Introduction to Demand Side Management. Workshop Republic of Palau. Republic of Palau, 381–388.
  2. Smart Power Grids – Talking about a Revolution. (2009). IEEE Emerging Technology Portal. Available: https://www.ieee.org/about/technologies/emerging/emerging_tech_smart_grids.pdf
  3. Ming Zhou, Yajing Gao, Gengyin Li. (2008, April). Study on improvement of available transfer capability by Demand Side Management. 2008 Third International Conference on Electric Utility Deregulation and Restructuring and Power Technologies. Institute of Electrical & Electronics Engineers (IEEE), 545–550. doi:10.1109/drpt.2008.4523466
  4. Pro zatverdzhennia Instruktsii pro poriadok peredachi dokumentatsii ta zdiisnennia derzhavnoi ekspertyzy z enerhozberezhennia na vykonannia p.4 postanovy Kabinetu Ministriv vid 15 lypnia 1998 r. N 1094. Order of the State Committee from 09.03.1999 № 15. Available: http://zakon0.rada.gov.ua/laws/show/z0292-99
  5. Gellings, C. W., Chamberling, J. H. (1993). Demand-Side Management: Concepts and Methods. PennWell, 451.
  6. Palensky, P., Dietrich, D. (2011). Demand Side Management: Demand Response, Intelligent Energy Systems, and Smart Loads. IEEE Transactions on Industrial Informatics, 7 (3), 381–388.doi:10.1109/tii.2011.2158841
  7. Lir, V., Bykonia, O. (2015). Ekonomichni mekhanizmy upravlinnia popytom na rynku elektroenerhii. Ekonomist, 2, 9–13.
  8. Rahman, S., Rinaldy. (1993). An efficient load model for analyzing demand side management impacts. IEEE Transactions on Power Systems, 8 (3), 1219–1226. doi:10.1109/59.260874
  9. Yang, H., Zhang, Y., Tong, X. (2006, September). System Dynamics Model for Demand Side Management. 2006 3rd International Conference on Electrical and Electronics Engineering. Institute of Electrical & Electronics Engineers (IEEE), 1–4. doi:10.1109/iceee.2006.251854
  10. Gabaldon, A., Molina, A., Roldan, C., Fuentes, J. A., Gomez, E., Ramirez-Rosado, I. J., Tarancon, E. (2003). Assessment and simulation of demand-side management potential in urban power distribution networks. IEEE Bologna Power Tech Conference Proceedings. Institute of Electrical & Electronics Engineers (IEEE). Available: http://dx.doi.org/10.1109/ptc.2003.1304784
  11. Mohsenian-Rad, A.-H., Wong, V. W. S., Jatskevich, J., Schober, R., Leon-Garcia, A. (2010). Autonomous Demand-Side Management Based on Game-Theoretic Energy Consumption Scheduling for the Future Smart Grid. IEEE Transactions on Smart Grid, 1 (3), 320–331. doi:10.1109/tsg.2010.2089069
  12. Boshell, F., Veloza, O. P. (2008, August). Review of developed demand side management programs including different concepts and their results. 2008 IEEE/PES Transmission and Distribution Conference and Exposition: Latin America. Institute of Electrical & Electronics Engineers (IEEE), 1–7. doi:10.1109/tdc-la.2008.4641792
  13. De Ridder, F., Hommelberg, M., Peeters, E. (2009). Four potential business cases for demand side integration. 2009 6th International Conference on the European Energy Market. Institute of Electrical & Electronics Engineers (IEEE), 1–6. doi:10.1109/eem.2009.5207197
  14. Stadler, M., Palensky, P., Lorenz, B., Weihs, M., Roesener, C. (2005). Integral resource optimization networks and their techno-economic constraints International Journal of Distributed Energy Resources, 1 (4), 299–319.
  15. Saffre, F., Gedge, R. (2010). Demand-Side Management for the Smart Grid. 2010 IEEE/IFIP Network Operations and Management Symposium Workshops. Institute of Electrical & Electronics Engineers (IEEE), 300–303. doi:10.1109/nomsw.2010.5486558
  16. Zhuikov, V. Ya., Denysiuk, S. P. (2010). Enerhetychni protsesy v elektrychnykh kolakh z kliuchovymy elementamy. Kyiv: TEKST, 264.
  17. Tonkal', V. E., Novosel'tsev, A. V., Denysiuk, S. P. (1992). Balans energii v elektricheskih tsepiah. Kyiv: Naukova dumka, 312.
  18. Opryshko, V. P. (2016). Osoblyvosti intehratsii osnovnykh prohram i metodiv z keruvannia popytom spozhyvannia elektroenerhii. Mizhnarodna naukovo-tekhnichna ta navchalno-metodychna konferentsiia «Enerhetychnyi menedzhment: stan ta perspektyvy rozvytku – PEMS16», 30 travnia-01 chervnia 2016 r. Kyiv: NTUU «KPI», 88–90.

Downloads

Published

2016-05-26

How to Cite

Денисюк, С. П., & Опришко, В. П. (2016). Research on demand side management programs and analysis of their usage efficiency. Technology Audit and Production Reserves, 3(1(29), 69–73. https://doi.org/10.15587/2312-8372.2016.71984

Issue

Vol. 3 No. 1(29) (2016): Mathematical modeling. Mechanical engineering and machine building. Information technologies

Section

Energy, energy-saving technologies and equipment

License

Copyright (c) 2016 Сергій Петрович Денисюк, Віталій Павлович Опришко

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

The consolidation and conditions for the transfer of copyright (identification of authorship) is carried out in the License Agreement. In particular, the authors reserve the right to the authorship of their manuscript and transfer the first publication of this work to the journal under the terms of the Creative Commons CC BY license. At the same time, they have the right to conclude on their own additional agreements concerning the non-exclusive distribution of the work in the form in which it was published by this journal, but provided that the link to the first publication of the article in this journal is preserved.