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Qualitative indicators used to select the placement and parameters of energy storage installed in the distribution network

Treść / Zawartość
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Warianty tytułu
PL
Wskaźniki jakościowe wykorzystywane przy wyborze lokalizacji oraz parametrów zasobników energii instalowanych w sieciach dystrybucyjnych
Języki publikacji
EN PL
Abstrakty
EN
The technology related to energy storage has developed in recent years. Continuous improvement of the solutions available on the market resulted in wider usability of energy storage. They are also increasingly used in a distribution network. This study contains a synthesised description of physical features of the energy storage used in distribution networks. Several criteria of algorithms used to determine the placement and parameters of energy storage are discussed. In a synthesised manner, the usability level of the given storage type to achieve the assumed optimisation criterion is shown.
PL
W ostatnich latach nastąpił rozwój technologii związanej z magazynowaniem energii. Ciągłe udoskonalanie dostępnych na rynku rozwiązań spowodowało poszerzenie możliwości wykorzystania zasobników energii. Coraz częściej znajdują one zastosowanie również w sieci dystrybucyjnej. Niniejsze opracowanie zawiera syntetyczny opis właściwości fizycznych zasobników energii stosowanych w sieciach dystrybucyjnych. Omówiono również wiele kryteriów stosowanych w algorytmach wykorzystywanych w celu określenia lokalizacji i parametrów zasobników energii. W syntetyczny sposób pokazano poziom przydatności danego typu zasobnika do realizacji przyjętego kryterium optymalizacyjnego.
Wydawca
Czasopismo
Rocznik
Tom
Strony
86--92
Opis fizyczny
Bibliogr. 38 poz., rys., tab.
Twórcy
autor
  • Gdańsk University of Technology
  • Gdańsk University of Technology
autor
  • Gdańsk University of Technology
Bibliografia
  • 1. Fuchs G. et al., “Technology overview on electricity storage”, ISEA Aachen Juni, 2012.
  • 2. Szczerbowski R., Ceran B., “Możliwości i perspektywy magazynowania energii w generacji rozproszonej” [Opportunities and prospects for energy storage in distributed generation], Logistyka [Logistics] 2014, No. 4.
  • 3. Rui H., Wellssow W.H., “Assessing distributed storage management in LV grids using the smart grid metrics framework”, PowerTech, 2015 IEEE Eindhoven, 2015.
  • 4. Barnes A.K. et al., “Placement of energy storage coordinated with smart PV inverters”, Innovative Smart Grid Technologies (ISGT), 2012 IEEE PES, 2012.
  • 5. Qing Z. et al., “Optimal siting & sizing of battery energy storage system in active distribution network”, Innovative Smart Grid Technologies Europe (ISGT EUROPE), 2013 4th IEEE/PES, 2013.
  • 6. Deeba S. et al., “Evaluation of Technical and Financial Benefits of Battery-Based Energy Storage Systems in Distribution Networks”, IET Renewable Power Generation, Vol. 10, Issue 8, 2016.
  • 7. Thrampoulidis C., Bose S., Hassibi B., “Optimal placement of distributed energy storage in power networks”, IEEE Transactions on Automatic Control, Vol. 61, No. 2, 2016.
  • 8. Marra F. et al., “Energy storage options for voltage support in lowvoltage grids with high penetration of photovoltaic”, Innovative Smart Grid Technologies (ISGT Europe), 2012 3rd IEEE PES International Conference and Exhibition on, 2012.
  • 9. Giannitrapani A. et al., “Optimal allocation of energy storage systems for voltage control in LV distribution networks”, IEEE Transactions on Smart Grid, Issue 99, 2016.
  • 10. Nazaripouya H. et al., “Optimal sizing and placement of battery energy storage in distribution system based on solar size for voltage regulation”, 2015 IEEE Power & Energy Society General Meeting, 2015.
  • 11. Nick M., Cherkaoui R., Paolone M., “Optimal siting and sizing of distributed energy storage systems via alternating direction method of multipliers”, International Journal of Electrical Power & Energy Systems, Vol. 72, 2015.
  • 12. Barnes A.K, Balda C, “Placement of distributed energy storage via multidimensional scaling and clustering”, Renewable Energy Research and Application (ICRERA), 2014 International Conference on, 2014.
  • 13. Karanki S.B. et al., “Optimal location of battery energy storage systems in power distribution network for integrating renewable energy sources”, Energy Conversion Congress and Exposition (ECCE), 2013 IEEE, 2013.
  • 14. Abad M.S.S. et al., “Optimal sizing of distributed energy storage with consideration of demand response in distribution systems”, Electrical Engineering (ICEE), 2016 24th Iranian Conference on, 2016.
  • 15. Lamberti F. et al., “Impact analysis of distributed PV and energy storage systems in unbalanced LV networks”, PowerTech, 2015 IEEE Eindhoven, 2015.
  • 16. Chua K.H. et al., “Energy storage system for mitigating voltage unbalance on low-voltage networks with photovoltaic systems”, IEEE Transactions on Power Delivery Journal, Vol. 27, No. 4, 2012.
  • 17. Joshi K.A., Pindoriya N.M., “Day-ahead dispatch of Battery Energy Storage System for peak load shaving and load leveling in low voltage unbalance distribution networks”, 2015 IEEE Power & Energy Society General Meeting, 2015.
  • 18. Wasiak I., Pawelek R., Mienski R., “Energy storage application in low-voltage microgrids for energy management and power quality improvement”, IET Generation, Transmission & Distribution, Vol. 8, No. 3, 2014.
  • 19. Wandelt F. et al., “Comparison of flywheels and batteries in combination with industrial plants for the provision of Primary Control Reserve”, PowerTech, 2015 IEEE Eindhoven, 2015.
  • 20. Zhang Y. et al., “Optimal allocation of battery energy storage systems in distribution networks with high wind power penetration”, IET Renewable Power Generation, Vol. 10, Issue 8, 2016.
  • 21. Torchio M., Magni L., Raimondo D.M., “A mixed integer SDP approach for the optimal placement of energy storage devices in power grids with renewable penetration”, American Control Conference (ACC), 2015.
  • 22. Nguyen N.T. et al., “Sensitivity analysis on locations of Energy Storage in power systems with wind integration”, Environment and Electrical Engineering (EEEIC), 2015 IEEE 15th International Conference on, 2015.
  • 23. Sun Q. et al., “Optimal Placement of Energy Storage Devices in Microgrids via Structure Preserving Energy Function”, IEEE Transactions on Industrial Informatics, Vol. 12, No. 3, 2016.
  • 24. Gantz J.M., Amin S.M., Giacomoni A.M., “Optimal mix and placement of energy storage systems in power distribution networks for reduced outage costs”, 2012 IEEE Energy Conversion Congress and Exposition (ECCE), 2012.
  • 25. Bludszuweit H., Domínguez-Navarro J.A., “A probabilistic method for energy storage sizing based on wind power forecast uncertainty”, IEEE Transactions on Power Systems, Vol. 26, No. 3, 2011.
  • 26. Jabr R.A., Karaki S., Korbane J.A., “Robust multi-period OPF with storage and rene-wables”, IEEE Transactions on Power Systems, Vol. 30, No. 5, 2015.
  • 27. Zhao H. et al., “Optimal siting and sizing of Energy Storage System for power systems with large-scale wind power integration”, PowerTech, 2015 IEEE Eindhoven, 2015.
  • 28. Giannitrapani A. et al., “Algorithms for placement and sizing of energy storage systems in low voltage networks”, 2015 54th IEEE Conference on Decision and Control (CDC), 2015.
  • 29. Grillo S., Pievatolo A., Tironi E., “Optimal Storage Scheduling Using Markov Decision Processes”, IEEE Transactions on Sustainable Energy, Vol. 7, Issue 2, 2016.
  • 30. Fan Z., Lei Z., “Study on power energy storage allocation of weak power distribution grid with high-density distributed generation integration”, Electricity Distribution (CICED), 2016 China International Conference on, 2016.
  • 31. Pandžić H., “Near-optimal method for siting and sizing of distributed storage in a transmission network”, IEEE Transactions on Power Systems, Vol. 30, No. 5, 2015.
  • 32. Bose S. et al., “Optimal placement of energy storage in the grid”, 2012 IEEE 51st IEEE Conference on Decision and Control (CDC), 2012.
  • 33. Gonçalves J., Neves L., Martins A.G., “Multiobjective Methodology for Assessing the Location of Distributed Electric Energy Storage”, European Conference on the Applications of Evolutionary Computation, 2015.
  • 34. Nick M., Cherkaoui R., Paolone M., “Optimal allocation of dispersed energy storage systems in active distribution networks for energy balance and grid support”, IEEE Transactions on Power Systems, Vol. 29, No. 5, 2014.
  • 35. Mohammadi F. et al., “Allocation of Centralized Energy Storage System and Its effect on Daily Grid Energy Generation Cost”, IEEE Transactions on Power Systems, Vol. 32, Issue 3, 2017.
  • 36. Wogrin S., Gayme D.F., “Optimizing storage siting, sizing, and technology portfolios in transmission-constrained networks”, IEEE Transactions on Power Systems, Vol. 30, No. 6, 2015.
  • 37. Wang L. et al., “Coordination of Multiple Energy Storage Units in a Low-Voltage Distribution Network”, IEEE Transactions on Smart Grid, Vol. 6, No. 6, 2015.
  • 38. “Warunki korzystania, prowadzenia ruchu, eksploatacji i planowania rozwoju sieci” [Conditions for using and operating the grid, and planning its development], IRiESP 2012.
Uwagi
1. Wersja polska na stronach 93--97.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-835dc700-a66c-4551-849f-1662fb32f4eb
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