30Dec 2017

FREQUENCY REGULATION WITH VANADIUM REDOX FLOW BATTERY STORAGE SYSTEM IN SMART GRID.

  • PG Student/Electrical and Electronics Engineering, Kamaraj College of Engineering and Technology, Virudhunagar, Tamilnadu.
  • Professor/ Electrical and Instrumentation Engineering, Kamaraj College of Engineering and Technology, Virudhunagar, Tamilnadu.
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Energy storage systems are prime part for demand load management in the smart grid. Electrochemical energy storage system is one among them to improve the storage of energy. Since technologies like sodium-sulphur, lithium-ion and redox flow batteries have been developed to support grid application. In which the Vanadium Redox Flow Battery(VRFB) can able to reach 80% efficiency and have a fast time response .The International Electrochemical Commission(IEC) recommends industry to develop their storage management systems which allow use of a single storage system for not just one but many of the applications..Controllers and management systems are required which function independently of the types of batteries being controlled. The control technology should function even when the applications belong to different scenarios. Vanadium redox flow batteries are a promising option to mitigate the overall cost, the number of charging cycles, the depth of discharge and energy density. This study presents a modeling of VRFB based storage device along with a controller. The effectiveness where prove under different scenarios.

  1. Alexandre Lucas,Stamatios Chondrogiannis 2016.Smart grid energy storage controller for frequency regulation and peak shaving,using a vanadium redox flow battery .Electrical Power and Energy System 80(2016) 26-36.
  2. The European Economic and Social Committee European Commission. 2015. Energy union package ? a framework strategy for a resilient energy union with a forward looking climate change policy, Communication from the Commission to the Eurpean Parliament, the Council, the Committee of the regions and the European Investment Bank. Brussels; p. 40.
  3. Technology roadmap: energy storage. 2014.International Energy Agency. Paris: OECD/IEA;. p. 110.
  4. Ayodele TR, Ogunjuyigbe ASO. 2015;Mitigation of wind power intermittency:storagetechnology approach. Renew Sustain Energy Rev 44:447?56.
  5. org.Frequency regulation, energy storage association.2015.Available at: <http://energystorage.org/energy-storage/technology-applications frequency-regulation>; [accessed Feb. 2015].
  6. Durand M Jean, Duarte M Jo?o, Clerens Patrick. 2013.European energy storage technology development roadmap towards 2030. Brussels: EASE/EERA;. p. 72.
  7. Sbordone D, Bertini I, Di Pietra B, Falvo MC, Genovese A, Martirano L. : a real implementation in the smart micro grid paradigm .EV fast charging stations and energy storage technologies. Electr Power System;120:96?108.
  8. Anuta OH, Taylor P, Jones D, McEntee T, Wade N. 2014. . Renew Sustain Energy Rev. An international review of the implications of regulatory and electricity market structures on the emergence of grid scale electricity storage;38:489?5
  9. Vasconelos Jorge,Ruester Sophia,He Xian,Chong Eshien,Glachant Jean-Michel.2012;Electricity storage:how to facilitate its deploymentand operation in the EU(Topic 8).THINK,,European University Institute ;http//dx.dox.org/10.2870/41846.p.94.
  10. Skyllas-kazacos M,Chakrabarti MH,Hajimolana SA,Mjalli FS .2011.saleem M.progress in flow battery research and development.J Electrochem Soc:158(8):R55
  11. Burak Turker,Sebastian Arroyo Klein,Eva-Maria Hammer,Bettina Lenz,Lidiya Komsiyska.2013.modelling a vanadium redox flow battery system for large scale applications.Energy Conversion management.p.26-32.
  12. Baccino,F.;Grillo,s.;Marinelli,Mattia;Massucco,s.;Silvestro,F.2011.power and energy control strategies for a vanadium redox flow battery and wind farm combined system.In 2 nd IEEE PES International conference and Exhibition and Innovaties Smart grid Technologies:ISGT Europe.DOI:10.1109/ISGT.
  13. Olivier Trembay,member IEEE,Louis-A.Dessaint,Senior IEEE,and Abdel-Illah Dekkiche.2007.A Generic Battery Model for the Dynamic Simulation of electric Vehicles;0-7803-9761-4/07.
  14. Fernao Pries, Enrique Romero-Cadaval, D.Vinnikov, I.Roasto, J.F.Martins.2014.Power Converter interfaces for electrochemical energy storage systems-A review.Energy Conversion and Management 86.p.453-475.
  15. A Solomon,Daniel M.Kammen,D.Callaway.2014.The role of large-scale energy storage design and dispatch in the power grid:A study of very high grid penetration of variable renewable resources.Applied Energy 134.p.75-89.

[L. Sathyarani and Dr. S. Jeyadevi. (2017); FREQUENCY REGULATION WITH VANADIUM REDOX FLOW BATTERY STORAGE SYSTEM IN SMART GRID. Int. J. of Adv. Res. 5 (Dec). 1591-1598] (ISSN 2320-5407). www.journalijar.com

L.SATHYARANI

DOI:

Article DOI: 10.21474/IJAR01/6123      
DOI URL: https://dx.doi.org/10.21474/IJAR01/6123

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