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2023 | OriginalPaper | Buchkapitel

Intelligent Control-Based Effective Utilization of Renewable Energy Sources

verfasst von : G. Anandhakumar, M. Lavanya, G. B. Santhi, Chidambaranathan Bibin

Erschienen in: Energy and Exergy for Sustainable and Clean Environment, Volume 2

Verlag: Springer Nature Singapore

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Abstract

A rapid development is taking place in the field of renewable energy sources to increase the power generation because these sources are eco-friendly, non-polluting, freely available in nature sources like solar wind, biomass, hydro, and tidal. These renewable sources are mostly uncontrollable and all the same time different methods should be done to build a power plant to generate a continuous and constant power. The selection of the renewable energy source for the plant is one of the important roles for energy optimization. This is mainly focused toward the solar and wind power combination, whereas the solar system is the major renewable energy source for energy generation. In this work, a dynamic hardware model for an intelligent control-based effective utilization of hybrid renewable energy sources and Battery Management System. It also explains the implementation of fuzzy logic algorithm. The Battery Management System (BMS) is simulated in MATLAB software by using fuzzy logic controller (FLC). BMS explains the charging state and discharging state of battery. Then, it is implemented in hardware model for effective utilization of renewable energy sources. The identification of each subsystem has been made, and then, the proposed system is modeled and simulated using MATLAB—Simulink package. The proposed control strategy has been experimentally implanted, and practical results are compared to those obtained by simulation under the same metrological conditions, showing the effectiveness of the proposed system.

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Kiyokawa I, Niida K, Tsujikawa T, Motozu T (2000) Integrated VRLA-battery management system. In: 2000 Twenty-second international telecommunications energy conference INTELEC, pp 703–706. https://doi.org/10.1109/INTLEC.2000.88432

Anbuky AH, Hunter P, Johnson T, Lim D (2002) VRLA battery intelligent node. In: 2002 24th annual international telecommunications energy conference INTELEC, pp 169–175. https://doi.org/10.1109/INTLEC.2002.1048652

Lim D, Anbuky A (2004) Modeling and simulation of a distributed battery management system. In: IEEE international symposium on industrial electronics vol 1, pp 621–626. 4–7 May https://doi.org/10.1109/ISIE.2004.1571878

Wen J, Jiang J (2008) Battery management system for the charge mode of quickly exchanging battery package. In: IEEE 2008 Vehicle power and propulsion conference, VPPC ’08, pp 1–4. https://doi.org/10.1109/VPPC.2008.467748.

Zhou J, Li H, Liu Z, Hu C, Xu D (2014) Control strategy of Li-Ion battery module in super UPS. In: 2014 International electronics and application conference and exposition (PEAC). 5–8 Nov, pp 1236–1241. https://doi.org/10.1109/PEAC.2014.7038039

Pattipati B, Sankavaram C, Pattipati KR (2011) System identification and estimation framework for pivotal automotive battery management system characteristics. IEEE Trans Syst Man Cybern Part C: Appl Rev 41(6):869–884. https://doi.org/10.1109/TSMCC.2010.2089979CrossRef

Ma T, Serrano B, Mohammed O (2014) Fuzzy logic based power and thermal management system design for multi-cell lithium-ion battery bank protection and operation. In: 2014 Clemson university power systems conference (PSC). 11–14 March, pp 1–5. https://doi.org/10.1109/PSC.2014.6808111

Wey CL, Jui PC (2013) A unitized charging and discharging smart battery management system. In 2013 International conference on connected vehicles and expo (ICCVE). 2–6 Dec, pp 903–909. https://doi.org/10.1109/ICCVE.2013.6799924

Ma T, Serrano B, Mohammed O (2014) Fuzzy logic based power and thermal management system design for multi-cell lithium-ion battery bank protection and operation. In: 2014 Clemson University power systems conference (PSC). 11–14 March, pp 1–5. https://doi.org/10.1109/PSC.2014.6808111

10.

Mangunkusumo KG, Lian KL, Aditya P, Chang YR, Lee YD, Ho YH (2014) A battery management system for a small microgrid system. In: 2014 international conference on intelligent green building and smart grid (IGBSG), pp 1–6. https://doi.org/10.1109/IGBSG.2014.6835277

11.

Rajkumar RK, Ramachandaramurthy VK, Yong BL, Chia DB (2011) Techno-economical optimization of hybrid pv/wind/battery system using Neuro-Fuzzy. Energy 36(8):5148–5153CrossRef

12.

Thounthong P, Sikkabut S, Sethakul P, Davat B (2010) Control algorithm of renewable energy power plant supplied by fuel cell/solar cell/supercapacitor power source. In: Proceedings of the international power electronic conference (IPEC). 21–24 June, pp 1155–62

13.

Khanh LN, Seo JJ, Kim YS, Won DJ (2010) Powermanagement strategies for a grid connected PV-FC hybrid system. IEEE Trans Power Deliv 25:1874–82CrossRef

14.

Chen Y, Wu J (2008) Agent-based energy management and control of a gridconnected wind/solar hybrid power system. In: 2008 Proceedings of the IEEE international conference on electrical machines and systems (ICEMS). 17–20 October, pp 2362–65

15.

Jie W (2009) Control technologies in distributed generation system based on renewable energy. In: Proceedings of the IEEE international conference on power electronics systems and applications (PESA), pp 1–14.

16.

Babazadeh H, Gao W, Wang X (2011) Controller design for a hybrid energy storage system enabling longer battery life in wind turbine generators. In: 2011 Proceedings of the North American power symposium (NAPS), pp 1–7

17.

Das D, Esmaili R, Longya Xu, Nichols D. An optimal design of a grid connected hybrid wind/photovoltaic/fuel cell system for distributed energy production. In: 2005 Proceedings of the IEEE transactions on industrial electronics society (IECON). 6–10 November, pp 6–10

18.

Esmaili R, Xu L, Nichols DK (2005) A new control method of permanent magnet generator for maximum power tracking in wind turbine applications. In: Proceedings of the 2005 IEEE power engineering society general meeting. 12–16 June, pp 2090–95

19.

Bo D, Li Y, Zheng Z (2010) Energy management of hybrid DC and AC bus linked microgrid. In: Proceedings of the IEEE international symposium on power electronics for distributed generation systems (PEDG). 16–18 June, pp 713–16

20.

Nguyen TA, Qiu Xin, Gamage TT, Crow ML, McMillin BM, Elmore AC (2011) Microgrid application with computer models and power management integrated using PSCAD/EMTDC. In: 2011 Proceedings of the North American power symposium (NAPS). 4–6 August, 2011, pp. 1–7

21.

Miao Z, Xu L, Disfani VR, Fan L (2014) An SOC-based battery management system for microgrids. IEEE Trans Smartgrid, pp 966–73

22.

Yong BL, Chia DB, Rajkumar RK, Ramachandaramurthy VK, Pasupuleti J (2010) Operation and management of an islanded mode hybrid power system- a Malaysian perspective. In: Proceedings of international conference on advances in renewable energy technologies. Malaysia

23.

Tian G, Ding X, Liu J (2011) Study of control strategy for hybrid energy storage in wind-photovoltaic hybrid streetlight system. In: Proceedings of the international workshop on open-source software for scientific computation (OSSC). 12–14 October, pp 77–81

24.

Gaztanaga H, Etxeberria-Otadui I, Bacha S, Roye D. Real-time analysis of the control structure and management functions of a hybrid microgrid system. In: 2006 Proceedings of the IEEE 32nd annual conference on industrial electronics (IECON). 6–10 November, pp 5137–42

25.

Rezkallah M, Chandra A, Singh B, Niwas R. Modified PQ control for power quality improvement of standalone hybrid wind diesel battery system. In: 2012 Proceedings of the IEEE fifth power India conference, 19–22 December, pp 1–6

Titel: Intelligent Control-Based Effective Utilization of Renewable Energy Sources
verfasst von: G. Anandhakumar
M. Lavanya
G. B. Santhi
Chidambaranathan Bibin
Verlag: Springer Nature Singapore
Buch: Energy and Exergy for Sustainable and Clean Environment, Volume 2
Print ISBN: 978-981-16-8273-5

Electronic ISBN: 978-981-16-8274-2

Copyright-Jahr: 2023
DOI: https://doi.org/10.1007/978-981-16-8274-2_5