Welcome to the InfoSci Platform
Design, Control, Management, and Performance Analysis of PV-Battery Supercapacitor DC-System Using Buck Converter

Design, Control, Management, and Performance Analysis of PV-Battery Supercapacitor DC-System Using Buck Converter

Yasmine Amara, Zoulikha Tebri, Zina Larabi
Copyright: © 2022 |Pages: 29
ISBN13: 9781799874478|ISBN10: 1799874478|ISBN13 Softcover: 9781799874485|EISBN13: 9781799874492
DOI: 10.4018/978-1-7998-7447-8.ch002
Cite Chapter Cite Chapter

MLA

Amara, Yasmine, et al. "Design, Control, Management, and Performance Analysis of PV-Battery Supercapacitor DC-System Using Buck Converter." Modeling and Control of Static Converters for Hybrid Storage Systems, edited by Arezki Fekik and Nacereddine Benamrouche, IGI Global, 2022, pp. 36-64. https://doi.org/10.4018/978-1-7998-7447-8.ch002

APA

Amara, Y., Tebri, Z., & Larabi, Z. (2022). Design, Control, Management, and Performance Analysis of PV-Battery Supercapacitor DC-System Using Buck Converter. In A. Fekik & N. Benamrouche (Eds.), Modeling and Control of Static Converters for Hybrid Storage Systems (pp. 36-64). IGI Global. https://doi.org/10.4018/978-1-7998-7447-8.ch002

Chicago

Amara, Yasmine, Zoulikha Tebri, and Zina Larabi. "Design, Control, Management, and Performance Analysis of PV-Battery Supercapacitor DC-System Using Buck Converter." In Modeling and Control of Static Converters for Hybrid Storage Systems, edited by Arezki Fekik and Nacereddine Benamrouche, 36-64. Hershey, PA: IGI Global, 2022. https://doi.org/10.4018/978-1-7998-7447-8.ch002

Export Reference

Mendeley
Favorite

Abstract

The intermittent nature of photovoltaic energy necessitates the incorporation of storage devices to ensure the continuality of loads feeding. In addition, it is important to model, control, and verify the operating of the designed system before implementation. Furthermore, the integration of power electronic interfaces plays a significant role in protecting the system and benefiting from solar energy. To this end, a buck converter is chosen to charge the battery and supply the supercapacitor. The control strategy is based on the maximum power point tracking techniques when the management algorithm recommends MPPT function mode. Otherwise, a feedback constant voltage PI controller is designed. Indeed, perturb and observe and incremental conductance are implemented and compared to analyze the system efficiency within the management strategy to charge the battery, switch between the controllers, and feed a supercapacitor in case of full battery charge. The obtained results using MATLAB/SIMULINK platform confirm the behaviour of the proposed strategy.

Request Access

You do not own this content. Please login to recommend this title to your institution's librarian or purchase it from the IGI Global bookstore.