Single Stage Autonomous Solar Water Pumping System Using Pi And Fuzzy Controllers

  • B. HARI KRISHNA REDDY, M. VIJAYA KUMAR, M. ANKA RAO
Keywords: Solar water pumping, maximum power point tracking, maximum power point algorithm, PMSM drive, fuzzy and PI controllers.

Abstract

Sustainable power generation and practical  use of existing energy resources has emerged as a notable remedy for rising carbon emissions, diminishing petroleum derivatives, and other issues., increasing a harmful atmospheric deviation, and altering weather conditions.Sunlight-based energy is the best type of RE available in the current scenario due to its flawless nature, unobtrusive activity, and abundant accessibility even in remote locations. The work shows an introverted stage independent sun-oriented photovoltaic exhibit that uses a long-lasting magnet simultaneous engine to handle water syphoning This work's most important contribution is the development of The creation of an unique single stage variable advance size gradual conductance method that offers rapid greatest force point following and removes the requirement for a transitional stage DC-DC converter, as well as a novel changed vector control that enhances the framework's force responsiveness. The discrepancy between reference and real value is reduced by a suitably necessary regulation. The use of single-stage geography has lowering costs, simplifying design, and increasing efficiency. We need Fuzzy and PI regulators instead of PI regulators. expand these activities. The power stream will be enhanced by using this The step reaction of the controller raises the speed, the Dc-connect voltage increases, and the force speed proportion increases. The Matlab/Simulink recreation study was used to analyse the framework's execution.

Published
2021-09-23
How to Cite
M. ANKA RAO, B. H. K. R. M. V. K. (2021). Single Stage Autonomous Solar Water Pumping System Using Pi And Fuzzy Controllers. Design Engineering, 13439-13456. Retrieved from http://www.thedesignengineering.com/index.php/DE/article/view/4608
Section
Articles