MAXIMIZING SOLAR ENERGY HARVESTING: A STUDY ON THE PERFORMANCE ANALYSIS OF DUAL-AXIS SOLAR TRACKING SYSTEM WITH DC MOTOR
Abstract
Efficient solar energy harvesting is pivotal for sustainable energy solutions. This study presents a comprehensive analysis of a dual-axis solar tracking system utilizing a DC motor. The system's ability to optimize solar energy collection by aligning solar panels with the sun's position throughout the day is evaluated. Performance parameters, including energy output, efficiency gains, and tracking accuracy, are scrutinized under various environmental conditions. Through experimental observations and data analysis, the study reveals the system's effectiveness in maximizing solar energy generation. The findings contribute to the advancement of solar tracking technologies and their role in achieving enhanced energy sustainability.
Keywords
Solar tracking system, dual-axis tracking, DC motorHow to Cite
References
Swe Swe Mar, Zarchi San, Thuzar Mon(Set-Oct 2018): Performance Analysis of Dual-Axis Solar TrackingSystem by Using Lock Anti-Phase Drive Method, International Journal of Trend in Scientific Research andDevelopment (IJTSRD), India, Vol-2, Issue - 6, , ISSN: 2456-6470.
Dante Johnson-Hoyte(2013): Dual-Axis Solar Tracker,
Gilbert M. Master(2004): Renewable and Efficient Electric Power System
(A.E. Fitzgerald): Electric Machinery.
(Bill Drury, 2009): The Control Techniques Drives and Controls Handbooks.
Edvard(2015): 4 Types of DC Motors and Their Characteristics.
(Bill Drury, 2009): The Control Techniques Drives and Controls Handbooks.
License
Copyright (c) 2023 Thidar San
This work is licensed under a Creative Commons Attribution 4.0 International License.
The content published on the International Scientific and Current Research Conferences platform, including conference papers, abstracts, and presentations, is made available under an open-access model. Users are free to access, share, and distribute this content, provided that proper attribution is given to the original authors and the source.
