Abstract
The objective of the proposed work is to develop a Maximum Power Point Tracking (MPPT) controller and inverter controller by applying the adaptive least mean square (LMS) algorithm to control the total harmonics distortion of a solar photovoltaic system. The advantage of the adaptive LMS algorithm is given by its simplicity and reduced required computational time. The adaptive LMS algorithm is applied to modify the Perturb and Observe (P&O), MPPT controller. In this controller, the adaptive LMS algorithm is used to predict solar photovoltaic power. The adaptive LMS maximum power point tracking controller gives better optimal solutions with less steady error 0.7% (6 watts) and 0% peak overshot in power with the tradeoff being more settling time at 0.33 s. The development of the inverter control law is performed using the d-q frame theory. This helps to reduce the number of equations to build a control law. The load current, grid current and grid voltage are sensed and transformed into d and q components. This adaptive LMS control law is used to extract the reference grid currents and, later, to compare them with the actual grid currents. The result of this comparison is used to generate the switching gate pulses for the inverter switches. The proposed controllers are developed and implemented with a solar PV system in MATLAB Simulink. The total harmonics distortion in grid and load current (3.25% and 7%) and voltage (0%) is investigated under linear and non-linear load conditions with changes in solar irradiations. The analysis is performed by selecting step incremental values and sampling time.
Funder
the Spanish Andalusian Research Project
Subject
Energy (miscellaneous),Energy Engineering and Power Technology,Renewable Energy, Sustainability and the Environment,Electrical and Electronic Engineering,Control and Optimization,Engineering (miscellaneous),Building and Construction
Reference35 articles.
1. Iweh, C.D., Gyamfi, S., Tanyi, E., and Effah-Donyina, E. (2021). Distributed Generation and Renewable Energy Integration into the Grid: Prerequisites, Push Factors, Practical Options, Issues and Merits. Energies, 14.
2. Math, H.J., and Fainan Hassan, B. (2018). Integration of Distributed Generation in the Power System, John Wiley & Sons.
3. Artificial Intelligence Based MPPT techniques for Solar V System: A Review;Patel;J. Emerg. Technol. Innov. Res.,2019
4. Control of distributed generation systems for microgrid applications: A technological review;Arfeen;Int. Trans. Electr. Energ. Syst.,2019
5. A Variable Step Size Adaptive LMS Algorithm Implementation for MPP Tracking In Solar PV System;Anvarsha;Int. J. Adv. Res. Electr. Electron. Instrum. Eng.,2014
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