Open AccessEffective Power Quality Improvement in PV Grid by using Adaptive Hysteresis Dynamic Active Power Filter Under Different Source Voltage Control Strategies
Author(s) -
Suresh Penagaluru,
Gowri Manohar. T
Publication year - 2019
Publication title -
international journal of engineering and advanced technology
Language(s) - English
Resource type - Journals
ISSN - 2249-8958
DOI - 10.35940/ijeat.c5537.109119
Subject(s) - power factor , ac power , harmonics , dynamic demand , voltage optimisation , photovoltaic system , active filter , maximum power point tracking , electronic engineering , electric power system , computer science , voltage source , control theory (sociology) , engineering , voltage , power (physics) , electrical engineering , control (management) , inverter , physics , quantum mechanics , artificial intelligence
With the modernization of loads using power electronic components and dynamic loads diminishes the power quality of the system. Integration of renewable energy sources is the best solution to meet the additional power demand and also to improve the power quality problems like low power factor and harmonics distortions. In this paper, an adaptive dynamic shunt active power filter is proposed to alleviate the power quality problems like current harmonic distortions and reactive power compensation. The proposed control strategy performance is examined under different source voltage conditions under IEEE standards. Photovoltaic system is integrated at DC link of the Adaptive dynamic shunt active power filter. Proposed system performance is studied by using MATLAB/SIMULINK Environment.