"Power Quality Consideration for Off-Grid Renewable Energy Systems"
written by Mojgan Hojabri, Arash Toudeshki,
published by Energy and Power Engineering, Vol.5 No.5, 2013
has been cited by the following article(s):
  • Google Scholar
  • CrossRef
[1] Dynamic voltage restorer-based power quality optimization using differential evolution algorithm
2019
[2] DESIGN SIMULATION AND EVALUATION OF PHOTOVOLTAIC PLANT
2018
[3] A holistic approach to power quality parameter optimization in AC coupling Off-Grid systems
Electric Power Systems Research, 2017
[4] The Power Quality Forecasting Model for Off-Grid System Supported by Multi-objective Optimization
2017
[5] Design and implementation of a supervisory system for wind turines inverters
2017
[6] The power quality forecasting model for off-grid system supported by multiobjective optimization
2017
[7] A novel approach to adaptive active relay protection system in single phase AC coupling Off-Grid systems
Electric Power Systems Research, 2016
[8] Enhance the Distribution Network by Adding Small Hydro Power Plants (SHPPS)
2016
[9] Design and Analysis of Second Order Passive Filters for Grid Connected Inverter with Series and Parallel Damping Resistors
Indian Journal of Science and Technology, 2016
[10] IMPACT OF PHOTOVOLTAIC AND WIND ENERGY HYBRID SYSTEMS ON POWER QUALITY IN DISTRIBUTION NETWORK
2016
[11] DESIGN, APPLICATION AND COMPARISON OF PASSIVE FILTERS FOR THREE-PHASE GRID-CONNECTED RENEWABLE ENERGY SYSTEMS
ARPN Journal of Engineering and Applied Sciences, 2015
[12] Third-Order Passive Filter Improvement for Renewable Energy Systems to Meet IEEE 519-1992 Standard Limits
2015
[13] Harmonic Distortion Contribution for the Transmission Loss Allocation in Deregulated Energy Market
Journal of Electrical Engineering & Technology, 2015
[14] Harmonic Distortion Contribution for the Transmission Loss Allocation in Deregulated Energy Market: A New Scheme for Industry Co
S Nojeng, MY Hassan, DM Said, MP Abdullah - jeet.or.kr, 2014
[15] POŽIADAVKY NA PARAMETRE ELEKTRICKÉHO NAPÁJANIA VO FOTOVOLTICKÝCH OSTROVNÝCH SYSTÉMOCH
2014