Mahmoud F. Elmorshedy

TL;DR: In this paper, a joint and conceptual approach for techno-economic design and dynamic rule-based power control of an off-grid solar/wind hybrid renewable energy system integrated with a hybrid energy storage system was proposed.

TL;DR: In this article, a comprehensive taxonomy for cooling techniques applied to photovoltaics is presented, which includes convective cooling, conductive cooling, phase change materials, and radiative cooling.

TL;DR: Model predictive control (MPC) has been widely used in controller design in different applications both by academia and industry as discussed by the authors and has numerous features and advantages, such as direct switching states to the converter without any modulation, online optimization with multivariable control, low current total harmonic distortion, low switching loss, etc.

TL;DR: The design optimization results show that the hybridization of wind, battery, and converter presents optimal configuration plan with minimum values of total net present cost and cost of energy, which means 76.7% reduction in both total system cost and energy cost and 100% saving in harmful emissions when compared to the base case using diesel generator.

TL;DR: Simulation results demonstrated that HRES with PV-wind-battery is the most viable option for the specified area, and the optimal sizing of components are obtained with $ 28,620 NPC and $ 0.311/kWh COE, which shows 81.65 % reduction in cost and 100 % preserving in toxic emission.