A
Akbar Maleki
Researcher at University of Shahrood
Publications - 93
Citations - 5558
Akbar Maleki is an academic researcher from University of Shahrood. The author has contributed to research in topics: Photovoltaic system & Renewable energy. The author has an hindex of 36, co-authored 78 publications receiving 3542 citations. Previous affiliations of Akbar Maleki include Graduate University of Advanced Technology & University of Tehran.
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Optimization with a simulated annealing algorithm of a hybrid system for renewable energy including battery and hydrogen storage
TL;DR: The optimization results demonstrate that a wind and solar energy based hybrid system with electrochemical storage offers more cost effective and reliable energy than a hybrid system for renewable energy with chemical storage.
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Optimal sizing of a PV/wind/diesel system with battery storage for electrification to an off-grid remote region: A case study of Rafsanjan, Iran
Akbar Maleki,Alireza Askarzadeh +1 more
TL;DR: In this article, an off-grid hybrid multisource system (PV/wind/diesel/battery) is considered, modeled, optimally sized, and compared with a diesel alone generation system in terms of the total annual cost and environmental emissions.
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Sizing a stand-alone solar-wind-hydrogen energy system using weather forecasting and a hybrid search optimization algorithm
TL;DR: A new hybrid optimization algorithm is proposed for the optimal sizing of a stand-alone hybrid solar and wind energy system based on three algorithms: chaotic search, harmony search and simulated annealing based on artificial neural networks.
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Optimal sizing of autonomous hybrid photovoltaic/wind/battery power system with LPSP technology by using evolutionary algorithms
Akbar Maleki,Fathollah Pourfayaz +1 more
TL;DR: It can be seen that not only average results produced by ABSO are more promising than those of the other algorithms but also ABSO has the most robustness and in other LPSP max values, the PV/WT/battery is the most cost-effective systems.
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Design and optimization of autonomous solar-wind-reverse osmosis desalination systems coupling battery and hydrogen energy storage by an improved bee algorithm
TL;DR: In this paper, the authors designed and modeled six grid independent hybrid renewable energy systems (GIHRES), namely, solar/battery or/hydrogen/reverse osmosis desalination (ROD), wind/batteries or/Hydrogen/ROD, and solar/wind/binar battery energy storage, for increasing the fresh water availability and meeting the load demand.