M
Mohamad Esmail Hamedani Golshan
Researcher at Isfahan University of Technology
Publications - 68
Citations - 2788
Mohamad Esmail Hamedani Golshan is an academic researcher from Isfahan University of Technology. The author has contributed to research in topics: Electric power system & Demand response. The author has an hindex of 27, co-authored 65 publications receiving 2011 citations.
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Distributed Control of Battery Energy Storage Systems for Voltage Regulation in Distribution Networks With High PV Penetration
TL;DR: A coordinated control strategy is proposed to regulate the charge/discharge of BESs using a combination of the local droop-based control method and a distributed control scheme which ensures the voltages of feeder remain within allowed limits.
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Adaptive voltage droop scheme for voltage source converters in an islanded multibus microgrid
TL;DR: In this article, a novel voltage droop scheme for the parallel operation of voltage source converters (VSCs) in an islanded multibus microgrid is proposed, where each VSCs voltage reference is adaptively drooped as a non-linear function of its active and reactive power outputs.
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A Consensus-Based Cooperative Control of PEV Battery and PV Active Power Curtailment for Voltage Regulation in Distribution Networks
TL;DR: A combined method using the battery energy management of plug-in electric vehicles (PEVs) and the active power curtailment of PV arrays is proposed to regulate voltage in LVDNs with high penetration level of PV resources.
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A Current Limiting Strategy to Improve Fault Ride-Through of Inverter Interfaced Autonomous Microgrids
TL;DR: A three-phase voltage-sourced inverter with multi-loop control system implemented in synchronous, stationary, and natural reference frames is employed in this paper for both four- and three-wire configurations and provides high voltage and current quality during overcurrent conditions, which is necessary for sensitive loads.
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Determining optimal virtual inertia and frequency control parameters to preserve the frequency stability in islanded microgrids with high penetration of renewables
TL;DR: In this paper, the authors proposed a multi-objective optimization algorithm to find the suitable value of inertia constant for low inertia microgrids such that the frequency stability is preserved with a lower cost.