D
Daryoosh Nazarpour
Researcher at Urmia University
Publications - 36
Citations - 1072
Daryoosh Nazarpour is an academic researcher from Urmia University. The author has contributed to research in topics: Electric power system & Inverter. The author has an hindex of 13, co-authored 34 publications receiving 874 citations.
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Reduction of Power Electronic Elements in Multilevel Converters Using a New Cascade Structure
TL;DR: The proposed cascade structure can generate a large number of levels with reduced numbers of insulated-gate bipolar transistors, gate drivers, antiparallel diodes, dc voltage sources, and blocked voltage by switches.
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Novel Topologies for Symmetric, Asymmetric, and Cascade Switched-Diode Multilevel Converter With Minimum Number of Power Electronic Components
TL;DR: Novel topologies for symmetric, asymmetric, and cascade switched-diode multilevel converter are proposed, which can produce many levels with minimum number of power electronic switches, gate driver circuits, power diodes, and dc voltage sources.
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New hybrid structure for multilevel inverter with fewer number of components for high-voltage levels
TL;DR: In this article, new structures for symmetric, asymmetric and hybrid multilevel inverters are recommended, which can generate a great number of output voltage levels with minimum number of power electronic components such as insulated gate bipolar transistors and gate drivers.
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Wide-area power oscillation damping with a fuzzy controller compensating the continuous communication delays
TL;DR: In this article, a fuzzy logic wide-area damping controller (FLWADC) is proposed to damp the inter-area oscillations compensating for the continuous latency.
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Optimal energy management of the smart parking lot under demand response program in the presence of the electrolyser and fuel cell as hydrogen storage system
Jamil Jannati,Daryoosh Nazarpour +1 more
TL;DR: In this paper, an optimal energy management has been proposed for an IPL which includes renewable energy sources (wind turbine and photovoltaic system) and local dispatchable generators (micro-turbines) and determination of optimal charge and discharge powers of hydrogen storage system (HSS) containing electrolyser, hydrogen storage tanks and fuel cell has been considered in the proposed model.