M
Mokhtar Bidi
Researcher at Shahid Beheshti University
Publications - 44
Citations - 1532
Mokhtar Bidi is an academic researcher from Shahid Beheshti University. The author has contributed to research in topics: Exergy & Exergy efficiency. The author has an hindex of 19, co-authored 43 publications receiving 1210 citations. Previous affiliations of Mokhtar Bidi include Amirkabir University of Technology.
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Exergy analysis of a Combined Cooling, Heating and Power system integrated with wind turbine and compressed air energy storage system
TL;DR: In this paper, a combined cooling, heating, and power system with a gas turbine, an organic Rankine cycle, and an absorption refrigeration system is presented, and the results show that under design condition, the system can generate 33.67kW electricity, 2.56kW cooling and 1.82kW hot water with a round trip energy efficiency of 53.94%.
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Exergy analysis of a hydrogen and water production process by a solar-driven transcritical CO2 power cycle with Stirling engine
TL;DR: In this paper, a Stirling engine was used instead of a condenser for hydrogen and fresh water production in a reverse osmosis (RO) desalination system, which achieved a near-ZLD approach in fresh water and hydrogen production.
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Thermodynamic analysis and optimization of a waste heat recovery system for proton exchange membrane fuel cell using transcritical carbon dioxide cycle and cold energy of liquefied natural gas
Mohammad Hossein Ahmadi,Amin Mohammadi,Fathollah Pourfayaz,Mehdi Mehrpooya,Mokhtar Bidi,Antonio Valero,Sergio Usón +6 more
TL;DR: In this paper, a hybrid system consisting of a transcritical carbon dioxide cycle and a liquefied natural gas cycle is proposed to recover the waste heat produced in a proton exchange membrane fuel cell.
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Thermodynamic and exergy analysis of a hydrogen and permeate water production process by a solar-driven transcritical CO2 power cycle with liquefied natural gas heat sink
TL;DR: In this paper, a novel solar power, water and hydrogen cogeneration plant with recovery of cryogenic energy is proposed to produce hydrogen and permeate water by gasification of Liquefied Natural Gas (LNG).
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Thermodynamic analysis and optimization for an irreversible heat pump working on reversed Brayton cycle
TL;DR: In this article, the authors presented the optimization and performance analysis for irreversible heat pumps operating with reversed Brayton cycle with constant-temperature heat reservoirs via finite-time thermodynamics (FTT) by considering exergetic efficiency as the optimization objective combining exergy model.