M
Mohammad Hossein Ahmadi
Researcher at University of Shahrood
Publications - 557
Citations - 16625
Mohammad Hossein Ahmadi is an academic researcher from University of Shahrood. The author has contributed to research in topics: Nanofluid & Exergy. The author has an hindex of 60, co-authored 477 publications receiving 11659 citations. Previous affiliations of Mohammad Hossein Ahmadi include Mazandaran University of Medical Sciences & Bu-Ali Sina University.
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Experimental investigation of graphene oxide nanofluid on heat transfer enhancement of pulsating heat pipe
Mohammad Alhuyi Nazari,Roghayeh Ghasempour,Mohammad Hossein Ahmadi,Gholamreza Heydarian,Mohammad Behshad Shafii +4 more
TL;DR: In this paper, an experimental investigation was performed on the thermal performance of a pulsating heat pipe by applying graphene oxide nanofluid as working fluid, which increased thermal conductivity and viscidity of the base fluid.
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Application of the multi-objective optimization method for designing a powered Stirling heat engine: Design with maximized power, thermal efficiency and minimized pressure loss
Mohammad Hossein Ahmadi,Hadi Hosseinzade,Hoseyn Sayyaadi,Amir H. Mohammadi,Farshad Kimiaghalam +4 more
TL;DR: In this paper, the output power and engine thermal efficiency were optimized and total pressure losses were minimized using NSGA algorithm and finite speed thermodynamic analysis on Stirling cycle and Stirling engine.
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Thermo-economic multi-objective optimization of solar dish-Stirling engine by implementing evolutionary algorithm
TL;DR: In this paper, the dimensionless thermo-economic objective function, thermal efficiency and dimensionless power output are optimized for a dish-Stirling system using finite time thermoeconomic analysis and NSGA-II algorithm.
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Application of Nanofluids in Thermal Performance Enhancement of Parabolic Trough Solar Collector: State-of-the-Art
Hamed Olia,Mohammadamin Torabi,Mehdi Bahiraei,Mohammad Hossein Ahmadi,Marjan Goodarzi,Mohammad Reza Safaei +5 more
TL;DR: In this paper, the effect of nanoparticles on thermal efficiency, entropy generation, heat transfer coefficient enhancement, as well as pressure drop in parabolic trough collectors (PTCs) has been investigated.
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Multi-objective thermodynamic-based optimization of output power of Solar Dish-Stirling engine by implementing an evolutionary algorithm
TL;DR: In this paper, a mathematical model based on the finite-time thermodynamics has been developed so that the output power and thermal efficiency and the rate of entropy generation of the solar Stirling system with finite rate of heat transfer, regenerative heat loss, conductive thermal bridging loss and finite regeneration process time are obtained.