Dr. Amir Homayoon Meghdadi Isfahani | Nano particles | Best Paper Award
PHD at the University of Tehran, Iran
Professional Profiles
Education
Academic Degree Education Field University Country Year B.Sc Mechanical Engineering University of Yazd Iran 2003 M.Sc Mechanical Engineering Isfahan University of Technology Iran 2005 Ph.D Nano Mechanics University of Tehran Iran 2012. Amir Homayoon Meghdadi Isfahani has taught specialized courses in various fields including mechanical engineering, nano mechanics, and related areas.
Executive Experience
Member of Scientific Committee of Nano Symposium 2014 Head of Aerospace and Mechanical Engineering Department 2016 Director of Cultural and Social Affairs 2020
Awards and Honors
Institution Title Festival Date Islamic Azad University Research Assistant Director 1st competition 2014 University of Tabriz First Place in Glider Flight Competition – 2014 Islamic Azad University Supervisor of the Superior Thesis The 6th Farhikhtegan Festival 1397 Najafabad Branch, Islamic Azad University Top Researcher of Engineering Department – 2019
Research Interests
Micro and nano scale flows Heat transfer Porous media Lattice Boltzmann and molecular dynamic methods
Research Focus
Amir Homayoon Meghdadi Isfahani focuses on advanced thermophysical and mechanical engineering research. His work spans the study of nanoparticle-enhanced fluids, heat transfer, molecular dynamics simulations, and nanotechnology. He has contributed to investigations on the effects of ultrasonic waves, mechanical vibrations, and laser welding on various materials and systems. His research also includes developing predictive models using artificial neural networks and optimizing engineering processes through genetic algorithms. With numerous publications and citations, Meghdadi Isfahani is recognized for his contributions to enhancing heat transfer efficiency, fluid dynamics, and the thermal behavior of engineered systems.
Publications
- Transient simulation and exergy analysis of a D-type steam boiler with natural circulation during cold start: A case study, Publication date: 2022.
- Numerical study of the effects of twisted-tape inserts on heat transfer parameters and pressure drop across a tube carrying Graphene Oxide nanofluid: An optimization by implementation of Artificial Neural Network and Genetic Algorithm, Publication date: 2022.
- A new micro pump for rapid and accurate microscale droplet manipulation using thermo-viscous actuation, Publication date: 2022.
- Energy-Economic-Environmental assessment of solar-wind-biomass systems for finding the best areas in Iran: A case study using GIS maps, Publication date: 2022.
- Analysis of thermal performance and ultrasonic wave power variation on heat transfer of heat exchanger in the presence of nanofluid using the artificial neural network: experimental study and model fitting, Publication date: 2022.
- Effect of initial temperature and pressure on thermal behavior of ethanol/oxygen fuel mixture with shock wave by molecular dynamics simulation, Publication date: 2023.
- Using artificial neural network and parametric regression to predict the effect of mechanical vibrations on heat transfer coefficient of a counter flow heat exchanger containing MWCNTs-water nanofluid, Publication date: 2024.
- Investigation the effect of dissimilar laser welding parameters on temperature field, mechanical properties and fusion zone microstructure of inconel 600 and duplex 2205 stainless steel via response surface methodology, Publication date: 2024.
- Experimental investigation of ultrasonic effect on natural and forced heat transfer in heat sinks, Publication date: 2024.
- Empirical investigation of the effect of adding nanoparticles to HB-80 gas turbine oil: Evaluation of thermophysical behaviors, Publication date: 2024.