Dr.Shoaib Khanmohammadi
Assistant Professor of Mechanical Engineering in Kermanshah University of Technology
About
Hello everyone, I’m an Assistant Professor at Kermanshah University of Technology, specializing in modeling and optimization of energy systems. I have over a decade of experience in the field and have published over 100 scientific articles on the subject.
In 2021, I was honored to be recognized as one of the world’s top 2% scientists with high citations in the published list by Stanford University, which was a significant milestone in my career.
My passion for energy systems has led me to explore various techniques and technologies to improve efficiency and sustainability. I am dedicated to sharing my knowledge and experience with my students and colleagues to help them achieve their goals.
When I’m not teaching or researching, you can find me reading up on the latest advancements in my field or spending time with my family. I believe in the power of collaboration and I am always eager to work with like-minded individuals to impact society positively.
Skills
Energy systems modeling
Optimize Energy system
Solar systems modeling
Comsol
Education
Bachelor's Degree, Mechanical Engineering
Shahid Beheshti University, 2002~2006
MSC, Energy Conversion
Isfahan University, 2006~2009
PHD, Energy Conversion
Gilan University, 2011~2015
Work experience
Senior Engineer, Taba Company
2010~2011
Graduate Researcher, Niroo Research Institute
2011~2012
Assistant Professor, Kermanshah university Of Technology
2018~Present
Fields of interest
Gasification/ Thermodynamics/ Renewable Energy/ Solar Energy/ Matlab/ Energy Efficiency/ Simulations
Articles
Ocean thermal energy conversion (OTEC) system boosted with solar energy and TEG based on exergy and exergo-environment analysis and multi-objective optimization
The primary goal of the current study is thermodynamic and environmental modeling and multi-objective optimization of a new hybrid energy system. The suggested ocean-based energy conversion system consists of an organic Rankine cycle (ORC), a
Design and comparative exergy and exergo-economic analyses of a novel integrated Kalina cycle improved with fuel cell and thermoelectric module
Combined cooling, heating, and power systems (CCHP) have attracted a lot of attention due to their distinctive advantages of high system and economic efficiencies in addition to less greenhouse gas emissions. The current study investigates
Proposal of a new parabolic solar collector assisted power-refrigeration system integrated with thermoelectric generator using 3E analyses: Energy, exergy, and exergo-economic
In this study, a new parabolic solar collector integrated combined power and refrigeration system with the thermoelectric generator (CPR-PTSC with TEG) was proposed. The suggested system was evaluated through energy, exergy, and exergo-economic analyses, and