Hemantchandra Patel | Energy | Best Review Paper Award

Published on by Global Scholar Awards

Mr. Hemantchandra Patel | Energy | Best Review Paper Award

Assistant professor at Government Engineering College Valsad, India

Prof. Hemantchandra N. Patel is a dedicated academician and researcher in Mechanical Engineering, currently serving as an Assistant Professor at Government Engineering College, Valsad. With over a decade of teaching and research experience, he specializes in renewable energy applications, CAD/CAM systems, and sustainable automotive technologies. His career reflects a deep commitment to both technical innovation and student-centric education. Prof. Patel has contributed significantly to knowledge dissemination through organizing workshops, publishing high-impact journal articles, and securing a patent. He is a proactive member of various institutional committees and initiatives, emphasizing cleanliness, administration, and digital innovation. His recent review publication in Solar Energy (a Q1 journal) stands as a testimony to his analytical and scholarly capabilities. His academic pursuits are complemented by a strong involvement in professional training and certifications. As a life member of ISTE and a participant in multiple faculty development programs, Prof. Patel continuously seeks excellence in engineering education and applied research.

Professional Profile 

Google Scholar | Scopus Profile | ORCID Profile

Education

Prof. Patel began his academic journey with a Bachelor of Engineering (B.E.) in Mechanical Engineering from Government Engineering College, Dahod, in 2010. He advanced his studies by earning a Master of Technology (M.Tech) in CAD/CAM from the Chandubhai S. Patel Institute of Technology, Changa, in 2012. Currently, he is pursuing a Ph.D. in Mechanical Engineering (2018–19 batch) from Gujarat Technological University, Ahmedabad. His doctoral research, titled “Investigation of Automobile Air-conditioning System based on Solar and Wind Energy,” is under the guidance of Prof. (Dr.) Kalpesh V. Modi. The project focuses on integrating renewable energy sources into vehicle climate systems to improve energy efficiency and sustainability. His academic background demonstrates a consistent emphasis on practical and future-facing technologies, blending mechanical engineering fundamentals with advanced computational and energy systems. His educational trajectory highlights a passion for continuous learning and a commitment to solving real-world engineering challenges through research and innovation.

Professional Experience

Prof. Hemantchandra N. Patel has amassed substantial teaching experience, serving as an Assistant Professor in Mechanical Engineering since 2013. He initially taught at Government Engineering College, Dahod (2013–2016), before joining Government Engineering College, Valsad, in 2016, where he continues to serve. Throughout his career, he has taught diverse undergraduate and postgraduate subjects, such as Computer-Aided Design, Nanotechnology, Thermal Systems Analysis, and Material Science. Alongside his teaching duties, Prof. Patel has taken up multiple administrative and leadership roles, including coordinator for Ansys software training, website maintenance, online fee collection, and institutional cleanliness drives. He also serves as I-card coordinator and has been actively involved in student development initiatives. His participation in faculty development programs and technical workshops reflects a proactive approach to staying updated with evolving trends in mechanical engineering. This blend of technical expertise and institutional leadership enhances his impact as a well-rounded academic professional.

Research Interest

Prof. Patel’s research interests center around sustainable energy solutions and advanced simulation technologies. He focuses primarily on the integration of solar and wind energy systems into automobile air-conditioning, contributing to eco-friendly transport innovations. Other key areas include thermal comfort systems, CFD simulations, composite materials, and design optimization using CAD/CAM tools. His doctoral research explores the hybridization of renewable energy sources to improve the efficiency of automobile climate control systems. He also investigates the aerodynamics of vertical-axis micro wind turbines and performance analysis of photovoltaic cells. Additionally, his interest in knowledge-based CAD systems and MATLAB simulations reflects his inclination toward computational engineering. Through interdisciplinary approaches combining renewable energy, fluid dynamics, and material science, Prof. Patel aims to create energy-efficient, scalable, and practical solutions for the automotive and mechanical industries. His work aligns with global sustainability goals and advances the role of mechanical engineers in tackling environmental and energy-related challenges.

Award and Honor

Among Prof. Patel’s most notable achievements is the publication of a high-impact critical review in Solar Energy (Elsevier, 2022), titled “Recent advances in performance enhancement techniques and the perspective of solar energy for automobile air-conditioning system.” This article consolidates and evaluates key developments in sustainable automotive cooling, marking a significant scholarly contribution. He is also the inventor of a published patent titled “Solar and wind energy-based automobile air-conditioning system” (Patent No. 202121032660), which exemplifies his innovative approach to engineering solutions. These recognitions validate the real-world impact and scientific rigor of his research. In addition, his proactive involvement in organizing workshops, such as LaTeX and Water Rocket sessions, reflects his commitment to student enrichment. He has been recognized institutionally through leadership responsibilities and trust-based administrative portfolios. His academic honors underscore a consistent pursuit of innovation, energy efficiency, and mechanical design excellence, setting a benchmark for future researchers in the domain.

Research Skill

Prof. Patel is highly skilled in both experimental and computational domains of mechanical engineering. His expertise spans CFD modeling using tools like Fluent, CFX, and Star CCM+, as well as finite element methods (FEM) using ANSYS. He is proficient in CAD platforms such as Creo, SolidWorks, and AutoCAD, and has a working command of MATLAB for mathematical modeling and simulation. His programming knowledge includes C and C++, which he leverages for custom engineering applications. His research methodology integrates literature synthesis, patent analysis, design simulations, and performance assessments. He has also undergone extensive technical training in renewable energy, innovation ecosystems, IPR, and manufacturing technologies, further enriching his research acumen. His ability to bridge theoretical knowledge with practical implementation is evident in his published works and hands-on projects. These research skills position him strongly for collaborative innovation, problem-solving, and contributing to high-impact, energy-centric technological advancements.

Publication Top Notes

  • Title: Recent advances in performance enhancement techniques and the perspective of solar energy for automobile air-conditioning system – a critical review

    • Authors: H.N. Patel, K.V. Modi

    • Journal: Solar Energy, Vol. 241, Pages 184–219

    • Year: 2022

    • Citations: 16

  • Title: An experimental study on a curved solar flexible photovoltaic panel with a single-axis tracking system in perspectives of automobile applications

    • Authors: H. Patel, K. Modi, R. Patel, R. Patel

    • Journal: International Journal of Ambient Energy, Vol. 46 (1), Article ID: 2444353

    • Year: 2025

Conclusion

Prof. Hemantchandra N. Patel is a highly deserving candidate for the Best Review Paper Award. His scholarly contribution in the form of a recent critical review in a reputed international journal, coupled with a strong foundation in energy-efficient technologies, reflects a commitment to addressing pressing environmental challenges. With a blend of academic rigor, institutional leadership, and technical innovation, Prof. Patel has not only advanced research in mechanical engineering but also contributed meaningfully to society. His future potential lies in further interdisciplinary collaborations, deeper industry partnerships, and thought leadership roles in energy and sustainability forums.

Saad Raad Al-Haidari | Energy | Best Researcher Award

Published on by Global Scholar Awards

Mr. Saad Raad Al-Haidari | Energy | Best Researcher Award

Mechanical engineering at Mustansiriyah University /College of Engineering, Iraq

Saad Raad Al-Haidari is a dedicated researcher specializing in thermal power engineering, computational fluid dynamics (CFD), and heat transfer. He holds a Bachelor’s degree in Mechanical Engineering and a Master’s in Thermal Power Engineering from Mustansiriyah University, Baghdad. His expertise extends to ANSYS Fluent, AutoCAD, MATLAB, and other engineering software, allowing him to conduct advanced simulations and analyses. He has served as a reviewer for prestigious journals such as Applied Thermal Engineering and International Journal of Thermal Science, demonstrating his active engagement in the research community. Saad has published notable research on heat performance and hydraulic thermal flow in high-impact journals. With industry experience at Hyundai, Samhung, and JV companies, he possesses practical engineering knowledge. Additionally, he has completed specialized courses in industrial safety, well-logging, and heat convection. His strong technical background, research contributions, and commitment to innovation make him a promising figure in mechanical and thermal engineering research.

Professional Profile 

Education

Saad Raad Al-Haidari holds a Bachelor’s degree in Mechanical Engineering with a specialization in Digging Technology from Mustansiriyah University, Baghdad, graduating in 2019/2020. Building on his strong engineering foundation, he pursued a Master’s degree in Thermal Power Engineering, further deepening his expertise in heat transfer, thermofluidics, and computational fluid dynamics (CFD). His academic training equipped him with the ability to apply engineering principles in design, manufacturing, and energy systems analysis. Throughout his studies, he gained proficiency in industry-relevant software such as ANSYS Fluent, AutoCAD, MATLAB, and SOLIDWORKS, enabling him to conduct advanced simulations and analyses. His education also covered a broad spectrum of engineering disciplines, including mechanical design, energy efficiency, and engineering economics. Saad has complemented his formal education with various specialized courses in industrial safety, well-logging, and heat convection, enhancing both his theoretical knowledge and practical skills in the field of mechanical and thermal power engineering.

Professional Experience

Saad Raad Al-Haidari has gained extensive professional experience in mechanical and thermal power engineering through his work in both industry and academia. He has served as an international reviewer for renowned journals such as Applied Thermal Engineering, International Journal of Thermal Science, and Thermal Science and Engineering Progress, contributing to the global research community. His industrial experience includes working with Hyundai for 15 months on the Karbala Refinery Project, 10 months with Samhung, and 5 months with JV companies, where he was involved in engineering design, heat transfer analysis, and project management. Additionally, he has completed specialized courses on industrial safety, well-logging, and forced/natural heat convection studies at Mustansiriyah University. With expertise in computational fluid dynamics (CFD), ANSYS Fluent, and 3D design, he has developed strong problem-solving skills in thermal and hydraulic engineering. His diverse experience bridges both theoretical research and practical industry applications.

Research Interest

Saad Raad Al-Haidari’s research interests lie in the fields of thermal power engineering, computational fluid dynamics (CFD), heat transfer, and thermofluidics. He is particularly focused on improving energy efficiency, optimizing heat exchanger performance, and enhancing hydraulic thermal flow systems. His work explores forced and natural convection heat transfer, studying staggered pin fins arrays and turbulator arrangements to maximize thermal performance. With expertise in ANSYS Fluent, MATLAB, and SOLIDWORKS, he conducts advanced simulations to analyze fluid flow and heat dissipation in various engineering applications. As an international reviewer for high-impact journals, he actively contributes to the evaluation and advancement of research in heat transfer and renewable energy solutions. Additionally, his interests extend to industrial safety, well-logging, and engineering design, aiming to integrate sustainable and efficient thermal management systems into real-world applications. His dedication to research bridges theoretical advancements with practical engineering solutions for energy optimization.

Award and Honor

Saad Raad Al-Haidari has earned recognition for his contributions to the fields of thermal power engineering, computational fluid dynamics (CFD), and heat transfer. As an esteemed international reviewer for prestigious journals such as Applied Thermal Engineering, International Journal of Thermal Science, and Thermal Science and Engineering Progress, he has played a significant role in advancing scientific research. His published work on heat performance and hydraulic thermal flow has been well received in high-impact journals, demonstrating his expertise in energy efficiency and thermal management. Additionally, he has completed specialized industry certifications in industrial safety, well-logging, and heat convection studies, further solidifying his technical credentials. His involvement in major engineering projects, including the Karbala Refinery Project with Hyundai, has further showcased his practical expertise. Through his dedication to research and industry collaboration, Saad has established himself as a promising figure in mechanical and thermal engineering, earning recognition for his contributions.

Research Skill

Saad Raad Al-Haidari possesses strong research skills in thermal power engineering, computational fluid dynamics (CFD), and heat transfer analysis. His expertise includes designing and simulating various thermal and hydraulic systems using advanced engineering software such as ANSYS Fluent, MATLAB, AutoCAD, and SOLIDWORKS. He has conducted extensive research on forced and natural convection heat transfer, turbulator arrangements, and thermal flow optimization, contributing to the development of more efficient energy systems. As an international reviewer for high-impact journals, he critically evaluates research in energy efficiency, heat exchangers, and wind turbine performance, further refining his analytical and technical skills. His ability to interpret complex data, conduct simulations, and validate experimental results demonstrates his strong problem-solving capabilities. Additionally, his knowledge of engineering economics and industry safety enhances his multidisciplinary approach to research. With a combination of theoretical expertise and practical application, Saad continues to advance innovations in mechanical and thermal engineering.

Conclusion

Saad Raad Mujid is a promising researcher with strong expertise in thermal power engineering, CFD, and heat transfer. His contributions as a journal reviewer, published research, and industry experience make him a strong contender for the Best Researcher Award. However, to further strengthen his application, he should work on increasing high-impact publications, enhancing language skills, securing research grants, and participating in international conferences.

Publications Top Noted

  • “Analysis of Hydrothermal Flow and Performance of Heat Transfer in 3D Pipes Based on Varying Dimple Structure Configurations”

    • Authors: Saad Raad Al-Haidari, Ahmed Ramadhan Al-Obaidi
    • Journal: Heat Transfer
    • Publication Date: December 2024
    • DOI: 10.1002/htj.23244

  • “Assessment Improvement of Heat Performance and Hydraulic Thermal Flow in a Three-Dimensional Tube Equipped With Different Turbulator Corrugated Arrangements”

    • Authors: Saad Raad Al-Haidari, Ahmed Ramadhan Al-Obaidi
    • Journal: Heat Transfer
    • Publication Date: February 19, 2025
    • DOI: 10.1002/htj.23296

  • “Evaluation of Hydraulic Thermal Flow and Heat Performance Augmentation in a 3D Tube Fitted with Varying Concavity Dimple Turbulator Configurations”

    • Authors: Saad Raad Al-Haidari, Ahmed Ramadhan Al-Obaidi
    • Journal: Heat Transfer
    • Publication Date: September 2024
    • DOI: 10.1002/htj.23180
    • Citations: 7 citations
      Colab

  • “Analysis of Thermal Hydraulic Flow and Heat Transfer Augmentation in Dimpled Tubes Based on Experimental and CFD Investigations”

  • “Analysis of Thermohydraulic Flow and Enhancement Heat Performance in 3D Dimple Tube Based on Varying Geometrical Configurations”

    • Authors: Saad Raad Al-Haidari, Ahmed Ramadhan Al-Obaidi
    • Journal: Heat Transfer
    • Publication Date: May 2024
    • DOI: 10.1002/htj.23085

  • “Analysis of the Effect of Different Dimple Configurations on Flow Structure and Improvement of Heat Transfer Based on Numerical Investigation”

    • Authors: Saad Raad Al-Haidari, Ahmed Ramadhan Al-Obaidi
    • Journal: Library Progress International
    • Publication Date: July 15, 2024
    • DOI: Not available