Diaa Alkhateeb | Thermal Physics and Heat power engineering | Best Researcher Award

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Mr. Diaa Alkhateeb | Thermal Physics and Heat power engineering | Best Researcher Award

Assistant in Heat Power Engineering Department / Ph.D. Student, National Research University“Moscow Power Engineering Institute – The Second Faculty of Mechanical and Electrical Engineering, Damascus University,Russia

Diaa Alkhateeb is a dedicated researcher and educator specializing in thermal and mechanical engineering. Currently pursuing a Ph.D. in Thermal Physics and Heat Engineering at the National Research University “MPEI”, Diaa has demonstrated strong academic and professional commitment through his work as an assistant at both MPEI and Damascus University. He is skilled in advanced engineering software such as SolidWorks, COMSOL, and AutoCAD, and proficient in programming with C++ and Python. Diaa has contributed to the academic field with over 10 scientific publications and the co-authorship of engineering textbooks. He is fluent in Arabic and English, with a working proficiency in Russian. Passionate about digital education, Diaa integrates modern technologies and methodologies into his teaching and research. His interdisciplinary approach bridges theory and application, making him an emerging figure in the field of energy efficiency and thermal systems design.

Professional profile

🎓 Education 

Diaa Alkhateeb holds a Bachelor’s degree in Mechanical Forces Engineering (2013–2018) from Damascus University, where he graduated with top academic honors. Building on this foundation, he pursued a Master’s degree in Heat Power Engineering at the National Research University “MPEI” (2021–2023), focusing on advanced heat transfer processes and computational modeling. Currently, he is a Ph.D. student in Thermal Physics and Heat Engineering at MPEI, engaged in cutting-edge research involving vapor condensation and thermal system optimization. His academic path reflects a consistent dedication to engineering excellence and innovation. In addition to his degrees, Diaa has completed over 20 specialized training programs in engineering tools, project management, educational technology, and AI integration in academia. His multilingual capabilities in Arabic, English, and Russian support his international academic collaborations and conference participation, positioning him well for a global research career.

💼 Experience 

Diaa Alkhateeb has extensive teaching and research experience, currently serving as an Assistant in the Heat Power Engineering Department at MPEI, where he conducts laboratory sessions and integrates IT tools to improve student learning. At Damascus University since 2018, he has taught mechanical engineering, CAD/CAM, and thermodynamics. He has also authored modern teaching materials, including video lectures and digital presentations. Between 2018 and 2020, he worked with the UNHCR-supported Baraem Association, teaching mathematics and analytical thinking to children. Diaa is also the founder and director of the D-Learn Group, where he mentors students on academic development and international scholarship applications. Since 2023, he has been a consultant and author at StudAvtor.ru, providing academic support in engineering disciplines. His career reflects a strong commitment to both academic instruction and the practical application of research, with a notable focus on technology-driven education and student empowerment.

🔬 Research Focus

Diaa Alkhateeb’s research centers on thermal systems, heat and mass transfer, and computational fluid dynamics (CFD). His work focuses on the optimization of condensation heat transfer in mini- and micro-scale channels, the development of cooling systems for energy storage (e.g., vanadium redox flow batteries), and the application of Volume of Fluid (VOF) models for simulating film-wise condensation. He uses simulation tools like COMSOL and SimInTech to model complex thermofluidic behavior in rotating, inclined, and geometrically varied channels. Diaa’s research also explores digital twin technologies and AI integration in engineering education, reflecting a blended focus on applied science and pedagogy. Through his current Ph.D. work at MPEI and publications in peer-reviewed venues, he aims to contribute to the development of high-efficiency thermal management systems applicable in energy, electronics, and climate control technologies. His interdisciplinary methodology links theory, simulation, and practical innovation for real-world energy challenges.

📚 Publications – Full Details and Summaries

1. Optimizing Heat Transfer: A Numerical Investigation of Pure Water Vapor Condensation in Rotating and Inclined Minichannels

Authors: D. Alkhateeb, Y.V. Lyulin
Journal: International Journal of Heat and Mass Transfer, Vol. 253, Article 127506, 2025
Summary:
This study explores the impact of rotation and inclination on the efficiency of water vapor condensation in minichannels. Using advanced CFD techniques, the authors simulate condensation under varying gravitational and centrifugal conditions. The results reveal optimal configurations for maximizing heat transfer performance, making it valuable for the design of compact heat exchangers in aerospace and microelectronic cooling applications.

2. Numerical Study of the VOF Model for Film-Wise Condensation in Rounded, Elliptical, and Flattened Tubes

Authors: D. Alkhateeb, Y.V. Lyulin
Conference: 7th International Youth Conference on Radio Electronics, Electrical and Power Engineering, 2025
Summary:
This paper investigates film-wise condensation using the Volume of Fluid (VOF) method in tubes of different cross-sectional geometries. The analysis shows that geometry significantly influences film thickness and heat transfer rate. The study provides insight into how modified condenser geometries can improve energy efficiency in industrial systems.

3. Development of a Cooling System for Vanadium Redox Flow Batteries

Authors: D. Alkhateeb, Y.V. Lyulin
Conference: 7th International Youth Conference on Radio Electronics, Electrical and Power Engineering, 2025
Summary:
The paper presents a design and simulation of a thermal management system for Vanadium Redox Flow Batteries (VRFBs), focusing on optimizing cooling under different loading conditions. Results demonstrate that properly managed thermal control significantly extends battery life and efficiency, supporting the deployment of VRFBs in large-scale renewable energy storage.

4. Textbook: Information Technologies in Engineering Calculations – SMath

Authors: V.F. Ochkov, D. Alkhateeb
Publisher: MPEI Press, 2024
Summary:
This textbook introduces engineering students to the SMath Studio platform, emphasizing hands-on applications in solving mechanical and thermal engineering problems. It covers topics like symbolic computation, unit management, and simulation-based analysis, serving as a practical educational resource.

5. Textbook (In Development): Heat and Mass Transfer: SimInTech

Authors: V.F. Ochkov, D. Alkhateeb
Expected Publication: TBD
Summary:
This upcoming textbook will focus on modeling heat and mass transfer processes using SimInTech. It will include real-world case studies, simulation exercises, and theoretical background, aiming to bridge the gap between traditional heat transfer education and modern simulation techniques.

Let me know if you’d like this compiled into a PDF or formatted as part of a professional nomination or academic portfolio.

🏁 Conclusion

Diaa Alkhateeb shows excellent potential and current merit for the “Best Researcher Award,” particularly in the early-career or young researcher category. His strengths lie in recent high-quality publications, technical versatility, and a strong commitment to academic and pedagogical excellence.

While he is still in the early stages of his research career, his record already demonstrates scholarly productivity, international engagement, and innovation in education. With further development of independent research leadership and measurable research impact, he could evolve into a top-tier academic and innovator.

Federico Di Prospero | Thermal Energy Recovery | Mechanical Engineering Award

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Dr. Federico Di Prospero | Thermal Energy Recovery | Mechanical Engineering Award

PhD student, University of L’Aquila, Italy

Federico Di Prospero is an aspiring mechanical engineer with a focus on sustainable energy and combustion technologies. He holds a Bachelor’s Degree in Industrial Engineering and a Master’s Degree in Mechanical Engineering from the University of L’Aquila, where he graduated with honors. Federico is currently pursuing a PhD in Industrial Engineering and has received his certification as an industrial engineer. His academic and research interests center around improving energy efficiency and reducing CO2 emissions in internal combustion engines. He has contributed to several international publications, reflecting his expertise and commitment to environmental engineering solutions.

Profile

Education

Federico completed his secondary education at Liceo Scientifico A.Bale in L’Aquila (2017). He then pursued a Bachelor’s Degree in Industrial Engineering at the University of L’Aquila, graduating in 2020. Continuing his academic journey, he completed a Master’s Degree in Mechanical Engineering at the same institution in 2023, earning the highest distinction with a 110 e Lode. His thesis focused on reducing CO2 emissions in internal combustion engines, specifically by integrating energy recovery systems through turbines downstream of the turbocharger. Currently, Federico is pursuing a PhD in Industrial Engineering and has obtained certification as a licensed Industrial Engineer. His academic path demonstrates a strong commitment to both technical and research excellence, particularly in sustainable engineering.

Experience

Federico has accumulated a diverse range of experiences in both academia and research. His early academic focus was on industrial engineering, but his passion for mechanical engineering led him to specialize in energy recovery technologies. During his Master’s studies, he worked on advanced research projects exploring turbocompound energy recovery and CO2 emissions reduction. Federico has also participated in prestigious seminars and conferences, including those related to internal combustion engine (M.C.I.) technologies and the H2ICE project. He gained valuable research experience in the School for Experimental Sciences at the Gran Sasso National Laboratories, where he worked on cutting-edge energy recovery technologies. His practical skills include advanced proficiency in software like CATIA V5, Ansys, Matlab, and R, as well as expertise in CAE and CAD tools. His experience aligns with his dedication to solving the modern challenges of energy sustainability and efficiency.

Research Focus

Federico Di Prospero’s research focuses on energy recovery systems and CO2 emission reduction in internal combustion engines (ICEs). His Master’s thesis explored the integration of turbocompound energy recovery systems to capture and reuse exhaust gases, ultimately improving engine efficiency and reducing harmful emissions. His ongoing doctoral research in Industrial Engineering builds upon these concepts, with an emphasis on sustainable energy solutions and the optimization of mechanical systems. Federico’s work integrates simulation tools such as Matlab, R, Ansys, and CATIA V5, and his expertise in computer-aided engineering and finite element analysis supports the development of more effective and eco-friendly engine technologies. By focusing on the environmental impacts of industrial technologies, his research seeks to advance energy recovery solutions for both the automotive and energy sectors. This work has the potential to play a pivotal role in advancing green technology in mechanical engineering.

Publication Top Notes

  1. Turbocompound Energy Recovery Option on a Turbocharged Diesel Engine (2023)
  2. Dual-Stage Energy Recovery from Internal Combustion Engines (2025)
  3. Model-Based Design of a Turbo-Compound Bottomed to Internal Combustion Engine Exhaust Gas (2023)

 

 

Mohammad-Mahdi Pazuki | Energy Systems Engineering | Best Researcher Award

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Mr Mohammad-Mahdi Pazuki | Energy Systems Engineering | Best Researcher Award

Ph.D Student, KN Toosi University, Iran

Mohammad-Mahdi Pazuki is an accomplished researcher and engineer specializing in energy systems and policy analysis. He has made significant contributions to sustainable energy transitions through innovative research and interdisciplinary projects. His work blends advanced technologies, such as machine learning and optimization algorithms, with real-world applications in renewable energy solutions. He is dedicated to addressing critical energy challenges in Iran and beyond, and his commitment to academic excellence is evidenced by his top rankings in national exams and university performance. He actively engages in teaching and mentorship, fostering the next generation of engineers and researchers.\

Profile

Orcid

Strengths for the Award

  1. Innovative Research: Mohammad-Mahdi Pazuki has made significant contributions to the field of energy systems through his advanced research in energy policy analysis, optimization, and renewable energy solutions. His work, especially in machine learning applications for carbon capture and renewable energy systems, showcases his ability to integrate cutting-edge technology with practical energy solutions.
  2. Strong Academic Background: With an impressive GPA of 18.88/20 in his M.Sc. in Energy Systems Engineering, he ranks second in his university. His academic achievements, alongside his top ranking in the national university entrance exam, highlight his dedication and competence in his field.
  3. Diverse Skill Set: Pazuki’s proficiency in programming (MATLAB, Python), machine learning, and energy system modeling demonstrates a robust technical skill set. His ability to apply various optimization algorithms and engage in CFD simulation further solidifies his expertise.
  4. Publications and Projects: He has authored and contributed to multiple high-quality publications, many of which are under review or in progress. His diverse projects, ranging from solar desalination systems to energy policy assessments, indicate a well-rounded approach to research and practical applications.
  5. Teaching and Leadership Experience: His role as a teaching assistant and involvement in organizing significant conferences and projects reflect strong communication and leadership abilities. His participation in judging panels for technology festivals demonstrates his commitment to advancing the field.

Areas for Improvement

  1. Broader Impact Assessment: While his research is innovative, further emphasis on the societal and environmental impacts of his work could enhance its relevance. Developing frameworks to measure these impacts could provide more comprehensive insights into the implications of his research.
  2. Networking and Collaboration: Although he has engaged in various projects, expanding his professional network through international collaborations could lead to more diverse perspectives and opportunities for joint research initiatives.
  3. Public Engagement: Increasing public engagement through outreach initiatives or community projects related to energy sustainability could enhance the visibility of his work and promote awareness of renewable energy technologies.

Education

Mohammad-Mahdi holds a Master’s degree in Energy Systems Engineering from K.N. Toosi University of Technology, where he achieved a GPA of 18.88/20, ranking second in his program. He completed his Bachelor’s degree in Mechanical Engineering at the same institution, with a GPA of 14.93/20. His academic journey began with a diploma in Physics and Mathematics from Roshd High School, where he graduated with a GPA of 19.70/20. His education has equipped him with a strong foundation in engineering principles, energy systems, and policy analysis, enabling him to tackle complex challenges in sustainable energy.

Experience

Mohammad-Mahdi’s professional experience encompasses a variety of research and engineering roles. He has served as a researcher at Niroo Research Institute and the Energy Integration Lab, contributing to projects on energy policy, optimization, and renewable technologies. He has also held executive positions, including Chief Operating Officer at a digital marketing agency. His internships in construction and power plant engineering have provided practical insights into the energy sector. Additionally, he has taught courses in system dynamics and decision-making, showcasing his dedication to education and knowledge dissemination in the field of energy systems.

Research Focus

Mohammad-Mahdi’s research interests span energy policy and economics, system dynamics, renewable energy, and machine learning applications. He is particularly focused on enhancing energy efficiency and sustainability through innovative solutions, such as geothermal poly-generation systems and carbon capture technologies. His work in electricity demand-side management aims to inform effective policymaking for sustainable energy transitions. He also explores the integration of renewable energy in urban settings and the socio-environmental implications of energy systems. His interdisciplinary approach combines technical expertise with an understanding of environmental and social challenges in the energy sector.

Publication Top Notes

  • “Enhancing efficiency in an innovative geothermal poly-generation system for electricity, cooling, and freshwater production through integrated multi-objective optimization: A holistic approach to energy, exergy, and enviro-economic effects”
  • “An Intelligent Solvent Selection Approach in Carbon Capturing Process: A Comparative Study of Machine Learning Multi-Class Classification Models”
  • “Solar-Powered Bitcoin Mining: Bridging Economic Viability with Environmental Sustainability”
  • “Exploring Evaporation Dynamics in Solar Stills: Influence of Fabric Material Composition and Brine Concentration”
  • “Optimization and Analysis of Adsorption Desalination Systems: Integrating Multi-Objective Particle Swarm Optimization (MOPSO) with Environmental, Economic, and Exergy Analyses”
  • “The evaporation experiments on carboxyl-functionalized multi-walled carbon nanotube/polyvinyl alcohol – polyester (3D CNT/PVA-PET) fabric with hole array”
  • “Modeling and assessment of Iran’s electricity demand-side management (DSM) policies applying system dynamics (SD) approach”
  • “Intelligent Energy Management: Strategies, Applications, and Policy Implications” (Book in progress)

Conclusion

Mohammad-Mahdi Pazuki stands out as a leading candidate for the Best Researcher Award due to his innovative contributions to energy systems, strong academic credentials, diverse skill set, and impactful research. By focusing on enhancing the societal impact of his work and expanding his collaborative efforts, he can further elevate his research profile and contribute meaningfully to the field of energy sustainability. His commitment to advancing energy policy and technology positions him as a promising researcher poised to make significant contributions in the future.