Sajjad Khanjani | Engineering | Best Researcher Award

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Mr. Sajjad Khanjani | Engineering | Best Researcher Award

Research Scientist | Kermanshah University of Technology | Iran

Dr. Sajjad Khanjani is an accomplished Advanced Energy Systems Engineer with over three years of experience in energy conversion, renewable energy integration, and system optimization. His expertise spans advanced modeling, simulation, and sustainable energy technologies, including solar, wind, smart energy, storage, and biomass systems. As a researcher and project leader at institutions such as the Daneshmand Research and Development Institute, Iran’s National Elites Foundation, and Kermanshah University of Technology, he has contributed extensively to experimental and analytical studies in desalination, energy harvesting, and thermodynamic optimization. Dr. Khanjani’s publication record is remarkable, featuring multiple high-impact papers in prestigious journals such as Applied Thermal Engineering, Energy, Environmental Progress and Sustainable Energy, and Cleaner Engineering and Technology. His recent works focus on advanced solar distillation, hybrid nanofluid applications, and biohydrogen production, reflecting his commitment to advancing sustainable energy-water nexus solutions. His technical proficiency covers a wide array of tools, including MATLAB, Python, ANSYS Fluent, Transys, Autodesk Inventor, and Aspen Hysys, supporting his deep analytical and design capabilities. Beyond research, he has demonstrated leadership by managing interdisciplinary projects on clean energy and guiding undergraduate research initiatives. Recognized for his achievements, he has received multiple awards from Iran’s National Elites Foundation, ranking among the top M.Sc. students in Mechanical Engineering. His current projects on optimizing hybrid desalination systems and machine learning-based energy optimization highlight his innovative approach toward achieving environmental sustainability and energy efficiency. With his strong academic background, impactful research contributions, and leadership in advanced energy technologies, Dr. Sajjad Khanjani exemplifies the qualities of an outstanding candidate for the Best Researcher Award.

Profiles: Google Scholar | LinkedIn | ResearchGate

Featured Publications

Khanjani, S., & Co-authors. (2025). Experimental optimization of modified solar distillation system using black horse algorithm and 6E/HT analysis for sustainable freshwater production. Cleaner Engineering and Technology, Elsevier.

Khanjani, S., & Co-authors. (2025). Photo-fermentation: Harnessing solar energy for biohydrogen production. In Book Chapter, Elsevier.

Khanjani, S., & Co-authors. (2025). Performance enhancement of a conventional solar still using a cylindrical solar water heater and Cu/Al2O3 hybrid nanofluid: A sustainable approach to water purification. Water Environment Research.

Khanjani, S., & Co-authors. (2025). Comprehensive analysis of a geothermal-based poly-generation plant to achieve optimal exergy, economic, and environmental performance. Energy.

Khanjani, S., & Co-authors. (2024). Experimental and analytical examinations of a single-glazed solar still desalination with a spray-feeding water system with an artificial neural network. Applied Thermal Engineering.

Saurabh Kumar | Engineering | Best Researcher Award

Published on by Best Paper Awards

Dr. Saurabh Kumar | Engineering | Best Researcher Award

Assistant Professor | IIMT University | India

Dr. Saurabh Kumar is an accomplished researcher in Civil and Environmental Engineering with a focus on water quality, corrosion monitoring, wastewater treatment, and sustainable engineering practices. He is currently serving as a Postdoctoral Researcher at Thammasat University, Thailand (July 2024 – June 2025). Prior to this, he worked as an Assistant Professor in the Department of Civil Engineering at IIMT University, Meerut, Uttar Pradesh, India (June 2023 – June 2024). His academic journey began with a B.Tech in Civil Engineering from Darbhanga College of Engineering, Bihar, under Aryabhatta Knowledge University (2013 – 2017), followed by an M.Tech in Environmental Engineering from the National Institute of Technology Patna (2018 – 2020). He pursued a Ph.D. in Environmental Engineering at NIT Patna, Ministry of Education, Government of India (2020 – 2023), where his research focused on “Monitoring and Modelling of Corrosion Rate in Drinking Water Distribution Network.” Dr. Kumar has a strong research profile, with publications in SCI, Scopus, and IEEE-indexed journals such as Environmental Science and Pollution Research, Journal of Materials Engineering and Performance, and Nature’s Scientific Reports. He has authored a book, contributed to book chapters with reputed publishers, and presented papers at multiple international conferences, including IEEE and Springer platforms. His work reflects the integration of conventional engineering with advanced tools such as machine learning for solving environmental challenges.

Profile: Scopus | ORCID

 Publications

  1. Kumar Saurabh, Singh R., Maurya N.S., Water quality analysis and corrosion potential of the distribution network of Patna, Bihar, India. J. Environ. Eng. Sci., 2022, 17(4), 164–174. (ESCI)

  2. Kumar Saurabh, Singh R., Maurya N.S., Assessment of corrosion potential based on water quality index in the distribution network of urban Patna, Bihar, India. J. Nat. Environ. Pollut. Technol., 2022, 21(5), 2117–2127. (Scopus)

  3. Kumar Saurabh, Singh R., Maurya N.S., Raj V., Monitoring of the corrosion in the pipeline of the distribution network using weight loss method & image processing technique. J. Mater. Eng. Perform., 2022. (SCI)

  4. Kumar Saurabh, Singh R., Maurya N.S., Modelling of corrosion rate in the drinking water distribution network using Design Expert 13 software. Environ. Sci. Pollut. Res., 2023. (SCI)

  5. Rajeev R., Kumar Saurabh, Singh R., Monitoring of traffic noise pollution in urban Patna, Bihar, India. Noise Vib. Worldwide, 2023. (Scopus)

  6. Kumar P., Kumar Saurabh, Kumar M., Chaubey A., Nayak J., Groundwater flow and solute transport modelling: A mathematical analysis. Indian J. Environ. Prot., 2024, 44(3), 257–264. (Scopus)

  7. Shivam H., Sharma D., Bansal T., Pande R., Kumar Saurabh, Weesakul U., In-vessel bioconversion of garden waste into compost with an emphasis on process efficiency and compost quality. Eng. Appl. Sci. Res., 2025, 52(1), 105–111. (Scopus)