Ms. Haitong Yang | Renewable Energy | Women Researcher Award

Published on by Superior Awards

Ms. Haitong Yang | Renewable Energy | Women Researcher Award

Ms. Haitong Yang | China university of geosciences | China

Ms. Haitong Yang is a joint Ph.D. student at the China University of Geosciences (Beijing) specializing in Oil and Gas Engineering, with research focusing on advanced interpretation methods for production profiling based on microbial DNA sequencing. His academic background includes a Master’s degree in Oil and Gas Engineering from the China University of Petroleum (Beijing), where his work centered on production dynamic monitoring using microbial DNA sequencing, and a Bachelor’s degree in Oil and Gas Storage and Transportation Engineering from Northeast Petroleum University. Haitong has been recognized with multiple national and international awards, including the National Scholarship for Chinese Graduate Students, first prizes in the China Doctoral Academic Forum and the Asia Pacific Cup in Mathematical Modeling, as well as honors in innovation and entrepreneurship competitions. His technical expertise encompasses DNA extraction experiments, Mothur, CMG, Petrel, and MATLAB, applied to major projects in Shengli and Changqing Oilfields, where his work integrates microbial genomics with petroleum engineering to optimize reservoir evaluation, water flow path tracking, and fluid biomarker analysis. His contributions have resulted in 9 published documents, 51 citations by 47 documents, and an h-index of 3, reflecting his growing impact in the field of intelligent oil and gas engineering and reservoir characterization.

Profile: Scopus

Featured Publication

Yang, H., Kang, Z., Wang, S., & Jiang, H. (2025). DNA-sequencing method maps subsurface fluid flow paths for enhanced monitoring. Communications Earth and Environment.

 

Dr. Nisha Dagade | Renewable Energy | Best Researcher Award

Published on by Superior Awards

Dr. Nisha Dagade | Renewable Energy | Best Researcher Award

Dr. Nisha Dagade | Sinhgad Institutes | India

Dr. Nisha R. Dagade  is an accomplished Assistant Professor at Sinhgad Institutes, Pune, India, specializing in electrical power systems with a particular focus on Distributed Generation  and Reliability Analysis. Her research emphasizes the optimal integration of renewable DG sources into modern distribution networks, addressing both technical and economic challenges through heuristic and metaheuristic optimization approaches such as Ant Colony Optimization (ACO). Dr. Dagade’s scholarly contributions explore multi-objective frameworks that aim to reduce power losses, improve voltage profiles, and enhance the overall reliability and cost-effectiveness of distribution systems. Her notable work, “Ant colony optimization technique for integrating renewable DG in distribution system with techno-economic objectives,” published in Evolving Systems (2022), has gained significant academic recognition. With a strong research portfolio comprising 10 completed and ongoing projects, 7 Scopus-indexed journal publications, and one published book, and maintains an active research profile with 61 citations, an h-index of 5, and an i10-index of 2 , she continues to advance innovation in the domain of sustainable power systems. She has also collaborated with IIT Bombay on research initiatives that bridge academic insights with real-world applications. Her professional memberships in IAENG and I2OR reflect her active engagement in the global engineering research community. Dr. Dagade’s work embodies the integration of renewable energy technologies for efficient, reliable, and environmentally responsible power system development.

Profile: Google Scholar

Featured Publications

  • Godha, N. R., Bapat, V. N., & Korachagaon, I. (2022). Ant colony optimization technique for integrating renewable DG in distribution system with techno-economic objectives. Evolving Systems, 13(3), 485–498.

  • Godha, N. R., Deshmukh, S. R., & Dagade, R. V. (2011). Application of Monte Carlo simulation for reliability cost/worth analysis of distribution system. In 2011 International Conference on Power and Energy Systems (pp. 1–6).

  • Godha, N. R., Deshmukh, S. R., & Dagade, R. V. (2012). Time sequential Monte Carlo simulation for evaluation of reliability indices of power distribution system. In Proceedings of the 2012 IEEE Symposium on Computers and Informatics (ISCI 2012).

  • Godha, N. R., Bapat, V. N., & Korachagaon, I. (2019). Placement of distributed generation in distribution networks: A survey on different heuristic methods. In Techno-Societal 2018: Proceedings of the 2nd International Conference on Techno-Societal.

  • Dagade, N. R. G., Bapat, V. N., & Korachagaon, I. (2020). Improved ACO for planning and performance analysis of multiple distributed generations in distribution system for various load models. In 2020 Second International Sustainability and Resilience Conference.

 

 

Prof. Dr. Jose Manuel Andujar Marquez | Renewable Energy | Hydrogen Energy Award

Published on by Superior Awards

Prof. Dr. Jose Manuel Andujar Marquez | Renewable Energy | Hydrogen Energy Award

Prof. Dr. Jose Manuel Andujar Marquez | University of Huelva | Spain

Prof. Dr. Jose Manuel Andujar Marquez is a Full Professor at the University of Huelva in Spain with expertise in control engineering, renewable energies, hydrogen technologies, energy rehabilitation, engineering education, and precision farming. He holds a PhD in Engineering from the University of Huelva, a degree in Physical Sciences from UNED, and an Industrial Technical Engineering degree from the University of Seville. Over his career, he has authored more than five hundred fifty publications including journal articles, books, book chapters, conference papers, and patents, with over one hundred seventy articles indexed in ISI JCR journals and more than ninety in Q1 journals. Notably, fifty-four of his articles appear in the top ten journals in their category, several ranking first. His work has significant international impact, reflected in an h index of forty or more on Scopus, forty-six or more on ResearchGate, and fifty-two or more on Google Scholar, with over ten thousand citations in major databases and more than two hundred fifty thousand reads on ResearchGate. His research contributions span intelligent control systems, renewable energy integration, sustainable engineering technologies, and precision farming, demonstrating a strong commitment to innovation and advancing engineering solutions for global challenges. His publications have influenced both academic research and practical applications in energy efficiency, smart systems, and sustainable technology development.

Profile: Scopus | Google Scholar | Orcid

Featured Publications

Andújar, J. M., & Segura, F. (2009). Fuel cells: History and updating. A walk along two centuries. Renewable and Sustainable Energy Reviews, 13(9), 2309-2322.

Andújar, J. M., Mejías, A., & Márquez, M. A. (2010). Augmented reality for the improvement of remote laboratories: An augmented remote laboratory. IEEE Transactions on Education, 54(3), 492-500.

Enrique, J. M., Durán, E., Sidrach-de-Cardona, M., & Andújar, J. M. (2007). Theoretical assessment of the maximum power point tracking efficiency of photovoltaic facilities with different converter topologies. Solar Energy, 81(1), 31-38.

Vivas, F. J., De las Heras, A., Segura, F., & Andújar, J. M. (2018). A review of energy management strategies for renewable hybrid energy systems with hydrogen backup. Renewable and Sustainable Energy Reviews, 82, 126-155.

Enrique, J. M., Andújar, J. M., & Bohorquez, M. A. (2010). A reliable, fast and low cost maximum power point tracker for photovoltaic applications. Solar Energy, 84(1), 79-89.

Sánchez Cordero, A., Gómez Melgar, S., & Andújar Márquez, J. M. (2019). Green building rating systems and the new framework Level(s): A critical review of sustainability certification within Europe. Energies, 13(66), 1-26.

Durán, E., Piliougine, M., Sidrach-de-Cardona, M., Galán, J., & Andújar, J. M. (2008). Different methods to obtain the I–V curve of PV modules: A review. In 2008 33rd IEEE Photovoltaic Specialists Conference (pp. 1-6).

Dr. Qinglu Fan | Renewable Energy | Best Researcher Award

Published on by Superior Awards

Dr. Qinglu Fan | Renewable Energy | Best Researcher Award

Dr. Qinglu Fan | YiBin Vocational And Technical College | China

Dr. Qinglu Fan is a lecturer at YiBin Vocational and Technical College, specializing in materials science and engineering with a research focus on nickel-based layered cathode materials for lithium-ion batteries. She earned her doctoral degree at Guangdong University of Technology from 2016 to 2021 and conducted research as a visiting Ph.D. student at Binghamton University from 2019 to 2021. Her work centers on interface and bulk regulation of Ni-rich layered cathode materials to enhance their electrochemical performance, stability, and efficiency. She has published more than ten papers as the first author in international journals, including Journal of Power Sources, ACS Applied Materials & Interfaces, and Applied Materials Today, and authored the book “Lithium-ion Battery Nickel-based Layered Cathode Materials and Its Modifications.” Her research is supported by multiple ongoing projects, including participation in the National Natural Science Foundation of China, as principal investigator of the Ph.D. Startup Fund at Yibin Vocational and Technical College, and leadership of the Academician Ouyang Minggao Workstation Youth Talent Development Fund. With an h-index of ten, she continues to contribute to the advancement of sustainable energy storage materials and innovative solutions for next-generation lithium-ion batteries.

Profile: Scopus | Orcid

Featured Publications

  • Fan, Q., Li, X., Cheng, Y., Hu, Y., Ma, W., & Chen, Z. (2025). Enhanced cycling stability of nickel-rich single-crystal LiNi0.83Co0.12Mn0.05O2 at high voltage via low-temperature epitaxial rock-salt interface engineering. Journal of Materials Science.

  • Fan, Q., Li, X., Cheng, Y., Hu, Y., Ma, W., Almuqrin, A. H., Alodhayb, A. N., Chen, Z., & Shi, Z. (2025). Comprehensive investigation of the impact of calcination temperature-induced Li/Ni mixing on LiNi0.8Mn0.1Co0.1O2. Materials Today Energy.

  • Fan, Q., Chen, Z., Ma, W., & Shi, Z. (2025). Examining the collaborative impact of a heterojunction TiO2 coating and Ti substitution on LiNi0.8Co0.1Mn0.1O2 via a single-step modification approach. Applied Materials Today.

  • Fan, Q. (2021). Heterojunction TiO2@TiOF2 nanosheets as superior anode materials for sodium-ion batteries. Journal of Materials Chemistry A.

  • Fan, Q., Lin, K., Guan, S., Chen, J., Feng, S., Liu, L., & Shi, Z. (2021). Constructing high conductive composite coating with TiN and polypyrrole to improve the performance of LiNi0.8Co0.1Mn0.1O2 at high cutoff voltage of 4.5 V. ACS Applied Energy Materials.

  • Fan, Q. (2021). Can greener Cyrene replace NMP for electrode preparation of NMC 811 cathodes? Journal of The Electrochemical Society.

 

 

 

Prof. Ilknur Zeren Cetin | Sustainable Engineering | Best Researcher Award

Published on by Superior Awards

Prof. Ilknur Zeren Cetin | Sustainable Engineering | Best Researcher Award

Prof. Ilknur Zeren Cetin | Ondokuz Mayis University | Turkey

Prof. Ilknur Zeren Cetin is an Assistant Professor in the Department of Urban and Regional Planning at Ondokuz Mayis University, Faculty of Architecture, Turkey. She has a strong academic and research background in urban sustainability, climate change impacts, land cover dynamics, and spatial planning, with her work focusing on integrating environmental monitoring and urban design to promote resilient and sustainable urban environments. She has contributed significantly to high-impact research, with publications in SCI, SSCI, and AHCI-indexed journals, including studies on climate change impacts in the Upper Sakarya Basin, large-scale monitoring of riparian land-cover changes, and the conservation of Taxus baccata. Her research also addresses practical urban challenges, such as assessing walkability for parents with strollers and providing recommendations for sustainable urban design, reflecting her interdisciplinary approach that bridges environmental science, urban planning, and social considerations. With 1,617 citations by 816 documents, 28 publications, and an h-index of 21, Prof. Cetin demonstrates a consistent record of scholarly influence and contribution to the field, and her work continues to guide evidence-based urban policy and planning strategies in Turkey and beyond, emphasizing sustainable development, climate adaptation, and community-centered urban design.

Profile: Scopus | Google Scholar | Orcid

Featured Publications

  • Cetin, M., Zeren, I., Sevik, H., Cakir, C., & Akpinar, H. (2018). A study on the determination of the natural park’s sustainable tourism potential. Environmental Monitoring and Assessment, 190(3), 167.

  • Sevik, H., Cetin, M., Ozel, H. B., Ozel, S., & Zeren Cetin, I. (2020). Changes in heavy metal accumulation in some edible landscape plants depending on traffic density. Environmental Monitoring and Assessment, 192(2), 78.

  • Cesur, A., Zeren Cetin, I., Cetin, M., Sevik, H., & Ozel, H. B. (2022). The use of Cupressus arizonica as a biomonitor of Li, Fe, and Cr pollution in Kastamonu. Water, Air, & Soil Pollution, 233(6), 193.

  • Cetin, M., Aljama, A. M. O., Alrabiti, O. B. M., Adiguzel, F., Sevik, H., & Zeren Cetin, I. (2022). Using topsoil analysis to determine and map changes in Ni and Co pollution. Water, Air, & Soil Pollution, 233(8), 293.

  • Cetin, M., Aljama, A. M. O., Alrabiti, O. B. M., Adiguzel, F., Sevik, H., & Zeren Cetin, I. (2022). Determination and mapping of regional change of Pb and Cr pollution in Ankara city center. Water, Air, & Soil Pollution, 233(5), 163.

  • Varol, T., Cetin, M., Ozel, H. B., Sevik, H., & Zeren Cetin, I. (2022). The effects of climate change scenarios on Carpinus betulus and Carpinus orientalis in Europe. Water, Air, & Soil Pollution, 233(2), 45.

  • Cesur, A., Zeren Cetin, I., Abo Aisha, A. E. S., Alrabiti, O. B. M., Aljama, A. M. O., et al. (2021). The usability of Cupressus arizonica annual rings in monitoring the changes in heavy metal concentration in air. Environmental Science and Pollution Research, 28(27), 35642–35648.

 

Mr. Yohannes Shuka Jara | Renewable Energy | Best Researcher Award

Published on by Superior Awards

Mr. Yohannes Shuka Jara | Renewable Energy | Best Researcher Award

Mr. Yohannes Shuka Jara | Borana University | Ethiopia

Mr. Yohannes Shuka Jara is a dedicated lecturer and researcher in the Department of Chemistry at Borana University, Ethiopia, with a strong academic and professional trajectory in physical chemistry and sustainable nanotechnology. Currently pursuing a PhD at the University of Messina, Italy, he holds an MSc in Physical Chemistry from Hawassa University and a BSc in Chemistry from Dilla University. His professional experience includes serving as Lecturer of Physical Chemistry at Borana University, Chief-in Laboratory Chemist, and Senior Lab Technical Assistant at Madda Walabu University, where he contributed significantly to research and laboratory management. His research primarily focuses on the green synthesis of nanoparticles and metal oxide semiconductors for sustainable applications, including green energy conversion, electrochemical and bio-nano sensors, catalysis design, and environmental remediation. Notable projects include biosynthesized N-Zn co-doped CuO nanoparticles for photocatalytic dye degradation, polyaniline-coated nanocomposites for enhanced microbial fuel cell efficiency, and activated carbon from Vernonia amygdalina for water purification. With 50 citations across 49 documents and an h-index of 2, Mr. Jara actively engages with the scientific community through platforms such as ORCID, ResearchGate, Scopus, and LinkedIn, demonstrating a strong commitment to advancing sustainable chemistry and nanotechnology solutions.

Profile: Scopus | Orcid

Featured Publications

Jara, Y. S., Mohammed, E. T., & Mekiso, T. T. (2025). Biosynthesized pure CuO, N-CuO, Zn-CuO, and N-Zn-CuO nanoparticles for photocatalytic activity: Enhanced optical properties through bandgap engineering. Next Materials.

Shuka, Y. (2025). Investigation of energy efficiency in a zeolite-water adsorption solar cooling system utilizing locally sourced materials for the conservation chamber. Physical Science International Journal.

Eyoel, T., Shuka, Y., Tadesse, S., Tesfaye, T., Mengesha, M., & Mert, S. O. (2025). Green energy: Power generation improvement in microbial fuel cells using bio-synthesized polyaniline-coated Co3O4 nanocomposite. International Journal of Energy Research.

Tesfaye, T., Shuka, Y., Tadesse, S., Eyoel, T., & Mengesha, M. (2025). Improving the power production efficiency of microbial fuel cell by using biosynthesized polyaniline-coated Fe3O4 as pencil graphite anode modifier. Scientific Reports.

Jara, Y. S., Mekiso, T. T., & Washe, A. P. (2024). Highly efficient catalytic degradation of organic dyes using iron nanoparticles synthesized with Vernonia amygdalina leaf extract. Scientific Reports.

Mengesha, M., Shuka, Y., Eyoel, T., & Tesfaye, T. (2024). Novel biomaterial-derived activated carbon from Lippia adoensis (Var. Koseret) leaf for efficient organic pollutant dye removal from water solution. American Journal of Applied Chemistry, 12(2), 11.

Jara, Y. S., & Gari, A. N. (2023). The impact of land use types on soil physicochemical properties and agricultural productivity: A case of Gojera Kebele, Dinsho District, South Eastern Ethiopia. Research Square.

Dr. Goutam Khankari | Sustainable Engineering | Best Researcher Award

Published on by Superior Awards

Dr. Goutam Khankari | Sustainable Engineering | Best Researcher Award

Dr. Goutam Khankari | Damodar Valley Corporation | India

Dr. Goutam Khankari is a distinguished researcher and engineer specializing in thermal power systems. His PhD research, titled “Thermodynamic Analysis and Performance Improvement of Coal-Fired Thermal Power Plants,” focused on a comprehensive 4-E approach—Energy, Exergy, Environment, and Economic analysis—of various coal-fired steam power plants using high-ash Indian coals. The primary objective of his work was to enhance the overall efficiency and net power output of these plants by exploiting low-grade waste energy through the Kalina Cycle System, integrating solar energy, and optimizing operational conditions. Dr. Khankari’s research not only provides critical insights into energy and exergy efficiencies but also emphasizes sustainable practices and environmental considerations in coal-based power generation. His work has been widely recognized, reflected in 97 citations across 88 documents and an h-index of 5, demonstrating significant academic influence. Through his innovative approaches to performance improvement and waste energy utilization, Dr. Khankari has contributed meaningfully to the field of thermal engineering, offering practical solutions for maximizing energy output while minimizing environmental impact in India’s coal-fired power sector.

Profile: Scopus | Google Scholar

Featured  Publications

Khankari, G., & Karmakar, S. (2016). Power generation from coal mill rejection using Kalina cycle. Journal of Energy Resources Technology, 138(5), 052004.

Khankari, G., Munda, J., & Karmakar, S. (2016). Power generation from condenser waste heat in coal-fired thermal power plant using Kalina cycle. Energy Procedia, 90, 613–624.

Khankari, G., & Karmakar, S. (2018). Power generation from fluegas waste heat in a 500 MWe subcritical coal-fired thermal power plant using solar assisted Kalina Cycle System 11. Applied Thermal Engineering, 138, 235–245.

Khankari, G., & Karmakar, S. (2021). A novel solar assisted Kalina cycle system for waste heat utilization in thermal power plants. International Journal of Energy Research, 45(12), 17146–17158.

Roge, N. H., Khankari, G., & Karmakar, S. (2022). Waste heat recovery from fly ash of 210 MW coal fired power plant using organic rankine cycle. Journal of Energy Resources Technology, 144(8), 082107.

Khankari, G., & Karmakar, S. (2014). Operational optimization of turbo-generator (TG) cycle of a 500MW coal-fired thermal power plant. In 2014 6th IEEE Power India International Conference (PIICON) (pp. 1–6).

Khankari, G., Karmakar, S., Pramanick, A., & Biswas, M. (2013). Thermodynamic analysis of a 500MW coal-fired Indian power plant. In ESMOC Conference, NIT Durgapur, India.

Mr. Yongrong Zhou | Smart Grid Systems | Best Researcher Award

Published on by Superior Awards

Mr. Yongrong Zhou | Smart Grid Systems | Best Researcher Award

Mr. Yongrong Zhou | NARI Group Co., Ltd. | China

Mr. Yongrong Zhou is an accomplished engineer specializing in power systems at NARI Group Company Limited in Nanjing. He earned his Bachelor of Science degree in Electrical Engineering from Southeast University in Nanjing and has since built a strong career in research, development, and engineering applications within the power sector. His expertise spans power system analysis, automation, testing, and renewable energy integration, contributing to the advancement of smart grid technologies and protection systems. With years of practical and research experience, he has played an integral role in developing innovative solutions that enhance the efficiency, reliability, and sustainability of modern power systems.

Professional Profile

Scopus

Education and Experience

Mr. Yongrong Zhou completed his Bachelor of Science degree in Electrical Engineering at Southeast University in Nanjing. Following his graduation, he began his professional journey at NARI Group Company Limited, where he continues to serve as an engineer. Over the years, he has gained extensive experience in the areas of power system research, design, and engineering applications, particularly focusing on automation, system testing, and renewable energy integration. His work has involved contributing to several major projects in smart grid development, ensuring his expertise aligns with the growing needs of modern and sustainable power infrastructure.

Summary Suitability

 

Mr. Yongrong Zhou is a highly suitable candidate for the Best Researcher Award due to his remarkable contributions to the field of electrical power systems. With a strong academic foundation, holding a Bachelor’s degree in Electrical Engineering from Southeast University in Nanjing, he has developed extensive expertise as an engineer at NARI Group Company Limited. His career is defined by a dedication to advancing research, development, and engineering applications that address critical challenges in modern power networks.

Professional Development

Mr. Yongrong Zhou has consistently engaged in professional development to expand his technical expertise and leadership in power systems engineering. At NARI Group Company Limited, he has contributed to advanced projects in smart grid technologies, system protection, and renewable integration, which has sharpened his ability to bridge theory with practical applications. He has participated in research collaborations and technical workshops, continuously upgrading his knowledge in automation, system testing, and advanced engineering practices. His professional growth reflects a commitment to advancing sustainable energy solutions while maintaining high standards of efficiency, safety, and reliability in modern power systems.

Research Focus 

Mr. Yongrong Zhou conducts research in the category of Electrical Power Systems and Smart Grids. His focus includes power system analysis, automation technologies, and the integration of renewable energy sources into the grid. He is particularly interested in advancing power system protection and testing methods, ensuring stability and resilience in modern infrastructures. His work contributes to the development of smart grid solutions that enhance operational efficiency, reduce environmental impact, and support sustainable energy transitions. By aligning his research with industry needs, he plays a vital role in addressing challenges related to reliability, flexibility, and innovation in next-generation power systems.

Awards and Honors

Mr. Yongrong Zhou has contributed significantly to smart grid development and renewable energy integration projects, earning recognition within his organization and professional community. While specific awards and honors have not been publicly listed, his career reflects consistent achievement in leading engineering applications and research that support the modernization of power systems. His involvement in key projects has positioned him as a trusted professional in advancing power system automation, testing, and protection. These contributions highlight his dedication to technical excellence and his role in driving forward innovations that strengthen the future of power infrastructure.

Publication Top Notes

  • Title: Research on Fault Detection Technology for Direct Current Side Cables of Inverters in Power Network
    Year: 2025

Conclusion

In recognition of his deep technical expertise, impactful research contributions, and commitment to innovation in sustainable energy systems, Mr. Yongrong Zhou stands out as an outstanding candidate for the Best Researcher Award. His work continues to shape the future of smart grids and renewable energy integration, making him a valuable leader in the global power systems community.

Dr. Iman Soltani | Green Technologies | Best Researcher Award

Published on by Superior Awards

Dr. Iman Soltani | Green Technologies | Best Researcher Award

Dr. Iman Soltani | Imam Khomeini International University | Iran

Dr. Iman Soltani is a distinguished researcher in Electrical Engineering with expertise in renewable energy, power electronics, and electric vehicle technologies. He holds a doctorate in Power Engineering from Malek Ashtar University of Technology, preceded by a master’s degree from Imam Khomeini International University and a bachelor’s degree in Robotic Engineering from Shahrood University of Technology. His research encompasses energy management, storage systems, electrical machines, and advanced control algorithms. With a focus on battery charging systems and the optimization of power inductors, Dr. Soltani combines academic excellence with practical innovation, driving forward advancements in sustainable and efficient energy solutions.

Professional Profile

Google Scholar | Scopus

Education and Experience

Dr. Soltani earned his doctorate in Electrical Engineering with a focus on the analysis and optimization of variable power inductors in radio frequency applications. His master’s research explored intelligent methods for maximum power point tracking in solar arrays under diverse conditions. His bachelor’s work centered on designing and controlling multi-degree-of-freedom robotic systems. Throughout his academic journey, he has developed strong expertise in renewable energy, energy storage, control systems, and power electronics. His professional experience integrates theoretical research with hands-on engineering applications, enabling him to contribute innovative and impactful solutions to modern energy and automation challenges.

Summary Suitability

Dr. Iman Soltani stands out as an exceptional candidate for the Best Researcher Award in the field of Electrical Engineering, with specialized expertise in renewable energy systems, power electronics, and advanced control methodologies. His academic journey spans a doctorate in Power Engineering, a master’s degree in the same discipline, and a bachelor’s in Robotic Engineering, each marked by exceptional academic performance and impactful research.

Professional Development

Dr. Soltani has advanced his professional capabilities through extensive research, collaborative projects, and continuous engagement with emerging technologies. His expertise includes renewable energy integration, electric mobility solutions, and intelligent control systems. He has worked extensively on energy storage technologies, advanced battery charging methods, and energy management strategies. His professional growth is marked by interdisciplinary collaboration, knowledge exchange, and the application of innovative engineering principles to real-world problems. Dedicated to staying at the forefront of technological advancements, he continually enhances his skills, ensuring his contributions align with the evolving needs of sustainable power systems and advanced electrical engineering solutions.

Research Focus

Dr. Soltani’s research focus lies in the area of electrical power and renewable energy systems, closely linked with power electronics and advanced control. He investigates the integration of renewable sources into the power grid, efficient storage systems, and smart charging technologies for electric vehicles. His work includes developing algorithms for energy optimization, improving battery performance, and enhancing the efficiency of electrical machines and drives. Additionally, he explores the behavior and optimization of power inductors in high-frequency applications. His research bridges the gap between theory and application, contributing to the creation of sustainable, reliable, and efficient modern energy systems.

Awards and Honors

Dr. Soltani has been recognized for his exceptional academic performance and innovative research contributions. His work has earned commendations from academic institutions for its originality, technical depth, and practical value in the field of renewable energy and power engineering. He has consistently maintained a record of excellence throughout his educational and professional journey, demonstrating leadership in research and a commitment to advancing sustainable technologies. His achievements reflect both intellectual rigor and a dedication to developing solutions that address the pressing challenges in energy systems and electrical engineering.

Publication Top Notes

Title: An intelligent, fast and robust maximum power point tracking for proton exchange membrane fuel cell
Year: 2013
Citation: 30

Title: A detailed comparison between FOC and DTC methods of a permanent magnet synchronous motor drive
Year: 2015
Citation: 28

Title: Optimal placement of STATCOM to voltage stability improvement and reduce power losses by using QPSO algorithm
Year: 2013
Citation: 26

Title: Eagle strategy based maximum power point tracker for fuel cell system
Year: 2015
Citation: 19

Title: Various types of particle swarm optimization-based methods for harmonic reduction of cascade multilevel inverters for renewable energy sources
Year: 2013
Citation: 14

Title: A new sliding mode controller for DC/DC converters in photovoltaic systems
Year: 2013
Citation: 14

Title: Comparative of islanding detection passive methods for distributed generation application
Year: 2014
Citation: 11

Conclusion

With a proven record of high-impact publications, interdisciplinary innovation, and the ability to translate complex engineering concepts into practical solutions, Dr. Soltani exemplifies the qualities of a world-class researcher. His dedication to advancing clean energy technologies and his consistent scholarly excellence make him a highly deserving recipient of the Best Researcher Award.

Kedir Derbie Mekonnen | Chemical Engineering | Best Researcher Award

Published on by Superior Awards

Mr. Kedir Derbie Mekonnen | Chemical Engineering | Best Researcher Award

Wollo University, Ethiopia

👨‍🎓Profiles

🌱 Early Academic Pursuits

Kedir Derbie Mekonnen embarked on his academic journey with a strong foundation in chemical engineering. He earned his Bachelor of Science in Chemical Engineering (2011-2016) from Wollo University, Kombolcha Institute of Technology, Ethiopia, completing a project on bio-ethanol production from corn cob. His academic endeavors culminated in a Master of Science in Chemical Engineering (Process Engineering) from Bahir Dar University in 2020. His thesis, Synthesis and Characterization of Biodiesel from Desert Date (Balanites Aegyptiaca) Seed Kernel Oil, reflects his dedication to renewable energy and sustainable chemical processes.

👨‍🏫 Professional Endeavors

Kedir’s professional career began in December 2016 as a Production Chemist at Kombolcha Tannery PLC. Here, he gained hands-on experience in leather production, waste management, and chemical formulation. Transitioning to academia in 2017, he served as an Assistant Lecturer at Wollo University, later advancing to the position of Lecturer in 2020. His role includes teaching, mentoring students, conducting research, and leading laboratory sessions.

📚 Contributions and Research Focus

Kedir’s research focuses on biodiesel production, catalysis, and renewable energy. His Master's thesis demonstrates innovative approaches to utilizing desert date seed kernel oil for biodiesel synthesis, addressing global energy challenges. As a lecturer, he actively reviews and conducts research, contributing to Ethiopia’s knowledge base in process engineering.

🌍 Impact and Influence

Through his work in academia and industry, Kedir has impacted the fields of chemical engineering and renewable energy. His efforts in biodiesel production and waste management have practical implications for sustainable development in Ethiopia. He has also played a vital role in shaping future engineers through his teaching and mentorship at Wollo University.

📖 Academic Cites

Kedir’s academic contributions are recognized in scholarly circles, with publications and research work cited by peers. His focus on biodiesel production and environmental sustainability has garnered attention in the field of chemical engineering.

💻 Technical Skills

Kedir possesses a robust set of technical skills, including proficiency in Microsoft Office, SPSS, Design Expert, E-Draw Max, LINGO, Aspen Plus, COMSOL, and MATLAB. These tools empower him to conduct sophisticated simulations, data analyses, and process designs, enhancing his research and teaching capabilities.

🎓 Teaching Experience

As a lecturer at Wollo University, Kedir has enriched the learning experiences of countless students. His responsibilities include preparing and delivering lectures, designing laboratory sessions, advising on student projects, and crafting curriculum materials. His Higher Diploma in Higher Education Teaching further underscores his commitment to educational excellence.

🏆 Legacy and Future Contributions

Kedir envisions a future where renewable energy and sustainable chemical processes play a pivotal role in Ethiopia’s development. His work in biodiesel research and education aims to inspire innovation in chemical engineering. By mentoring students and contributing to groundbreaking research, he is leaving a lasting legacy that will shape the next generation of engineers and scientists.

🌟 Key Highlights

  • Innovative Research: Focus on renewable energy through biodiesel production.
  • Industrial Experience: Expertise in leather production and waste management as a Production Chemist.
  • Teaching Excellence: Significant contributions to student learning and mentorship.
  • Technical Proficiency: Advanced knowledge of industry-standard software and tools.
  • Sustainability Advocate: Dedication to environmental sustainability through research and practice.

📖Notable Publications