Xiaomin Kang | Energy storage | Best Researcher Award

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Assist. Prof. Dr. Xiaomin Kang | Energy storage | Best Researcher Award

University of South China, China

Prof. Xiaomin Kang is the Dean of the School of Mechanical Engineering at the University of South China. He holds a Ph.D. in Material Science and Engineering from Southwest Jiaotong University. Prof. Kang has been leading cutting-edge research in energy conversion and storage, with a particular focus on electrochemical reactions such as oxygen evolution/reduction and carbon dioxide conversion. He has actively contributed to numerous national and international research programs and is a core participant in the Shenzhen Innovative Research Team Program and other prestigious initiatives. Prof. Kang has published over 30 research papers and holds 5 patents, contributing significantly to the development of next-generation energy materials. His work is crucial for advancing clean energy solutions, particularly through electrochemical and material science innovations.

Profile

Education

Prof. Xiaomin Kang completed his undergraduate studies in Material Science and Engineering at Southwest Jiaotong University in 2011. He continued his academic journey at the same institution, earning a Ph.D. in 2017. His doctoral research focused on the development of advanced materials for energy applications, contributing to advancements in the field of electrochemical energy storage. After completing his Ph.D., he worked as a postdoctoral researcher in the group of Prof. Luo Jinglli, a Fellow of the Canadian Academy of Engineering. This experience allowed him to further specialize in energy storage and conversion devices, particularly in the areas of oxygen evolution/reduction reactions and CO2 electroreduction. His educational background laid the foundation for his career as a researcher, educator, and leader in the field of mechanical and energy engineering.

Experience

Prof. Xiaomin Kang has a diverse and accomplished career in the field of energy storage and conversion technologies. He began his professional journey as a postdoctoral researcher at Shenzhen University in 2017, specializing in material science and energy applications. In 2020, he became an associate research fellow at Shenzhen University, where he contributed to numerous research projects on energy storage materials and electrochemical processes. In 2022, Prof. Kang was appointed as an associate professor and principal investigator at the University of South China. He currently leads various research projects, including a National Natural Science Foundation of China-funded project and an innovative research program in Shenzhen. His work is instrumental in advancing energy storage technologies and contributing to sustainable energy solutions. Prof. Kangโ€™s leadership and research have significantly impacted the development of energy materials and fuel cells, garnering both national and international recognition.

Research Focus

Prof. Xiaomin Kang’s research focuses on the development of advanced materials for energy storage and conversion, particularly in the fields of electrochemical energy storage, hydrogen production, and carbon dioxide reduction. His primary research interests include exploring the oxygen evolution/reduction reactions (OER/ORR) and the electrochemical conversion of CO2 at room temperature. Prof. Kang is dedicated to developing novel catalysts and materials that can efficiently store and convert energy, contributing to sustainable energy solutions. His research also explores the integration of phase change materials for thermal management in lithium-ion batteries. His work aims to address global challenges related to clean energy production, storage, and utilization. He is involved in several high-impact research programs, focusing on hydrogen energy, fuel cell materials, and the development of graphene-based anti-corrosion materials. Prof. Kang’s innovative research has the potential to revolutionize energy technologies, making a significant impact on environmental sustainability and energy efficiency.

Publication Top Notes

  • “Comprehensive Application of Phase Change Materials in Lithiumโ€Ion Battery Thermal Management: From Single Cooling to Coupled Systems” โšก๐Ÿ”‹
  • “NiFe-LDH nanosheets with high activity in three dimensions on NiFe foam electrode for water oxidation” ๐Ÿ’งโš™๏ธ
  • “On the role of Zn and Fe doping in nitrogen-carbon electrocatalysts for oxygen reduction” ๐Ÿงช๐Ÿ”‹
  • “An Insight in the role of dopamine acted in the electroless deposition process using atomic force microscopy based single molecule force spectroscopy” ๐Ÿ”ฌ๐Ÿง 
  • “Capturing critical gem-diol intermediates and hydride transfer for anodic hydrogen production from 5-hydroxymethylfurfural” ๐Ÿš€๐ŸŒ
  • “Copper-based metal-organic frameworks for electrochemical reduction of CO2” ๐ŸŒฑโšก
  • “N and S dual-coordinated Fe single-atoms in hierarchically porous hollow nanocarbon for efficient oxygen reduction” ๐ŸŒฟโš™๏ธ
  • “Surface Spin Enhanced High Stable NiCo2S4 for Energy-Saving Production of H2 from Water/Methanol Coelectrolysis” ๐Ÿ”‹๐Ÿ’จ
  • “Co7Fe3 Nanoparticles Confined in N-Doped Carbon Nanocubes for Highly Efficient, Rechargeable Zinc-Air Batteries” โšก๐Ÿ”‹
  • “Contact Characteristics and Tribological Properties of the Weaving Surface of Mn-Cu and Fe-Zn Damping Alloys” ๐Ÿ”ง๐Ÿ› ๏ธ
  • “Coordination Effect-Promoted Durable Ni(OH)2 for Energy-Saving Hydrogen Evolution from Water/Methanol Co-Electrocatalysis” ๐Ÿ”‹๐Ÿ’ก
  • “Densely packed ultrafine SnO2 nanoparticles grown on carbon cloth for selective CO2 reduction to formate” ๐ŸŒ๐Ÿ”‹
  • “ZnS anchored on porous N, S-codoped carbon as superior oxygen reduction reaction electrocatalysts for Al-air batteries” ๐Ÿงชโšก
  • “Copper-cobalt-nickel oxide nanowire arrays on copper foams as self-standing anode materials for lithium-ion batteries” ๐Ÿ”‹โšก

 

 

 

Todor Todorov | Energy Harvesting | Best Researcher Award

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Prof. Dr. Todor Todorov | Energy Harvesting | Best Researcher Award

Professor, Technical University of Sofia, Bulgaria

Todor Stoilov Todorov is a Bulgarian academic and engineer, specializing in microelectromechanical systems (MEMS), mechanism theory, and mechanical engineering. He currently serves as the Head of the Laboratory of Microelectromechanical Systems at the Technical University of Sofia. With over 40 years of experience in academia and research, Todorov has held key positions, including Dean of the Faculty of Industrial Technology and Head Assistant Professor in Theory of Mechanisms and Machines. He is renowned for his contributions to MEMS technology, robotics, and machine theory. Todorov is also an active member of several professional organizations and editorial boards, demonstrating his commitment to advancing engineering education and research.

Profileย 

Education

Todorov completed his PhD in 2001 at the Technical University of Sofia, focusing on the synthesis of mechanisms for manipulation in relative space. He earned his MSc in Mechanical Engineering in 1983, with a specialization in precision engineering and measurement instruments. Further enhancing his expertise, he obtained a Master of Science degree in Decision Support Systems from the University of Sunderland in the UK (1994). His diverse educational background also includes early studies in mechanical design and microelectronic systems at the Technical University of Sofia.

Experience

Todorov has dedicated his career to academia, holding various teaching and research roles at the Technical University of Sofia. From 2013, he served as a Professor in Theory of Mechanisms, specializing in MEMS, nanoengineering, and mechanical systems. Between 2019-2022, he was the Dean of the Faculty of Industrial Technology. His leadership also includes roles such as Head Assistant Professor, Senior Assistant Professor, and Researcher. Additionally, he held a position as Mayor of Vladaya (1995-1999), showcasing his versatility in both academic and public administration spheres.

Awards and Honors

Todorov has been recognized for his significant contributions to mechanical engineering and academic leadership. Notable honors include his membership on the Editorial Board of multiple international journals and his role as a guest editor for Actuators. He is a reviewer for MDPI publishers and has been an active member of the Scientific-Technical Union of Mechanical Engineering, Bulgaria. His work in MEMS and mechanical systems design has earned him numerous academic accolades and an influential role in shaping the direction of robotics and mechanical engineering research in Bulgaria and beyond.

Research Focus

Todorov’s research focuses primarily on Microelectromechanical Systems (MEMS), Shape Memory Alloys (SMA), mechanism theory, and energy harvesting technologies. His innovative work in energy harvesters and self-excited oscillators using MEMS technology aims to enhance the performance of mechanical systems. He has explored applications of intelligent systems and decision support systems in engineering, integrating machine learning and adaptive models. Additionally, his work on actuators, sensors, and microcantilever sensors for ultralow mass detection underscores his expertise in applied robotics, advanced manufacturing, and the future of microtechnologies.

Publications

  • Dynamics of a Self-Excited Vibrating Thermal Energy Harvester with Shape Memory Alloys and PVDF Cantilevers (2024) ๐Ÿง‘โ€๐Ÿ”ฌ
  • Evaluation of the Influence of Lorentz Forces on the Natural Frequencies of a Dual-Microcantilever Sensor for Ultralow Mass Detection (2024) โšก
  • Investigating a Detection Method for Viruses and Pathogens Using a Dual-Microcantilever Sensor (2024) ๐Ÿฆ 
  • Study of Self-Excited Thermomechanical Oscillator with Shape Memory Alloys (2024) ๐Ÿ”ฅ
  • Synthesis of a Bistable Recuperative Pump Powered by Shape Memory Alloys and a Two-Section Involute Cam (2023) ๐Ÿ”ง
  • Linear Interval Approximation of Sensor Characteristics with Inflection Points (2023) ๐Ÿ“Š
  • A Study of a Bistable Reciprocating Piston Pump Driven by Shape Memory Alloys and Recuperative Springs (2023) ๐Ÿ”„
  • Energy Harvesting With Thermally Induced Vibrations in Shape Memory Alloys by a Constant Temperature Heater (2022) โš™๏ธ
  • Linear Interval Approximation for Smart Sensors and IoT Devices (2022) ๐ŸŒ
  • Modeling and Study of a Novel Electrothermal Oscillator Based on Shape Memory Alloys (2020) ๐Ÿ”‹

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: Pazukiโ€™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 Masterโ€™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 Bachelorโ€™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 Iranโ€™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.

Xian Li | Deoxygenation | Best Researcher Award

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Prof Xian Li | Deoxygenation | Best Researcher Award

Prof Xian Li , Huazhong University of Science and Technology, China

๐ŸŽ“ Dr. Xian Li is a distinguished Professor affiliated with both the State Key Laboratory of Coal Combustion at Huazhong University of Science and Technology, and the School of Chemical Engineering and Technology at Xinjiang University. With a doctoral degree from Dalian University of Technology, Dr. Li has contributed extensively to research on low-grade carbonaceous energy resources and thermal energy storage. His international experience includes postdoctoral research at the Max-Planck-Institute in Germany and a tenure as a Global-COE Researcher and Assistant Professor at Kyoto University, Japan. Dr. Liโ€™s pioneering work in deoxygenation and ash removal of low-grade fuels has garnered him the Excellent Achievement Award from the Ministry of Education of China in 2018. He continues to collaborate globally, advancing technologies and methodologies that push the boundaries of energy research.

Publication Profile

Scopus

Strengths for the Award

  1. Extensive Research Experience: Xian Li has an impressive academic and professional background, with over 20 completed or ongoing research projects in the last five years, demonstrating consistent productivity and commitment to research.
  2. Significant Publications: With more than 70 journal articles published in SCI and Scopus-indexed journals in recent years, Xian Li has significantly contributed to the academic community.
  3. Innovative Patents: Holding 15 patents within the last five years, Xian Li has made substantial contributions to applied research, particularly in thermal energy storage and low-grade fuel utilization.
  4. International Collaborations: Xian Li has established long-term collaborations with esteemed institutions such as Kyoto University and King Mongkut’s University of Technology, enhancing the impact and reach of his research.
  5. Awards and Recognition: Receiving the Excellent Achievement Award of Colleges and Universities from the Ministry of Education of China in 2018 highlights his recognized excellence in research.

Areas for Improvement

  1. Industry Engagement: Xian Liโ€™s lack of involvement in consultancy or industry-sponsored projects could be seen as a gap in applying research to practical, real-world problems.
  2. Editorial Roles: No mention of editorial appointments suggests a potential area for growth in contributing to the academic community through leadership in scholarly publications.

Educationย 

๐ŸŽ“ Dr. Xian Liโ€™s educational journey began at Dalian University of Technology, where he earned his doctorate in 2008. His postdoctoral research took him to the prestigious Max-Planck-Institute of Coal Research in Germany, where he deepened his expertise in energy resource studies. In 2009, Dr. Li became a Global-COE Researcher at Kyoto University in Japan, a role that allowed him to explore advanced research in thermal conversion technologies. He continued his academic pursuit at Kyoto University, where he served as an Assistant Professor from 2010 to 2013, gaining significant insights into the thermal processing of carbonaceous materials. In 2013, Dr. Li returned to China as an Associate Professor at Huazhong University of Science and Technology, and later joined Xinjiang University as a Professor in 2017. His robust educational background laid the foundation for his groundbreaking research in energy resource management and conversion.

Experience

๐Ÿ’ผ Dr. Xian Li’s professional career is marked by significant roles in academia and research. After earning his doctorate in 2008, he embarked on a postdoctoral fellowship at the Max-Planck-Institute of Coal Research in Germany, focusing on coal combustion and energy conversion technologies. He then joined Kyoto University in Japan, where he served as a Global-COE Researcher from 2009 to 2010 and later as an Assistant Professor until 2013. During this period, Dr. Li made substantial contributions to the field of low-grade fuel utilization and thermal energy storage. In 2013, he transitioned to Huazhong University of Science and Technology as an Associate Professor, where he continued his research in upgrading and thermal conversion of carbonaceous materials. By 2017, Dr. Li expanded his academic influence by taking on a professorship at Xinjiang University, where he has since led numerous projects and research initiatives.

Awards and Honors

๐Ÿ† Dr. Xian Li’s contributions to energy research have been widely recognized with several prestigious awards. In 2018, he received the Excellent Achievement Award of Colleges and Universities from the Ministry of Education of China, an accolade that highlights his innovative work in dewatering, deoxygenation, and ash removal of low-grade fuels. His research has also led to the development of advanced thermal energy storage materials, for which he has been honored both nationally and internationally. In addition to these achievements, Dr. Li has been a recipient of numerous grants and funding opportunities, reflecting the significance and impact of his work on the global energy sector. His long-standing collaborations with leading institutions such as Kyoto University and King Mongkut’s University of Technology have further solidified his reputation as a leading figure in the field of energy resource management.

Research Focusย 

๐Ÿ”ฌ Dr. Xian Li’s research focuses on the upgrading and thermal conversion of low-grade carbonaceous energy resources, with an emphasis on improving efficiency and sustainability. His work explores the fundamental mechanisms of deoxygenation, ash removal, and thermal energy storage, particularly in relation to low-temperature pyrolysis and the enhancement of specific heat capacities in energy materials. Dr. Li has introduced innovative methods, such as gas-pressurized torrefaction and flue-gas enhanced water leaching, which have significant implications for the energy sector. His research also delves into the use of nano-materials, like nano-SiC, to improve the thermal properties of carbonates, leading to more efficient energy storage solutions. Through his ongoing projects and collaborations, Dr. Li continues to push the boundaries of how low-grade fuels can be effectively utilized and transformed into viable energy sources.

Publication Top Notes

๐Ÿ“š ย “Enhancement of Specific Heat Capacity of Carbonates by Nano-SiC: Mechanistic Insights”
๐Ÿ“š “Low-Temperature Pyrolysis Models for Poor-Quality Fuels: A Comprehensive Study”
๐Ÿ“š ย “Gas-Pressurized Torrefaction: A Novel Method for Low-Grade Fuel Conversion”
๐Ÿ“š ย “Flue-Gas Enhanced Water Leaching for Ash Removal in Coal Processing”
๐Ÿ“š ย “Thermal Conversion Techniques for Low-Grade Carbonaceous Materials: An Overview”
๐Ÿ“š “Kinetic Calculations for Thermal Energy Storage Materials: A Multi-Dimensional Approach”
๐Ÿ“š “Nano-Enhanced Carbonates for High-Temperature Energy Storage: An Experimental Study”
๐Ÿ“š “Deoxygenation Mechanisms in Low-Grade Fuels: The Role of Temperature and Catalysts”
๐Ÿ“š ย “Innovative Dewatering Techniques for Low-Grade Carbonaceous Resources”
๐Ÿ“š ย “Pyrolysis and Ash Removal: Techniques and Applications in Modern Energy Systems”\

Conclusion

Professor Xian Li is a strong candidate for the Best Researcher Award, given his significant contributions to both fundamental and applied research. His extensive publication record, innovative patents, and international collaborations showcase his excellence in research and innovation. While industry engagement and editorial leadership could enhance his profile further, his achievements make him highly suitable for recognition in this category.

 

 

Olayomi Falowo | Renewable Energy | Best Researcher Award

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Dr Olayomi Falowo | Renewable Energy | Best Researcher Award

Dr Olayomi Falowo, Landmark University, Nigeria

Dr. Olayomi Abiodun Falowo is a dedicated Chemical Engineering faculty member at Landmark University, Nigeria, with five years of experience in research and teaching. With a background in biochemical engineering and a Ph.D. from Obafemi Awolowo University, Dr. Falowo specializes in biomass bioconversion, nano-catalyst synthesis, and industrial product development. His career highlights include supervising 28 undergraduates and 3 graduate students, publishing 20 journal articles in Scopus-indexed journals, and contributing to five book chapters. He is an active member of the Nigerian Society of Engineers and is renowned for his expertise in sustainable energy solutions.

Publication Profile

Orcid

Strengths for the Award

  1. Strong Research Contributions: Dr. Falowo has a robust publication record with 20 journal articles in Scopus-indexed journals, showcasing significant contributions to the field of Chemical Engineering. His research focuses on innovative areas such as biomass bioconversion, nano-catalyst synthesis, and industrial product development.
  2. Diverse and High-Impact Publications: The research includes high-impact journals and varied topics, such as biofuel production and catalyst synthesis, indicating a breadth of expertise and relevance in current scientific challenges.
  3. Book Chapters and Conference Presentations: Contributions to book chapters and participation in international conferences highlight his engagement with the broader scientific community and his role in advancing knowledge in his field.
  4. Research Supervision and Mentorship: Successful supervision of 28 undergraduate and 3 graduate students demonstrates a commitment to fostering new talent and advancing research through education.
  5. Technical Expertise and Skills: Proficiency in critical technical skills, including data analysis, material characterization, and programming in Matlab and Python, complements his research activities and enhances his effectiveness as a researcher.
  6. Professional and Academic Collaborations: Collaboration with prominent institutions both locally and internationally reflects a strong network and recognition in the global research community.
  7. Leadership and Training: Participation in leadership programs and professional development courses indicates a commitment to personal growth and contributing to the academic community beyond research.

Areas for Improvement

  1. Increased Citations and Impact: While Dr. Falowo has a respectable H-index, further increasing citations and impact factor of journals where he publishes could enhance the visibility and influence of his work.
  2. Expansion of Research Scope: Broadening the scope of research to include emerging areas within Chemical Engineering or interdisciplinary fields could provide additional opportunities for high-impact discoveries and innovations.
  3. Grants and Funding: Information on securing research grants or funding is not detailed. Actively pursuing and securing competitive research grants could support and expand research initiatives.
  4. Broader Outreach: Enhancing outreach efforts, such as public lectures or community engagement, could increase the impact of his research and contribute to science communication.

Education

Dr. Olayomi Abiodun Falowo holds a Ph.D. in Chemical Engineering from Obafemi Awolowo University (2018) and an M.Sc. in Chemical Engineering from the same institution (2014). He completed his B.Sc. (Hons) in Biochemistry in 2012 and a Diploma in Chemical Engineering in 2010, also from Obafemi Awolowo University. His foundational education includes Cambridge GCE Advanced Level from Christโ€™s School, Ado-Ekiti (2005) and Senior Secondary School Certificate (2002). His advanced education underscores his strong academic foundation and commitment to the field of chemical engineering.

Experience

Dr. Falowo’s professional journey spans both academic and research roles. At Landmark University, he has been a faculty member since October 2019, teaching various Chemical Engineering courses, grading, and supervising students. Previously, he served as a Research Associate at Obafemi Awolowo University (2018-2019), where he supervised research projects and assisted with experimental work. He also held a position as a Teaching Assistant in Engineering Thermodynamics at Obafemi Awolowo University (2017-2018). His extensive experience includes curriculum development, student advising, and active research in renewable energy technologies.

Research Focus

Dr. Falowo’s research focuses on sustainable energy technologies, particularly biomass bioconversion and the synthesis of nano-catalysts. His work involves optimizing biofuel production processes, designing heterogeneous catalysts, and exploring the applications of advanced materials in industrial processes. His studies aim to enhance the efficiency of biomass processing and contribute to greener energy solutions. Notable research areas include microwave-assisted biodiesel production, optimization of bioethanol production, and the development of novel catalysts from agricultural wastes.

Publication Top Notes

Sustainable microwave-supported biodiesel production using sandbox oil and its waste shell as a nanoparticle green alkali heterogeneous catalyst – Process Biochemistry

Extraction of Keratin Protein From Chicken Feathers: An Optimization Study – Nigeria Society of Chemical Engineering Journal

Economic feasibility of using agricultural wastes for catalyst development – Annals of Civil and Environmental Engineering

Optimization of Corn Steep Liquor as a Sole Substrate for Bioethanol production using Saccharomyces Cerevisiae – IEEE

Synthesis of Sulfonated Magnetic Nanocatalyst using Rice Husk Ash for Corncob Hydrolysis: Kinetic and Thermodynamic Study – Waste and Biomass Valorization

Green Heterogeneous Base catalyst from Ripe-Unripe Plantain peels for the Transesterification of Waste cooking oil – Chemical Engineering Journal Advances

Techno-economic analysis of Cellulase Production by Trichoderma reesei in Submerged Fermentation Processes using a Process Simulator – South African Journal of Chemical Engineering

Conclusion

Dr. Olayomi Abiodun Falowo demonstrates a strong candidacy for the Best Researcher Award due to his significant research contributions, extensive publication record, and active role in mentoring students and collaborating with international institutions. His technical skills and commitment to the field are evident, though there are opportunities to enhance his research impact and expand his funding base. Overall, his achievements and dedication make him a commendable candidate for this award, reflecting both his current accomplishments and potential for further contributions to Chemical Engineering.

 

 

Chokri Ben Salah | Energy management Award | Best Researcher Award

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Prof Chokri Ben Salah | Energy management Award | Best Researcher Award

Prof Chokri Ben Salah, University of Monastir, Tunisia

Prof Chokri Ben Salah is an Associate Professor of Electrical Engineering at the Higher Institute of Applied Sciences and Technology of Sousse, Tunisia. He earned his Ph.D. and Habilitation in Electrical Engineering from the National School of Engineers of Sfax. His research focuses on renewable energies, electric systems, power electronics, and their applications in smart grids, micro-grids, and electric vehicles. Ben Salah is affiliated with the Laboratory of Automation, Electrical Systems, and Environment (LASEE) at the University of Monastir. He has authored numerous publications and actively contributes to conferences on topics related to energy management, hybrid systems optimization, and wireless charging technologies.

Publication Profile

Orcid

Education

Prof Chokri Ben Salah received his Ph.D. in Electrical Engineering from the National School of Engineers of Sfax in 2011, specializing in optimal management of autonomous PV/Battery systems. He obtained his Habilitation in 2016 on the design and optimization of renewable energies. Earlier, he completed his Master’s degree in Electrical Conversion and Renewable Energy and his Bachelor’s degree in Electrical Engineering, both at ENIS in Tunisia.

Experience

Prof Chokri Ben Salah has extensive teaching experience, currently serving as an Associate Professor at the Higher Institute of Applied Sciences and Technology of Sousse since 2018. Prior to this, he held positions as Assistant Professor at ISSAT Sousse and the Faculty of Science of Gafsa. His teaching spans courses in micro-sources of energy production, renewable energies, electric machines, and power electronics. Ben Salah has supervised numerous graduation projects and conducted pedagogical training at the University of Sousse. His industrial experience includes internships and research contracts focused on electrical systems and renewable energy applications.

Research focus

Chokri Ben Salah’s research interests lie in renewable energy systems, particularly the optimization of PV/Battery systems and hybrid energy management. He explores advanced topics such as smart grids, micro-grids, and electric vehicle technologies. His work emphasizes the integration of renewable energies into existing power systems for enhanced efficiency and sustainability. Ben Salah has contributed significantly to the development of high-frequency optimized inverter technology for wireless charging stations and has published extensively on multi-criteria assessments of renewable energy systems, techno-economic studies, and artificial intelligence solutions for energy management.

Publication Top Notes

Hybrid PVP/Battery/Fuel Cell Wireless Charging Station Using High-Frequency Optimized Inverter Technology for Electric Vehicles

A Comparative-Analysis-Based Multi-Criteria Assessment of On/Off-Grid-Connected Renewable Energy Systems: A Case Study

A techno-economic comparative study of renewable energy systems based different storage devices

An Artificial Intelligence Solution for Energy Management in Smart Grid

Design and Optimization of VHF Class ฮฆ 2 Inverter Dedicated for Wireless Charging Application

Enhancing Efficiency in Wireless Solar Charging Stations Through IoT Control and Optimization Strategies

Hossein Khorasanizadeh | Renewable Energy Technologies Award | Excellence in Research

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Prof Hossein Khorasanizadeh | Renewable Energy Technologies Award | Excellence in Research

Prof Hossein Khorasanizadeh , University of Kashan , Iran

Professor Hossein Khorasanizadeh is a leading expert in Mechanical Engineering at the University of Kashan, Iran ๐Ÿซ๐Ÿ‡ฎ๐Ÿ‡ท. He holds a PhD in Mechanical and Manufacturing Engineering from the University of New South Wales ๐ŸŽ“๐Ÿ‡ฆ๐Ÿ‡บ. His research spans solar energy, thermal engineering, fluid mechanics, and nanofluids โ˜€๏ธ๐Ÿ”ง๐ŸŒŠ. Over his career, he has held various academic and administrative positions, including Head of the Department of Thermal Sciences and Fluid Mechanics. Professor Khorasanizadeh is renowned for his contributions to renewable energy and modern cooling and heating systems, making a significant impact on the engineering community ๐ŸŒฟ๐ŸŒก๏ธ.

Publication Profile

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Education

Professor Hossein Khorasanizadeh has an impressive academic background in Mechanical Engineering. He earned his PhD in Mechanical and Manufacturing Engineering from the University of New South Wales (1993-1997) ๐ŸŽ“๐Ÿ‡ฆ๐Ÿ‡บ. Prior to that, he completed his Master of Engineering Science in Mechanical Engineering at the same university (1992-1993) ๐Ÿ“˜. His foundational education was at the Isfahan University of Technology, where he obtained his Bachelor of Engineering Science in Mechanical Engineering (1983-1988) ๐ŸŽ“๐Ÿ‡ฎ๐Ÿ‡ท. This solid educational foundation has significantly contributed to his expertise in the field of mechanical engineering and his impactful research.