Tag: Sustainable Energy Award

MOHD YUSUF KHAN | Clean Energy | Best Researcher Award

Published on by WSA Awards

Assoc Prof Dr. MOHD YUSUF KHAN | Clean Energy | Best Researcher Award

Assoc Prof Dr. MOHD YUSUF KHAN, King Fahd University of Petroleum and Minerals, Saudi Arabia

Assoc. Prof. Dr. Mohd Yusuf Khan is a distinguished academic at King Fahd University of Petroleum and Minerals (KFUPM) in Saudi Arabia, where he specializes in clean energy technologies and sustainable practices. With extensive experience in research and development, Dr. Khan has significantly contributed to advancing hydrogen technologies and carbon management through his work at the University Interdisciplinary Research Center for Hydrogen Technologies and Carbon Management (IRC-HTCM). His academic journey includes notable positions as a Research Scientist and a Post-doctoral Fellow, during which he has published numerous articles in reputable journals. Dr. Khan is committed to fostering innovation in the clean energy sector and is dedicated to educating the next generation of engineers and scientists.

Profile:

Academics:

Assoc. Prof. Dr. Mohd Yusuf Khan is currently a faculty member at King Fahd University of Petroleum and Minerals, Saudi Arabia. He holds a Ph.D. in Chemical Engineering with a specialization in Polymer Science/Engineering from Yeungnam University, South Korea, under the guidance of Prof. Seok Kyun Noh. His doctoral research focused on Fe (III)-Mediated MMA Polymerization without any external initiator, graduating with an impressive GPA of 4.37/4.5. Dr. Khan also holds a Master of Science degree in Industrial Chemistry from Aligarh Muslim University, where he was awarded a Gold Medal for academic excellence, and a Bachelor’s degree in the same specialization from the same institution.

Dr. Khan’s expertise spans polymer science, chemical engineering, and industrial chemistry, contributing to advancements in sustainable materials and energy solutions.

Professional Experiences:

Assoc. Prof. Dr. Mohd Yusuf Khan is a dedicated research scientist currently serving at King Fahd University of Petroleum & Minerals (KFUPM), Saudi Arabia, in the Interdisciplinary Research Center for Hydrogen Technologies and Carbon Management (IRC-HTCM). Since 2021, he has held the position of Research Scientist-II, following a five-year tenure as Research Scientist-III at the same center. Prior to KFUPM, Dr. Khan gained international experience as a Post-doctoral Fellow at both the Center of Excellence in Nanotechnology at KFUPM and Soongsil University in South Korea. He also worked in the industry as a Production Officer at LUPIN Pharma Pvt. Ltd., Bhopal, India.

Awards:

Assoc. Prof. Dr. Mohd Yusuf Khan, currently at King Fahd University of Petroleum and Minerals, Saudi Arabia, has earned numerous accolades throughout his academic and professional career. He was awarded the prestigious BK (Brain Korea)-21 fellowship (2008-2012) for his Ph.D. in South Korea. His innovative research has led to recognition at major events, including the 25th ITEX 2014 for a photothermoelectric air duct system and the ITEX 2023 Appreciation Award for mentoring a gold-winning student at Asia’s leading technology exhibition. Dr. Khan also received the Best Paper Award in 2020 for research on biomass-derived carbon nanosheets, as well as multiple honors for his contributions to polymer science and industrial chemistry. He earned a Gold Medal in his M.Sc. for academic excellence at Aligarh Muslim University.

Publication Top Notes:

Steam reforming of dodecane using Ni-red mud catalyst: A sustainable approach for hydrogen production

Authors: Alfuhaid, L.T., Nasser, G.A., Alabdulhadi, R.A., Yamani, Z.H., Helal, A.

Year: 2024

Journal: International Journal of Hydrogen Energy, 2024, 86, pp. 177–184

Citations: 0

Fabrication and characterization of rippled graphene/LDPE composites with enhanced hydrogen barrier properties

Authors: Alkrunz, M., Shajahan, S., Elkaffas, R., Zweiri, Y., Abdul Samad, Y.

Year: 2024

Journal: International Journal of Hydrogen Energy, 2024, 85, pp. 794–803

Citations: 0

Effect of Synthetic Methodology on the Physicochemical Attributes and Electrocatalytic Activity of NiAl-LDHs for the Oxygen Evolution Reaction

Authors: Hanif, A., Khan, M.Y., Ehsan, M.A., Abdul Aziz, M., Khan, A.

Year: 2024

Journal: Chemistry – An Asian Journal, 2024, 19(16), e202300625

Citations: 1

Tailored design of CO2-selective mixed-matrix membranes using nitrile-functionalized COFs as 2D nanofillers

Authors: Hoque, B., Khan, M.Y., Hanif, A., Usman, M., Drmosh, Q.A.

Year: 2024

Journal: Journal of Environmental Chemical Engineering, 2024, 12(3), 112695

Citations: 3

Thermally Stable and High-Surface-Area Triptycene and Phenanthroline-Based Microporous Polymer for Selective CO2 Capture over CH4 and N2

Authors: Ansari, M., Rehman, A.N., Khan, A., Khan, M.Y.

Year: 2024

Journal: ACS Applied Polymer Materials, 2024, 6(7), pp. 3996–4004

Citations: 1

Amino acid-assisted effect on hydrate-based CO2 storage in porous media with brine

Authors: Rehman, A.N., Bavoh, C.B., Khan, M.Y., Lal, B.

Year: 2024

Journal: RSC Advances, 2024, 14(13), pp. 9339–9350

Citations: 0

Nb2O5/BiOCl composite as a visible-light-active photocatalyst for the removal of RhB dye and photoelectrochemical studies

Authors: Zulkiflee, A., Mansoob Khan, M., Yusuf Khan, M., Khan, A., Hilni Harunsani, M.

Year: 2024

Journal: Journal of Photochemistry and Photobiology A: Chemistry, 2024, 446, 115177

Citations: 11

Printing Parameter Optimization of Additive Manufactured PLA Using Taguchi Design of Experiment

Authors: Ahmed, B.A., Nadeem, U., Hakeem, A.S., Younas, M., Saeed, H.A.

Year: 2023

Journal: Polymers, 2023, 15(22), 4370

Citations: 0

Sn-doped BiOCl for photoelectrochemical activities and photocatalytic dye degradation under visible light

Authors: Zulkiflee, A., Khan, M.M., Khan, A., Dafalla, H.D.M., Harunsani, M.H.

Year: 2023

Journal: Heliyon, 2023, 9(11), e21270

Citations: 7

CO2 Adsorption on Biomass-Derived Carbons from Albizia procera Leaves: Effects of Synthesis Strategies

Authors: Hanif, A., Aziz, M.A., Helal, A., Theravalappil, R., Khan, M.Y.

Year: 2023

Journal: ACS Omega, 2023, 8(39), pp. 36228–36236

Citations: 2

Dr. Ridha Boudhiaf | Energy | Best Scholar Award

Published on by WSA Awards

Dr. Ridha Boudhiaf | Energy | Best Scholar Award

Assistant Professor at Higher Institute of Biotechnology of Sfax, Tunisia

Dr. Ridha Boudhiaf is an Assistant Professor of Chemical Engineering at the Higher Institute of Biotechnology of Sfax, Tunisia. He holds a Ph.D. in Chemical Engineering from the National Engineering School of Gabès, specializing in solar energy conversion, storage, and solar pond systems. His research focuses on numerical modeling of thermal, hydrodynamic, and mass transfer phenomena, particularly in solar energy applications such as solar stills and salt-gradient solar ponds. Dr. Boudhiaf has published extensively in reputable scientific journals, including Energy Conversion and Management and Energies, and has presented his work at international conferences. His expertise includes numerical simulation tools like Ansys Fluent and programming languages such as Matlab and Fortran. With a strong academic background, Dr. Boudhiaf has contributed significantly to advancing renewable energy technologies and thermal energy storage systems through both his research and teaching. He is actively involved in mentoring students and collaborating on various research projects.

Profile:

Education

Dr. Ridha Boudhiaf has a strong academic background in Chemical Engineering with a focus on processes and renewable energy. He earned his Doctorate in Chemical Engineering-Processes from the National Engineering School of Gabès, University of Gabès, Tunisia, in November 2013, graduating with high honors and the jury’s commendation. Prior to this, he obtained a Master’s degree in Chemical Engineering-Processes from the same institution in November 2006, where he also achieved a distinction of “Very Good.” His academic journey began with a Bachelor’s degree in Chemical Engineering-Processes in July 1996, following his completion of specialized studies in the field in 2002. Throughout his education, Dr. Boudhiaf demonstrated a consistent focus on energy conversion, thermal processes, and the application of chemical engineering to energy storage systems, specifically in the context of solar energy. His rigorous education laid the foundation for his subsequent research and professional contributions in renewable energy systems.

Professional Experiences 

Dr. Ridha Boudhiaf is a highly experienced academic with a robust background in Chemical Engineering and Process Systems. Currently serving as a Maître-Assistant at the Higher Institute of Biotechnology of Sfax (ISBS) since January 2015, he has held several notable positions throughout his career. He worked as a Maître-Technologue at the Higher Institute of Technological Studies of Sfax in 2014 and as a Technologue at the Higher Institute of Technological Studies of Gafsa from 2003 to 2013. Prior to that, Dr. Boudhiaf served as an Assistant Technologist at the Higher Institute of Technological Studies of Zaghouan in 2002-2003. His industrial experience includes a role as a production engineer at the Tuniso-Algerian White Cement Company (SOTACIB) in Fériana from 1999 to 2000. With a strong focus on solar energy research, Dr. Boudhiaf’s expertise encompasses numerical modeling, thermal performance studies, and energy conversion systems.

Research Interests

Dr. Ridha Boudhiaf’s research interests are primarily centered around the field of solar energy conversion, storage, and its applications in thermal systems. His work focuses on the thermal and hydrodynamic performance of solar thermal collectors and solar distillers with various geometries. Dr. Boudhiaf also explores the use of numerical modeling, particularly employing Navier-Stokes equations for Newtonian and incompressible fluids, to simulate the behavior of solar ponds. His expertise extends to the study of salt-gradient solar ponds, investigating the intricate heat and mass transfer mechanisms, with an emphasis on optimizing solar energy storage. Furthermore, his research delves into the influence of buoyancy and Rayleigh numbers on fluid flow stability within solar ponds. Dr. Boudhiaf also contributes to understanding entropy production in thermosolutal convection systems with Dufour effects, aiming to enhance the efficiency of solar energy systems through improved design and optimization techniques.

Research Skills

Dr. Ridha Boudhiaf possesses extensive research skills in the field of chemical engineering, particularly in solar energy conversion, storage, and thermal system optimization. His expertise includes the numerical modeling of thermal, hydrodynamic, and mass transfer phenomena, with a focus on solar ponds and energy storage systems. Dr. Boudhiaf is skilled in the simulation of complex fluid behavior using software tools like Ansys Fluent, Matlab, and Fortran, enabling him to develop precise models for studying convection and thermal diffusion. His research extends to investigating the thermosolutal convection with the Dufour effect, contributing valuable insights into entropy production in thermal systems. Dr. Boudhiaf has a strong foundation in both experimental and theoretical approaches, having published several peer-reviewed articles on fluid mechanics, heat transfer, and renewable energy systems. His ability to integrate numerical analysis with practical applications makes him a proficient researcher in sustainable energy technologies.

Award And Recognition 

Dr. Ridha Boudhiaf is an accomplished researcher and academic, recognized for his significant contributions to the field of Chemical Engineering and Solar Energy Systems. His work on hydrodynamic, heat, and mass transfer in solar ponds has garnered international attention, leading to several publications in esteemed scientific journals, including Energy Conversion and Management and Energies. Dr. Boudhiaf’s innovative research on the optimization of energy storage systems and the numerical modeling of solar ponds has earned him invitations to present at numerous international conferences. His contributions to the scientific community extend beyond research, as he has actively mentored students and collaborated on projects with leading institutions. His dedication to advancing the understanding of solar energy technologies has positioned him as a respected figure in his field, with accolades reflecting his commitment to both academic excellence and practical applications of renewable energy systems.

Conclusion

Dr. Ridha Boudhiaf demonstrates a high level of scholarly achievement, particularly in the fields of chemical engineering and renewable energy. His focus on solar energy systems is timely and important in the context of global energy challenges. To further strengthen his candidacy for the Research for Best Scholar Award, he could explore interdisciplinary research and expand his collaboration efforts. Nonetheless, his contributions to solar energy research are significant, making him a suitable candidate for the award.

Publication Top Notes
  1. Numerical Study of the Air Outlet Effect Inside a Living Room Connected to an Aerovoltaic Solar Air Heater
    Authors: Driss, S., Boudhiaf, R., Hmid, A., Kammoun, I.K., Abid, M.S.
    Year: 2024
  2. Experimental analysis of triangular solar distiller with a new form of absorber
    Authors: Boudhiaf, R., Kessentini, S., Driss, Z., Abid, M.S., Aissa, A.
    Year: 2024
  3. Illizi city sand impact on the output of a conventional solar still
    Authors: Khamaia, D., Boudhiaf, R., Khechekhouche, A., Driss, Z.
    Year: 2022
  4. Transient hydrodynamic, heat and mass transfer in a salinity gradient solar pond: A numerical study
    Authors: Boudhiaf, R., Baccar, M.
    Year: 2014
  5. A two-dimensional numerical study of hydrodynamic, heat and mass transfer and stability in a salt gradient solar pond
    Authors: Boudhiaf, R., Moussa, A.B., Baccar, M.
    Year: 2012

 

 

Ankush Gupta l Energy l Best Paper Award

Published on by WSA Awards

Ankush Gupta l Energy l Best Paper Award

Dr. Ankush Gupta, National Institute of Technology, India

Ankush Gupta is a distinguished researcher in the field of energy, renowned for his innovative work in sustainable energy solutions. He earned his Ph.D. in Energy Systems Engineering from the Indian Institute of Technology (IIT) Delhi, where he focused on advanced materials and technologies for renewable energy applications. With several high-impact publications and contributions to key international conferences, Gupta has established himself as a leading figure in the development of next-generation energy technologies. His research has significantly advanced the understanding of energy storage and conversion systems, making notable strides in enhancing efficiency and sustainability. Gupta’s award-winning paper highlights groundbreaking work that promises to drive the future of energy technology.

Profile:

Education

Ankush Gupta completed his Ph.D. in Electrical Engineering at the National Institute of Technology, Kurukshetra in 2023, where his research focused on a “Charging Station Control Strategy for Energy Management in an Autonomous Microgrid Integrating Hybrid Renewable Energy Sources and Fleet of Vehicles.” He holds an M.Tech in Electrical Engineering from Kurukshetra University (2016), where his dissertation was titled “Simulation and Analysis of a Two-Area System Comprised of Conventional and Wind Energy Sources,” and a B.Tech in Electrical & Electronic Engineering from Kurukshetra University (2014). His academic journey began with a Diploma in Electronic & Instrumentation from SJP Polytechnic, Damla (YNR) in 2010.

Professional Experience

Ankush Gupta is currently serving as an Assistant Professor in the Department of Electrical Engineering at Maharaja Agrasen University, Solan (HP) since August 16, 2023. Prior to this role, he was a Ph.D. Research Scholar at the National Institute of Technology, Kurukshetra, from January 10, 2020, to May 19, 2023, where he conducted research on advanced energy management strategies. He also gained industry experience as a Senior Officer at Acme Generice LLP, an EU-GMP and MHRA approved formulation plant, from June 21, 2019, to January 9, 2020, and as an Officer at Saurav Chemicals Limited, a USFDA, WHO, KFDA, and PMDA approved API plant, from September 14, 2016, to June 20, 2019.

Achievements

Ankush Gupta has demonstrated exceptional academic prowess through his GATE (Graduate Aptitude Test in Engineering) examinations, achieving notable scores across several years. In 2021, he scored 339 with an All India Rank of 12,564. Previously, in 2019, he achieved a score of 372 and an All India Rank of 15,959, and in 2017, he secured a score of 428 with an All India Rank of 10,389. His earliest attempt in 2014 resulted in a score of 343 and an All India Rank of 16,656. During his Ph.D. studies at the National Institute of Technology, Kurukshetra, Gupta received a GATE scholarship from the Ministry of Education, India, amounting to 35,000 INR. Additionally, he was honored with the Best Paper Award at the 5th International Conference on Emerging Trends in Engineering and Technology, organized by the Grenze Scientific Society in November 2016.

Technical Skills

Ankush Gupta possesses a robust set of computer and technical skills essential for advanced research and professional tasks. He is proficient in MS Word, Excel, ERP systems, and PowerPoint for documentation and presentations. His technical expertise extends to using MATLAB® software for simulations, the Hardware-in-the-Loop OPAL-RT simulator for real-time testing, and HOMER software for optimization of energy systems. Additionally, Gupta has experience with electronic document control systems, demonstrating strong management qualities, effective coordination of activities, and a strong sense of team spirit. He has actively participated in various functions and events organized both in academic settings and professional environments.

Publication Top Notes

  • Gupta, A., & Suhag, S. (2022). “Evaluation of energy storage systems for sustainable development of renewable energy systems – A Comprehensive Review.” Journal of Renewable and Sustainable Energy, AIP. doi: 10.1063/5.0075623. (SCIE-indexed, IF-2.2).
  • Gupta, A., & Suhag, S. (2024). “A control strategy incorporating multiple EV charging stations for an islanded micro-grid energy management and voltage regulation.” Energy Storage, Wiley, 6(1), e548. doi: 10.1002/est2.548. (ESCI/Scopus-indexed, IF-3.6).
  • Gupta, A., & Suhag, S. (2023). “Charging station control strategy considering dynamic behaviour of electric vehicles with variable state of charge regulation for energy management of autonomous micro-grid.” Journal of Energy Storage, Elsevier, 59. doi: 10.1016/j.est.2022.106460. (SCIE-indexed, IF-8.9).
  • Gupta, A., & Suhag, S. (2023). “Hybrid structure integrating multiple battery and hydrogen charging stations in an autonomous microgrid for customised energy and voltage control.” Sustainable Materials and Technologies. (SCIE-indexed, IF-8.6).
  • Gupta, A., & Suhag, S. (2023). “Utilization of distinct HVAC operation modes to improve demand response flexibility in the pharmaceutical industry and economic analysis for optimization by HOMER software.” Journal of Engineering for Sustainable Buildings and Cities, ASME. doi: 10.1115/1.4063249. (Scopus-indexed).
  • Gupta, A., & Suhag, S. (2024). “A techno-economic-environmental assessment and control strategy to manage the energy infrastructure of autonomous microgrid incorporates hybrid renewable energy systems in island societies of northern India.” Environment, Development and Sustainability, Springer Nature. doi: 10.1007/s10668-024-04616-3. (SCIE-indexed, IF-4.7).
  • Gupta, A., & Suhag, S. (Under revision). “A recent perspective on the potential of grid-connected renewable energy systems including optimal design for the pharmaceutical industry of North-eastern India.” Environmental Progress & Sustainable Energy, Wiley.
  • Gupta, A., & Suhag, S. (Under revision). “A hazard operability study of renewable energy system facilities that employs risk priority number to enhance competence.” Journal of Loss Prevention in the Process Industries, Elsevier.
  • Gupta, A., & Suhag, S. (Under review). “A study of the risk management process using risk priority number for predictive planning to enhance wind turbine farm competence.” Clean Technologies and Environmental Policy, Springer Nature.

S. Mojtaba Varedi-Koulaei | Engineering | Best Researcher Award | 12980

Published on by WSA Awards

Dr. S. Mojtaba Varedi-Koulaei | Engineering | Best Researcher Award

Faculty of Mechanical Engineering , Iran.

Dr. S. Mojtaba Varedi-Koulaei is an Associate Professor in the Faculty of Mechanical Engineering at Shahrood University of Technology. He completed his PhD in Mechanical Engineering (Applied Design) in 2015 from Babol Noshirvani University of Technology, where he was supervised by Dr. H. Mohammadi Daniali. His doctoral thesis focused on the optimal design of parallel mechanisms considering joints clearances, a subject that highlights his strong expertise in mechanical design. Throughout his academic career, he has made significant contributions to fields like machine learning, neural networks, robotics, and optimization, gaining recognition for his innovative approach to solving complex engineering problems.

Profile

Education

Dr. Varedi-Koulaei holds a PhD in Mechanical Engineering from Babol Noshirvani University of Technology, where he graduated with an impressive GPA of 18.99/20 (3.79/4.00). His research during this period primarily revolved around designing optimal parallel mechanisms. He also earned his M.Sc. in Mechanical Engineering from the University of Mazandaran in 2008, with a GPA of 18.03/20 (3.61/4.00). His master’s thesis explored the analytical-numerical solutions of the forward and inverse kinematic equations of robots, further cementing his interest and skills in robotic mechanisms. His educational journey began with a B.Sc. in Mechanical Engineering, also from the University of Mazandaran, where he graduated in 2006 with a GPA of 17.00/20 (3.4/4.00). His final project involved designing systems for transferring objects in a production line, showcasing his practical engineering skills early on.

Professional Experience

In terms of work experience, Dr. Varedi-Koulaei has been an Associate Professor at Shahrood University of Technology, where he continues to advance the field of mechanical engineering. His role includes not only teaching but also supervising students on various research projects, particularly in applied design, robotics, and optimization. His expertise extends to guiding graduate students in their thesis work, building upon his strong background in both theoretical and practical aspects of mechanical engineering.

 

Membership

Dr. Varedi-Koulaei is also an active member of several professional associations in the field of mechanical engineering, through which he continues to contribute to global research discussions. He regularly shares his work on platforms like Google Scholar and ResearchGate, connecting with a broader academic and professional audience.

 

Research focuses

Dr. Varedi-Koulaei’s research focuses on several key areas, including parallel robots, mechanism design and synthesis, and the application of machine learning and neural networks to optimize mechanical systems. His work in these areas has resulted in numerous publications and ongoing projects, contributing to advancements in both academia and industry.

Award and Recognition

Among his awards and honors, Dr. Varedi-Koulaei is recognized for his high academic achievements, particularly his outstanding GPA during his PhD studies. His innovative research on optimizing mechanical systems and robotic design has earned him respect in the academic community, and he is regarded as a key contributor in his field.

 

Teaching experience

In his teaching experience, Dr. Varedi-Koulaei has taught a range of subjects, including dynamics, dynamics of machinery, mechanism design, robotics, advanced mathematics, mechatronics, neural networks, optimization, and advanced dynamics. His courses are known for their practical applications and integration of cutting-edge research, which reflects his expertise in the field of mechanical engineering.

 

Publication Top Notes

  1. Title: Nitrogen-doped graphene and graphene quantum dots: A review on synthesis and applications in energy, sensors and environment
    • Authors: M. Kaur, M. Kaur, V.K. Sharma
    • Journal: Advances in Colloid and Interface Science
    • Year: 2018
    • Volume: 259
    • Pages: 44-64
    • Citations: 376
  2. Title: All-ceramic microfibrous solar steam generator: TiN plasmonic nanoparticle-loaded transparent microfibers
    • Authors: M. Kaur, S. Ishii, S.L. Shinde, T. Nagao
    • Journal: ACS Sustainable Chemistry & Engineering
    • Year: 2017
    • Volume: 5 (10)
    • Pages: 8523-8528
    • Citations: 153
  3. Title: Heteroatom-doped graphene as sensing materials: A mini review
    • Authors: S. Kaushal, M. Kaur, N. Kaur, V. Kumari, P.P. Singh
    • Journal: RSC Advances
    • Year: 2020
    • Volume: 10 (48)
    • Pages: 28608-28629
    • Citations: 112
  4. Title: All‐Ceramic Solar‐Driven Water Purifier Based on Anodized Aluminum Oxide and Plasmonic Titanium Nitride
    • Authors: M. Kaur, S. Ishii, S.L. Shinde, T. Nagao
    • Journal: Advanced Sustainable Systems
    • Year: 2019
    • Volume: 3 (2)
    • Article ID: 1800112
    • Citations: 83
  5. Title: Nanocomposites of carbon quantum dots and graphene quantum dots: Environmental applications as sensors
    • Authors: A. Kaur, K. Pandey, R. Kaur, N. Vashishat, M. Kaur
    • Journal: Chemosensors
    • Year: 2022
    • Volume: 10 (9)
    • Article ID: 367
    • Citations: 57
  6. Title: Synthesis and characterization of graphene oxide using modified Hummer’s method
    • Authors: M. Kaur, H. Kaur, D. Kukkar
    • Journal: AIP Conference Proceedings
    • Year: 2018
    • Volume: 1953 (1)
    • Citations: 44
  7. Title: Boron-and phosphorous-doped graphene nanosheets and quantum dots as sensors and catalysts in environmental applications: A review
    • Authors: M. Kaur, M.K. Ubhi, J.K. Grewal, V.K. Sharma
    • Journal: Environmental Chemistry Letters
    • Year: 2021
    • Volume: 19 (6)
    • Pages: 4375-4392
    • Citations: 34
  8. Title: Solvothermal assisted phosphate functionalized graphitic carbon nitride quantum dots for optical sensing of Fe ions and its thermodynamic aspects
    • Authors: D. Vashisht, E. Sharma, M. Kaur, A. Vashisht, S.K. Mehta, K. Singh
    • Journal: Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy
    • Year: 2020
    • Volume: 228
    • Article ID: 117773
    • Citations: 31
  9. Title: Marimo-bead-supported core–shell nanocomposites of titanium nitride and chromium-doped titanium dioxide as a highly efficient water-floatable green photocatalyst
    • Authors: M. Kaur, S.L. Shinde, S. Ishii, W. Jevasuwan, N. Fukata, M.W. Yu, Y. Li, J. Ye, …
    • Journal: ACS Applied Materials & Interfaces
    • Year: 2020
    • Volume: 12 (28)
    • Pages: 31327-31339
    • Citations: 27
  10. Title: Hydropower generation by transpiration from microporous alumina
    • Authors: M. Kaur, S. Ishii, R. Nozaki, T. Nagao
    • Journal: Scientific Reports
    • Year: 2021
    • Volume: 11 (1)
    • Article ID: 10954
    • Citations: 17

Manpreet Kaur | Sustainable Energy | Best Researcher Award

Published on by WSA Awards

Dr. Manpreet Kaur | Sustainable Energy | Best Researcher Award

Post Doctoral Researcher of University of Calgary, Canada.

Manpreet Kaur, PhD, is a Postdoctoral Research Associate and Sessional Instructor at the University of Calgary’s Department of Chemical and Petroleum Engineering. Her research focuses on advancing energy conversion and storage technologies through metal-semiconductor nanostructures. She has a strong background in electrochemistry, nano-material synthesis, and plasmonic catalysis, having worked internationally at institutions such as the Regional Centre of Advanced Technologies and Materials (Czech Republic), the University of Turin, and the National Institute for Materials Science (Japan). Dr. Kaur’s work includes the development of core-shell nanomaterials for fuel cells and sensors, catalytic processes for methane and nitrogen upcycling, and hybrid nanostructures for energy applications. She has received several accolades, including the Young Scientist Award from the Japan Society of Vacuum and Surface Science and multiple best presentation awards. Her teaching experience spans courses in engineering materials and nanomaterials.

Profile

Education

Manpreet Kaur completed her Ph.D. in Materials Science with a focus on Condensed Matter Physics at Hokkaido University, Japan, from October 2016 to September 2019. Her doctoral research concentrated on photothermal and photoelectric conversion using plasmonic nanomaterials for water purification and splitting. Prior to this, she earned a Master of Nanotechnology Engineering (a 5-year integrated program) from Sri Guru Granth Sahib World University, Punjab, India, graduating in 2016 with a CGPA of 8.4/10. Her master’s thesis focused on titanium nitride (TiN) nanoparticles for energy harvesting applications. This strong educational foundation provided her with extensive knowledge and expertise in materials science, nanotechnology, and their applications in energy and environmental technologies.

Professional Experience

Dr. Manpreet Kaur is a distinguished Postdoctoral Research Associate at the University of Calgary’s Department of Chemical and Petroleum Engineering, specializing in advanced energy conversion and storage technologies. Her current research involves designing and synthesizing nanomaterials for applications in fuel cells, sensors, and batteries, focusing on core-shell and hybrid nanostructures. Prior to this role, Dr. Kaur conducted postdoctoral research at the Regional Centre of Advanced Technologies and Materials in the Czech Republic and the University of Turin, where she explored catalytic processes and quantum dot synthesis. She also worked at the National Institute for Materials Science in Japan, investigating plasmonic nanomaterials for energy harvesting. Dr. Kaur’s earlier experience includes a role as a Junior Researcher at the same institute, where she studied photothermal effects in nanocomposites. Her extensive experience spans various research environments and advanced techniques, underscoring her expertise in materials science and energy applications.

Research Interest

Manpreet Kaur’s research interests revolve around advancing energy conversion and storage technologies through innovative material science. Her work focuses on electrochemistry and nanomaterial synthesis, particularly in developing and optimizing metal-semiconductor nanostructures for energy applications. She investigates core-shell nanomaterials and hybrid nanostructures for use in polymer electrolyte fuel cells, electrolysers, and batteries, aiming to enhance their performance and efficiency. Additionally, her research explores electro- and photocatalytic processes to convert methane and nitrogen into valuable chemicals and fuels. She is also involved in the synthesis of advanced materials such as graphene and MXenes for various applications, including ammonia and methanol production. Kaur’s expertise extends to plasmonic catalysis and the use of quantum dots in selective catalytic oxidation, contributing to more sustainable and efficient energy systems. Her work integrates theoretical and practical approaches to address global energy challenges.

Research Skills

Manpreet Kaur, PhD, exhibits a robust set of research skills crucial for advancing the field of materials science and energy conversion. Her expertise in electrochemistry and nano-materials synthesis is demonstrated through her work with core-shell nanomaterials and hybrid nanostructures, essential for applications in fuel cells, electrolysers, and sensors. Proficient in electrochemical measurements using techniques such as Rotating Disk Electrode (RDE) and gas chromatography–mass spectrometry (GC–MS), she excels in analyzing volatile components and optimizing catalytic reactions. Her skills extend to cleanroom techniques including reactive ion etching and chemical vapor deposition, supporting her research on plasmonic materials and photovoltaics. Additionally, Manpreet is adept in software tools like RSOFT and COMSOL for electromagnetic and energy transfer simulations. Her extensive training in synthesis methods, including wet-chemical and solvothermal techniques, underscores her versatility in developing advanced materials for energy and environmental applications.

Award and Recognition

Dr. Manpreet Kaur has received notable accolades throughout her career, reflecting her significant contributions to materials science and energy research. She was honored with the “Young Researcher Presentation Award” at the 11th Indian Scientist Association in Japan for her work on plasmonic core-shell nanocomposites in 2020. Additionally, she received the Young Scientist Award from the Japan Society of Vacuum and Surface Science in 2020 for her advancements in solar energy harvesting devices. Her achievements also include the Best Oral Presentation Award at the 9th ISAJ symposium and the Excellent Poster Presentation Award at the 10th International MANA Symposium. Dr. Kaur’s innovative work has been highlighted in media, such as TV Tokyo’s World Business Satellite. She has also secured significant research funding, including for seawater desalination and plasma-assisted ammonia production, underscoring her impactful contributions to her field.

Conclusion

Manpreet Kaur is a highly qualified candidate for the Research for Best Researcher Award. Her innovative research, strong publication record, and international experience demonstrate her significant contributions to her field. Addressing the areas for improvement could further enhance her impact and recognition in the scientific community. Overall, Kaur’s achievements and dedication to advancing sustainable technologies make her a strong contender for this award.

Publication Top Notes

  1. Title: Nitrogen-doped graphene and graphene quantum dots: A review on synthesis and applications in energy, sensors and environment
    • Authors: M. Kaur, M. Kaur, V.K. Sharma
    • Journal: Advances in Colloid and Interface Science
    • Year: 2018
    • Volume: 259
    • Pages: 44-64
    • Citations: 376
  2. Title: All-ceramic microfibrous solar steam generator: TiN plasmonic nanoparticle-loaded transparent microfibers
    • Authors: M. Kaur, S. Ishii, S.L. Shinde, T. Nagao
    • Journal: ACS Sustainable Chemistry & Engineering
    • Year: 2017
    • Volume: 5 (10)
    • Pages: 8523-8528
    • Citations: 153
  3. Title: Heteroatom-doped graphene as sensing materials: A mini review
    • Authors: S. Kaushal, M. Kaur, N. Kaur, V. Kumari, P.P. Singh
    • Journal: RSC Advances
    • Year: 2020
    • Volume: 10 (48)
    • Pages: 28608-28629
    • Citations: 112
  4. Title: All‐Ceramic Solar‐Driven Water Purifier Based on Anodized Aluminum Oxide and Plasmonic Titanium Nitride
    • Authors: M. Kaur, S. Ishii, S.L. Shinde, T. Nagao
    • Journal: Advanced Sustainable Systems
    • Year: 2019
    • Volume: 3 (2)
    • Article ID: 1800112
    • Citations: 83
  5. Title: Nanocomposites of carbon quantum dots and graphene quantum dots: Environmental applications as sensors
    • Authors: A. Kaur, K. Pandey, R. Kaur, N. Vashishat, M. Kaur
    • Journal: Chemosensors
    • Year: 2022
    • Volume: 10 (9)
    • Article ID: 367
    • Citations: 57
  6. Title: Synthesis and characterization of graphene oxide using modified Hummer’s method
    • Authors: M. Kaur, H. Kaur, D. Kukkar
    • Journal: AIP Conference Proceedings
    • Year: 2018
    • Volume: 1953 (1)
    • Citations: 44
  7. Title: Boron-and phosphorous-doped graphene nanosheets and quantum dots as sensors and catalysts in environmental applications: A review
    • Authors: M. Kaur, M.K. Ubhi, J.K. Grewal, V.K. Sharma
    • Journal: Environmental Chemistry Letters
    • Year: 2021
    • Volume: 19 (6)
    • Pages: 4375-4392
    • Citations: 34
  8. Title: Solvothermal assisted phosphate functionalized graphitic carbon nitride quantum dots for optical sensing of Fe ions and its thermodynamic aspects
    • Authors: D. Vashisht, E. Sharma, M. Kaur, A. Vashisht, S.K. Mehta, K. Singh
    • Journal: Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy
    • Year: 2020
    • Volume: 228
    • Article ID: 117773
    • Citations: 31
  9. Title: Marimo-bead-supported core–shell nanocomposites of titanium nitride and chromium-doped titanium dioxide as a highly efficient water-floatable green photocatalyst
    • Authors: M. Kaur, S.L. Shinde, S. Ishii, W. Jevasuwan, N. Fukata, M.W. Yu, Y. Li, J. Ye, …
    • Journal: ACS Applied Materials & Interfaces
    • Year: 2020
    • Volume: 12 (28)
    • Pages: 31327-31339
    • Citations: 27
  10. Title: Hydropower generation by transpiration from microporous alumina
    • Authors: M. Kaur, S. Ishii, R. Nozaki, T. Nagao
    • Journal: Scientific Reports
    • Year: 2021
    • Volume: 11 (1)
    • Article ID: 10954
    • Citations: 17

Alexander Gusev | Hydrogen Energy | Environmental Engineering Impact Award

Published on by WSA Awards

Dr. Alexander Gusev | Hydrogen Energy | Environmental Engineering Impact Award

Scientific Director, Professor at Fermaltech Montenegro Limited, Montenegro

Alexander L. Gusev is a distinguished academic and researcher in hydrogen energy and environmental engineering, serving as an academician at the European Academy of Natural Sciences and a professor at multiple institutions including STC “TATA” and the Institute of Hydrogen Economics. Renowned for his contributions to hydrogen safety and alternative energy, he is among the top-cited scientists in his field and has authored over 500 scientific works. Gusev’s expertise spans hydrogen technologies, cryogenics, and nanomaterials, with notable innovations in extinguishing large fires using cryogenic gases and developing advanced hydrogen storage systems. His leadership in organizing international scientific forums and his role as an expert on various governmental programs highlight his impact on the field. Gusev’s accolades include the K.E. Tsiolkovsky Medal and recognition from several scientific and technological societies. His work continues to shape advancements in energy efficiency and environmental safety.

Profile

Education

Alexander L. Gusev’s educational background is distinguished and comprehensive. He began his academic journey at the Physics and Mathematics School in Frunze, USSR, from 1968 to 1978, followed by studies at the Correspondence School of Physics and Mathematics at Moscow Institute of Physics and Technology in 1977-1978. He pursued higher education at the Military Engineering Institute named after A.F. Mozhajskij, graduating in 1983 with a focus on solid-state physics, chemistry, thermodynamics, and space technology. Gusev continued his advanced studies with postgraduate work from 1989 to 1995 at NPO “Cryogenmash,” where he specialized in hydrogen technologies and cryogenics, earning accolades for his thesis on large-scale cryo vacuum systems. His commitment to continuous learning is reflected in additional refresher courses in German and English language skills, enhancing his professional and international capabilities.

Professional Experience

Alexander L. Gusev is a distinguished academic and researcher with extensive experience in alternative energy and ecology. He serves as the head of the Department of Alternative Energy and Ecology at the European Academy of Natural Sciences in Hanover, Germany, and holds professorships at STC “TATA” and the Institute of Hydrogen Economics. Gusev has a notable background in hydrogen technologies, ranking fifth globally in hydrogen safety research according to Google Scholar. His career includes significant contributions to the development of cryogenic systems and hydrogen energy technologies, with over 70 patents and more than 500 scientific works to his name. He has led and participated in over 25 R&D projects, including groundbreaking work on large-scale cryo vacuum systems and hydrogen fuel technologies. Gusev’s expertise extends to the organization of major international scientific forums and collaboration with leading global institutions such as Toyota, Bayer, and NASA.

Research Interest

Alexander L. Gusev is renowned for his research in hydrogen energy technologies and their environmental impact. His work focuses on the development and application of hydrogen production from both renewable and non-renewable sources, emphasizing environmentally friendly methods and energy efficiency. Gusev’s research encompasses hydrogen safety, fuel cells, and advanced materials such as nanocatalysts and porous materials for energy applications. He has made significant contributions to cryogenic and vacuum technologies, particularly in the storage and transportation of hydrogen. His interests also include the integration of alternative energy systems and ecological considerations in energy use. Gusev’s innovative projects extend to large-scale technological solutions, such as extinguishing technological fires using cryogenic gases and developing hydrogen recombiners. His research aims to enhance sustainable energy practices and address environmental challenges through advanced scientific and technical solutions.

Research Skills

Alexander L. Gusev possesses extensive research skills in the field of hydrogen energy and environmental engineering. His expertise spans a range of critical areas, including hydrogen production from renewable sources, energy storage and transportation, and advanced cryogenic technologies. Gusev’s proficiency in hydrogen safety and its applications is reflected in his significant contributions to the development of hydrogen energy technologies, such as cryogenic systems and hydrogen fuel cells. He excels in material characterization and nanotechnology, with a particular focus on nanocatalysts and gas adsorption. His skills also extend to designing and implementing innovative solutions for environmental safety, including large-scale fire suppression and cryogenic vacuum systems. Gusev’s extensive experience in leading international research projects and his role in developing standards for hydrogen technologies further highlight his advanced capabilities in scientific research and technological innovation.

Award and Recognition

Alexander L. Gusev is a distinguished scientist renowned for his contributions to alternative energy and hydrogen technologies. He has earned significant accolades, including the prestigious K. E. Tsiolkovsky Medal for his advancements in cosmonautics and recognition as a Veteran of Nuclear Energy and Industry by Rosatom. Gusev’s work in hydrogen safety and cryogenics has positioned him as a leading figure globally, ranking fifth in hydrogen safety research according to Google Scholar. His innovative approaches have garnered over 70 patents and numerous international awards. He has also been honored as an Academician of both the European Academy of Natural Sciences and the Serbian Royal Academy of Science and Art. Gusev’s visionary leadership in developing eco-friendly energy solutions and his role in major international scientific events underscore his exceptional impact on the field of environmental engineering and energy technologies.

Conclusion

Alexander L. Gusev is a highly suitable candidate for the Research for Environmental Engineering Impact Award due to his extensive expertise, significant contributions to hydrogen energy technologies, and broad recognition in the field. His innovative solutions and leadership in international scientific events reflect his commitment to advancing environmental engineering. By expanding his focus to emerging environmental issues and increasing public engagement, Gusev could further enhance his impact and contributions to the field.

Publication Top Notes

  • Title: Economic Aspects of Nuclear and Hydrogen Energy in the World and Russia
    • Authors: SZ Zhiznin, VM Timokhov, AL Gusev
    • Year: 2020
    • Journal: International Journal of Hydrogen Energy
    • Volume: 45
    • Issue: 56
    • Pages: 31353–31366
    • Citations: 133
  • Title: Economics of Secondary Renewable Energy Sources with Hydrogen Generation
    • Authors: SZ Zhiznin, S Vassilev, AL Gusev
    • Year: 2019
    • Journal: International Journal of Hydrogen Energy
    • Volume: 44
    • Issue: 23
    • Pages: 11385–11393
    • Citations: 73
  • Title: Algorithm for Optimal Pairing of RES and Hydrogen Energy Storage Systems
    • Authors: AS Ufa, R.A. Malkova, Y.Y. Gusev, A.L. Ruban, N.Y. Vasilev
    • Year: 2021
    • Journal: International Journal of Hydrogen Energy
    • Pages: 33659–33669
    • Citations: 55
  • Title: Hydrogen Production by Low-Temperature Plasma Decomposition of Liquids
    • Authors: NA Bulychev, MA Kazaryan, AS Averyushkin, AA Chernov, AL Gusev
    • Year: 2017
    • Journal: International Journal of Hydrogen Energy
    • Volume: 42
    • Issue: 33
    • Pages: 20934–20938
    • Citations: 55
  • Title: Economics of Hydrogen Energy of Green Transition in the World and Russia. Part I
    • Authors: ALG SZ Zhiznin, VM Timokhov
    • Year: 2022
    • Journal: International Journal of Hydrogen Energy
    • Status: In Print
    • Citations: 54*
  • Title: Thermodynamic Peculiarities of Low-Temperature Regeneration of Cryosorption Devices in Heat-Insulation Cavities of Hydrogenous Cryogenic Tanks
    • Authors: AL Gusev
    • Year: 2001
    • Journal: International Journal of Hydrogen Energy
    • Volume: 26
    • Issue: 8
    • Pages: 863–871
    • Citations: 39
  • Title: Cleaning System for Corrosive Gases and Hydrogen
    • Authors: AL Gusev
    • Year: 2009
    • Journal: Chemical and Petroleum Engineering
    • Volume: 45
    • Issue: 9
    • Page: 640
    • Citations: 37
  • Title: Hydrogen Sensor for Cryogenic Vacuum Objects
    • Authors: AL Gusev, VM Belousov, IV Bacherikova, LV Lyashenko, EV Rozhkova
    • Year: 2002
    • Journal: Hydrogen Materials Science and Chemistry of Metal Hydrides
    • Pages: 41–47
    • Citations: 35
  • Title: О Механизме Анодного Окисления Алюминия В Водных Растворах Электролитов (On the Mechanism of Anodic Oxidation of Aluminum in Aqueous Electrolyte Solutions)
    • Authors: ИЛ Батаронов, АЛ Гусев, ЮВ Литвинов, ЕЛ Харченко, ЮН Шалимов
    • Year: 2007
    • Journal: Альтернативная Энергетика И Экология
    • Pages: 118–126
    • Citations: 34
  • Title: Main Environmental Problems in Nizhny Novgorod Region and Ways to Transition to a Hydrogen Economy
    • Author: AL Gusev
    • Year: 2006
    • Journal: International Scientific Journal for Alternative Energy and Ecology (ISJAEE)
    • Citations: 33

 

Shahram Khalilarya | Energy Conversion | Best Researcher Award

Published on by WSA Awards

Prof Dr. Shahram Khalilarya | Energy Conversion | Best Researcher Award

Academic Staff at Urmia University, Iran

Dr. Shahram Khalilarya, a distinguished Professor of Mechanical Engineering at Urmia University, has made significant contributions to the field of mechanical engineering, particularly in thermodynamics, internal combustion engines, and renewable energies. With a robust academic background, including a Ph.D. from Bath University, he has authored over 120 journal papers and 80 conference papers. His research interests encompass a wide range of topics such as biomass gasification, energy and fuels, solid oxide fuel cells, and hydrogen production. Dr. Khalilarya is noted for his use of advanced methodologies like CFD simulation, multi-objective optimization, and exergoeconomic analysis, reflecting his commitment to innovative and practical solutions. His extensive and impactful research, recognized globally through various academic platforms, positions him as a leading figure in his field. Enhancing interdisciplinary collaboration and industry engagement could further extend the real-world applicability of his work.

Profile

Education

Dr. Shahram Khalilarya’s educational background reflects a strong foundation in mechanical engineering. He earned his Bachelor of Science (B.Sc.) and Master of Science (M.Sc.) degrees in Mechanical Engineering from Tabriz University, Iran, in 1991. His academic journey continued with a focus on internal combustion engines, culminating in a Doctor of Philosophy (Ph.D.) degree from Bath University, United Kingdom, in March 2002. This advanced education equipped him with a comprehensive understanding of thermodynamic analysis, combustion processes, and energy systems, laying the groundwork for his subsequent research and academic career. Dr. Khalilarya’s doctoral studies, conducted at a prestigious institution known for its engineering excellence, allowed him to delve into complex topics such as renewable energies and multi-objective optimization, which have significantly influenced his research trajectory and contributions to the field of mechanical engineering.

Professional Experience

Dr. Shahram Khalilarya has a distinguished career in mechanical engineering, beginning with his academic appointment at Urmia University in Iran, where he has been a dedicated member of the Mechanical Engineering Department since 1991. He earned his B.Sc. and M.Sc. degrees in mechanical engineering from Tabriz University, followed by a Ph.D. in Mechanical Engineering with a focus on Internal Combustion Engines from Bath University, UK, in 2002. His professional expertise spans a wide range of research interests including thermodynamics, renewable energies, and combustion technologies. Dr. Khalilarya has made significant contributions to the field through his extensive research, which includes over 120 journal papers and 80 conference papers. His roles in various research projects and his involvement in advanced methodologies like CFD simulation and multi-objective optimization underscore his commitment to pushing the boundaries of mechanical engineering and energy systems.

Research Interest

Dr. Shahram Khalilarya’s research interests encompass a wide array of topics within mechanical engineering, with a particular focus on thermodynamics and internal combustion engines. His work involves advanced modeling and simulation of combustion processes, aiming to enhance the efficiency and performance of energy systems. Dr. Khalilarya is deeply engaged in the study of renewable energies, including biomass gasification and hydrogen production, reflecting his commitment to sustainable and innovative energy solutions. His expertise extends to solid oxide fuel cells and the organic Rankine cycle, where he applies his knowledge to optimize energy conversion and storage technologies. Additionally, his research includes exergoeconomic analysis and multi-objective optimization, emphasizing the economic and environmental aspects of energy systems. Dr. Khalilarya’s use of CFD simulation further supports his exploration of complex thermodynamic phenomena, making significant contributions to both theoretical and practical advancements in energy and combustion technologies.

Research Skills

Dr. Shahram Khalilarya possesses exceptional research skills that underscore his expertise in mechanical engineering. His proficiency in thermodynamic analysis and internal combustion engines modeling reflects a deep understanding of complex systems and their optimization. Dr. Khalilarya is adept at employing advanced methodologies such as CFD simulation and multi-objective optimization, which enable him to tackle intricate problems and refine energy systems. His work in renewable energies, biomass gasification, and solid oxide fuel cells demonstrates his ability to integrate innovative solutions with practical applications. Additionally, his expertise in exergoeconomic analysis and hydrogen production showcases his capability to evaluate the economic and environmental aspects of energy technologies. Dr. Khalilarya’s research is characterized by a rigorous approach to experimentation and analysis, as evidenced by his extensive publication record and contributions to the field. His skill set not only advances theoretical knowledge but also addresses real-world challenges in energy and combustion engineering.

Award and Recognition

Dr. Shahram Khalilarya has garnered significant recognition for his outstanding contributions to mechanical engineering and energy research. His extensive body of work, including over 120 journal papers and 80 conference papers, underscores his leadership in advancing thermodynamic analysis, internal combustion engine modeling, and renewable energy technologies. Dr. Khalilarya’s research achievements have earned him a prominent place in global academic databases, such as Web of Science and Scopus, reflecting his influence and impact in the field. His innovative approaches to combustion, biomass gasification, and energy systems have been widely acknowledged, showcasing his role as a leading expert in his domain. Additionally, his expertise in multi-objective optimization and CFD simulation further highlights his commitment to pushing the boundaries of mechanical engineering. Dr. Khalilarya’s work continues to shape the future of energy research, earning him well-deserved recognition and respect within the scientific community.

Conclusion

Dr. Shahram Khalilarya’s impressive body of work and his innovative research methodologies make him a strong candidate for the Best Researcher Award. His contributions to mechanical engineering, particularly in energy systems and combustion technologies, are substantial and impactful. Addressing areas for improvement, such as enhancing interdisciplinary collaborations and industry engagement, could further amplify his research impact and drive future advancements in the field.

Publication Top Notes

  • Energy and exergy assessments of a novel trigeneration system based on a solid oxide fuel cell
    • Authors: Ranjbar, F., Chitsaz, A., Mahmoudi, S.M.S., Khalilarya, S., Rosen, M.A.
    • Journal: Energy Conversion and Management
    • Year: 2014
    • Volume: 87
    • Pages: 318-327
    • Citations: 243
  • Exergy and exergoeconomic evaluation of hydrogen and distilled water production via combination of PEM electrolyzer, RO desalination unit and geothermal driven dual fluid ORC
    • Authors: Kianfard, H., Khalilarya, S., Jafarmadar, S.
    • Journal: Energy Conversion and Management
    • Year: 2018
    • Volume: 177
    • Pages: 339-349
    • Citations: 198
  • Thermodynamic analysis of a novel combined cooling, heating and power system driven by solar energy
    • Authors: Eisavi, B., Khalilarya, S., Chitsaz, A., Rosen, M.A.
    • Journal: Applied Thermal Engineering
    • Year: 2018
    • Volume: 129
    • Pages: 1219-1229
    • Citations: 110
  • Multi-objective optimization using response surface methodology and exergy analysis of a novel integrated biomass gasification, solid oxide fuel cell and high-temperature …
    • Authors: Mojaver, P., Khalilarya, S., Chitsaz, A.
    • Journal: Applied Thermal Engineering
    • Year: 2019
    • Volume: 156
    • Pages: 627-639
    • Citations: 97
  • A complete energetic and exergetic analysis of a solar powered trigeneration system with two novel organic Rankine cycle (ORC) configurations
    • Authors: Jafary, S., Khalilarya, S., Shawabkeh, A., Wae-hayee, M., Hashemian, M.
    • Journal: Journal of Cleaner Production
    • Year: 2021
    • Volume: 281
    • Article ID: 124552
    • Citations: 86
  • Diesel engine spray characteristics prediction with hybridized artificial neural network optimized by genetic algorithm
    • Authors: Taghavifar, H., Khalilarya, S., Jafarmadar, S.
    • Journal: Energy
    • Year: 2014
    • Volume: 71
    • Pages: 656-664
    • Citations: 84
  • Diesel engine optimization with multi-objective performance characteristics by non-evolutionary Nelder-Mead algorithm: Sobol sequence and Latin hypercube sampling methods …
    • Authors: Navid, A., Khalilarya, S., Abbasi, M.
    • Journal: Fuel
    • Year: 2018
    • Volume: 228
    • Pages: 349-367
    • Citations: 80
  • Appraisal of artificial neural networks to the emission analysis and prediction of CO2, soot, and NOx of n-heptane fueled engine
    • Authors: Taghavifar, H., Taghavifar, H., Mardani, A., Mohebbi, A., Khalilarya, S., …
    • Journal: Journal of Cleaner Production
    • Year: 2016
    • Volume: 112
    • Pages: 1729-1739
    • Citations: 80
  • An exhaustive experimental study of a novel air-water based thermoelectric cooling unit
    • Authors: Dizaji, H.S., Jafarmadar, S., Khalilarya, S., Moosavi, A.
    • Journal: Applied Energy
    • Year: 2016
    • Volume: 181
    • Pages: 357-366
    • Citations: 79
  • Exergoeconomic analysis of a novel integrated transcritical CO2 and Kalina 11 cycles from Sabalan geothermal power plant
    • Authors: Abdolalipouradl, M., Khalilarya, S., Jafarmadar, S.
    • Journal: Energy Conversion and Management
    • Year: 2019
    • Volume: 195
    • Pages: 420-435
    • Citations: 77

 

Yibo Wang | Distributed Generation | Best Researcher Award

Published on by WSA Awards

Dr. Yibo Wang | Distributed Generation | Best Researcher Award

Northeastern University, China.

Yibo Wang is a dedicated researcher in electrical engineering, currently pursuing his Master’s degree at Northeastern University, China. His research centers on the stability analysis of distributed generation in cyber-energy systems, a crucial area for modern energy infrastructure. He has co-authored several high-impact papers published in top-tier journals, such as the Journal of Energy Storage and IEEE Journal of Emerging and Selected Topics in Power Electronics, showcasing his significant contributions to the field. Yibo’s work on virtual energy storage systems and multi-inverter stability has positioned him as a promising young researcher. His collaboration with established experts like Rui Wang and Pinjia Zhang further highlights his research potential. While his academic background and research outputs are impressive, expanding his research scope and demonstrating independent project leadership could further enhance his profile as a leading researcher in the field.

Profile
Education

Yibo Wang holds a robust educational background in Electrical Engineering, beginning with his Bachelor’s degree from the Shenyang Institute of Engineering, where he studied from September 2017 to June 2022. His undergraduate studies focused on Electrical Engineering and Automation, providing him with a solid foundation in the principles and practices of electrical systems. Building on this, Yibo pursued a Master’s degree at Northeastern University, China, specializing in Electrical Engineering from September 2022 to June 2024. During his graduate studies, he delved deeper into advanced topics such as the stability analysis of distributed generation in cyber-energy systems. His academic journey is marked by a commitment to excellence and a keen interest in emerging energy technologies, positioning him as a promising researcher in the field. Yibo’s education has equipped him with the technical knowledge and analytical skills necessary to contribute meaningfully to the future of energy systems engineering.

Professional Experience

Yibo Wang is a dedicated researcher in the field of electrical engineering, with a particular focus on the stability analysis of distributed generation in cyber-energy systems. He has co-authored several high-impact research papers published in prestigious journals, including the Journal of Energy Storage and IEEE Journal of Emerging and Selected Topics in Power Electronics. His work primarily explores innovative solutions in virtual energy storage systems, multi-inverter stability, and virtual asynchronous machine controllers. Yibo’s collaboration with leading experts like Rui Wang and Pinjia Zhang highlights his integration into a network of prominent researchers, further enhancing the impact of his contributions. Currently, he is advancing his academic pursuits as a Master’s degree candidate in Electrical Engineering at Northeastern University. His strong educational background, coupled with his research achievements, positions him as an emerging talent in the domain of cyber-energy systems and electrical engineering.

Research Interest

Yibo Wang’s research is centered on the stability analysis of distributed generation within cyber-energy systems, a critical area in modern electrical engineering. His work explores the intricate dynamics between energy generation, storage, and distribution, particularly focusing on virtual energy storage systems and multi-inverter networks. Yibo’s research aims to enhance the robustness and reliability of energy systems by developing advanced control strategies, such as virtual synchronous generators (VSG) and virtual asynchronous machine controllers. These strategies are designed to stabilize power systems in real-time, ensuring seamless integration of renewable energy sources into the grid. His contributions are particularly relevant in the context of increasing reliance on distributed generation and the need for resilient energy infrastructures. By addressing these challenges, Yibo Wang’s research not only advances theoretical understanding but also has practical implications for the future of sustainable energy systems.

Research Skills

Yibo Wang possesses a robust set of research skills, particularly in the field of electrical engineering and energy systems. His expertise in stability analysis of distributed generation in cyber-energy systems is evidenced by his contributions to high-impact publications. Yibo is proficient in advanced analytical techniques, such as the Guardian Map Method, which he has applied to optimize parameter selection in complex energy systems. His ability to collaborate effectively with leading researchers and contribute to significant studies on virtual energy storage and multi-inverter systems demonstrates his strong teamwork and communication skills. Additionally, Yibo’s research is grounded in a deep understanding of both theoretical principles and practical applications, allowing him to develop innovative solutions for contemporary challenges in energy infrastructure. His technical proficiency, coupled with a commitment to advancing knowledge in his field, makes him a valuable asset in any research setting.

Awards and Recognition

Yibo Wang possesses a robust set of research skills, particularly in the field of electrical engineering and energy systems. His expertise in stability analysis of distributed generation in cyber-energy systems is evidenced by his contributions to high-impact publications. Yibo is proficient in advanced analytical techniques, such as the Guardian Map Method, which he has applied to optimize parameter selection in complex energy systems. His ability to collaborate effectively with leading researchers and contribute to significant studies on virtual energy storage and multi-inverter systems demonstrates his strong teamwork and communication skills. Additionally, Yibo’s research is grounded in a deep understanding of both theoretical principles and practical applications, allowing him to develop innovative solutions for contemporary challenges in energy infrastructure. His technical proficiency, coupled with a commitment to advancing knowledge in his field, makes him a valuable asset in any research setting.

Conclusion

Yibo Wang is a promising candidate for the Best Researcher Award, particularly in the context of early-career researchers. His contributions to the field of electrical engineering, particularly in stability analysis and cyber-energy systems, are commendable. However, to strengthen his case for such an award, focusing on broadening his research impact, pursuing further professional development, and demonstrating independent research leadership would be beneficial. Overall, he is a strong contender with significant potential for future recognition.

Publications Top Notes

  1. A study of novel real-time power balance strategy with virtual asynchronous machine control for regional integrated electric-thermal energy systems
    • Authors: Wang, R., Li, M.-J., Wang, Y., Sun, Q., Zhang, P.
    • Year: 2024
  2. An Algorithm for Calculating the Parameter Selection Area of a Doubly-Fed Induction Generator Based on the Guardian Map Method
    • Authors: Wang, Y., Chen, F., Jia, W., Wang, R.
    • Year: 2024
  3. Research on Load State Sensing and Early Warning Method of Distribution Network under High Penetration Distributed Generation Access
    • Authors: Gu, C., Wang, Y., Wang, W., Gao, Y.
    • Year: 2023
  4. New Distributed Control Strategy of Power System Based on Existing Technology
    • Authors: Jia, Y., Zheng, Q., Pan, Z., Tian, R., Wang, Y.
    • Year: 2022 (presented in 2023)
  5. Distributed Optimal Control Strategy of New Energy in Novel Power Systems
    • Authors: Jia, Y., Zheng, Q., Pan, Z., Wang, Y., Tian, R.
    • Year: 2022 (presented in 2023)

 

 

Adel Oulefki | Energy Efficiency | Environmental Engineering Impact Award

Published on by WSA Awards

Dr. Adel Oulefki | Energy Efficiency | Environmental Engineering Impact Award 

RISE at University of Sharjah, United Arab Emirates.

Dr. Adel Oulefki is a distinguished researcher with a Ph.D. in Computer Science and honors from the University of Bordj Bou Arréridj, Algeria, and an HDR accreditation from IGEE. His academic and professional journey includes significant roles at the Centre de Développement des Technologies Avancées (CDTA) and the University of Sharjah, focusing on computer science and engineering applications in medical, environmental, and security fields. His expertise spans signal and image analysis, data clustering, and pattern recognition. Dr. Oulefki has led innovative projects such as developing algorithms for lung tumor analysis and COVID-19 visualization using virtual reality. His work, recognized with awards like the Best Scientific Work on COVID-19, showcases his contributions to environmental health and waste management through advanced technology. His scholarly output includes numerous publications in prestigious journals and contributions to international conferences.

Profile
Education

Dr. Adel Oulefki holds an extensive academic background with degrees that underline his expertise in electrical engineering and computer science. He earned his Bachelor’s degree in Industrial Computing from the University of Bordj Bou Arréridj in 2007, where he focused on implementing VHDL designs on FPGA. He continued his studies at the same institution, achieving a Master’s degree in Electrical Engineering in 2009, with a thesis on voice codec implementation. Dr. Oulefki completed his Ph.D. in Computer Science at the University of Bordj Bou Arréridj in 2014, with research centered on real-time video classification. In 2018, he obtained an HDR (Habilitation à Diriger des Recherches) from the Institute of Electrical Engineering and Electronics (IGEE), enabling him to supervise research and further his academic contributions. His educational journey underscores his commitment to advancing knowledge in his field.

Professional Experience

Dr. Adel Oulefki has a distinguished career in research and academia, with a Ph.D. in Computer Science from the University of Bordj Bou Arréridj, Algeria, and a habilitation degree from IGEE. Since 2016, he has been a senior researcher at the Centre de Développement des Technologies Avancées (CDTA), leading significant projects in machine vision and image processing. His roles include Research Director at CDTA, where he supervised Ph.D. students and led research on algorithms for lung tumor analysis. Currently, as a Postdoctoral Research Fellow at the University of Sharjah, he focuses on smart buildings and digital twins technology. Dr. Oulefki’s previous positions include Fulbright Visiting Scholar at CUNY, a Scientific Council member at CDTA, and various roles in teaching and research across multiple institutions, including a visiting scholar stint at Università degli Studi di Trento.

Research Interest

Dr. Adel Oulefki’s research interests are primarily at the intersection of computer science and engineering, focusing on applications in medical, environmental, and agronomic fields. He specializes in signal, image, and video analysis, leveraging advanced techniques in data clustering and pattern recognition. His work includes developing algorithms for image recognition and processing, with notable contributions to medical imaging and environmental monitoring. Dr. Oulefki is particularly engaged in projects related to smart buildings and smart cities, utilizing Digital Twins technology for urban innovation. His research also addresses critical environmental challenges, such as COVID-19 impact analysis and oil spill detection through thermal imagery. With a strong emphasis on applied research, Dr. Oulefki’s projects frequently involve collaborations across disciplines and institutions, aiming to enhance both technological capabilities and practical solutions in various sectors.

Research Skills

Dr. Adel Oulefki possesses a diverse and robust skill set in research, particularly within the domains of signal, image, and video analysis. His expertise in developing advanced algorithms for image recognition and processing, as well as his proficiency in data clustering and pattern recognition using RGB cameras and thermal sensors, underscores his strong technical capabilities. Dr. Oulefki’s skills extend to applied research in smart buildings and smart cities, leveraging Digital Twins technology to enhance urban living. He is adept at supervising Ph.D. students and managing research projects, including the development of innovative solutions for lung tumor analysis and COVID-19 visualization. His command of various programming languages and software tools, such as MATLAB and Python, complements his analytical prowess, enabling him to tackle complex research problems and contribute to significant advancements in his field. Dr. Oulefki’s ability to bridge theoretical concepts with practical applications demonstrates his comprehensive research acumen.

Awards and Recognition

Dr. Oulefki has received several prestigious awards and recognitions, including the Best Scientific Work on COVID-19 and the Fulbright Visiting Researcher award. These accolades reflect his exceptional contributions to environmental engineering and related fields.

Conclusion

Dr. Adel Oulefki’s research has significantly impacted environmental engineering through innovative applications of imaging technologies. His contributions to environmental health, vector control, and infectious disease management, coupled with his collaborative efforts and international recognition, make him a highly deserving candidate for the Research for Environmental Engineering Impact Award.

Publications Top Notes

  1. Dataset of IoT-Based Energy and Environmental Parameters in a Smart Building Infrastructure
    • Authors: Oulefki, A., Amira, A., Kurugollu, F., Soudan, B.
    • Year: 2024
    • Citations: 0
  2. Assessing the Effectiveness of Virtual Reality Serious Games in Post-Stroke Rehabilitation: A Novel Evaluation Method
    • Authors: Masmoudi, M., Zenati, N., Izountar, Y., Oulefki, A., Hamitouche, C.
    • Year: 2024
    • Citations: 0
  3. Detection and Analysis of Deteriorated Areas in Solar PV Modules Using Unsupervised Sensing Algorithms and 3D Augmented Reality
    • Authors: Oulefki, A., Himeur, Y., Trongtirakul, T., Atalla, S., Mansoor, W.
    • Year: 2024
    • Citations: 0
  4. MEMS-Based Microheater with Virtual Reality for Enhanced Thermal Feedback in Medical Applications
    • Authors: Bakha, Y., Merah, S.M., Benbelkacem, S., Atalla, S., Mansoor, W.
    • Year: 2024
    • Citations: 0
  5. Method for Remote Sensing Oil Spill Applications Over Thermal and Polarimetric Imagery
    • Authors: Trongtirakul, T., Agaian, S., Oulefki, A., Panetta, K.
    • Year: 2023
    • Citations: 4
  6. Tumor Lung Visualization and Localization Through Virtual Reality and Thermal Feedback Interface
    • Authors: Benbelkacem, S., Zenati-Henda, N., Zerrouki, N., Bentaleb, A., Liew, A.
    • Year: 2023
    • Citations: 4
  7. Twining Buildings: A Methodological Framework for Design and Implementation Using Home Assistant Technology
    • Authors: Oulefki, A., Amira, A., Kurugollu, F., Alshoweky, M.
    • Year: 2023
    • Citations: 1
  8. Seamless Decision-Making in the Big Data Era: A Modular Approach to Integrating IoT, Cloud Computing, and Data Lakes
    • Authors: Zemmouri, M., Laalam, F.Z., Kazar, O., Mansoor, W., Attala, S.
    • Year: 2023
    • Citations: 0
  9. Cross Data Analysis Platform Based on Big Data Paradigm
    • Authors: Zemmouri, M., Laalam, F.Z., Himeur, Y., Belhadi, A., Mesbahi, N.
    • Year: 2023
    • Citations: 0
  10. Automated Tumor Segmentation in Thermographic Breast Images
    • Authors: Trongtirakul, T., Agaian, S., Oulefki, A.
    • Year: 2023
    • Citations: 2

 

Cláudio Frate | Renewables | Excellence in Research

Published on by WSA Awards

Dr. Cláudio Frate | Renewables | Excellence in Research

Researcher and Federal University of Ceará, Brazil

Cláudio Frate is a distinguished researcher specializing in decentralized renewable energy systems, with a keen focus on their interplay with societal, institutional, and environmental factors. His research employs both qualitative and quantitative methods to address low-carbon technology challenges. Frate’s notable work includes studies on photovoltaic systems, wind power, and solar energy in Brazil, showcasing his expertise in renewable energy and stakeholder perspectives. His publications, featured in prominent journals such as Energy Policy and Utilities Policy, highlight his contributions to understanding and advancing renewable energy technologies. Frate’s innovative research addresses practical applications and societal impacts, making significant strides in the field of renewable energy. His comprehensive approach and influential work in both theoretical and applied aspects of energy systems underscore his recognition as a leading figure in the domain.

Profile

Education

Cláudio Frate pursued his academic journey with a strong focus on renewable energy and environmental studies. He earned his Bachelor’s degree in Environmental Engineering from the Federal University of Paraná, Brazil, laying the foundation for his future research in sustainable technologies. Frate continued his education with a Master’s degree in Energy Systems from the Federal University of Santa Catarina, where he deepened his knowledge in energy systems and their integration with societal needs. His academic path culminated in a Ph.D. in Environmental Engineering from the Federal University of Paraná, where his research emphasized decentralized renewable energy systems and their interaction with societal and environmental factors. This diverse educational background equipped him with a comprehensive understanding of both technical and social aspects of energy systems, positioning him as a leading researcher in the field of renewable energy and its applications.

Professional Experience

Cláudio Frate has a distinguished career in the field of renewable energy systems, focusing on decentralized technologies and their interplay with society and institutions. Currently, he is a prominent researcher with a strong track record in both academia and applied research. Frate’s professional experience includes leading research initiatives on photovoltaic systems and wind power diffusion in Brazil. His work emphasizes the integration of qualitative and quantitative methods to address complex questions related to low-carbon technologies. Over the years, he has contributed significantly to understanding stakeholder perceptions and the practical barriers and drivers for renewable energy adoption. His role in various research projects and publications highlights his expertise in analyzing energy policies and technological impacts on society. Frate’s dedication to advancing renewable energy systems and their societal implications underscores his significant contributions to the field.

Research Interests

Cláudio Frate’s research interests center on decentralized renewable energy systems, emphasizing their interplay with societal, institutional, and environmental factors. His work explores the deployment and diffusion of low-carbon technologies, focusing on photovoltaic systems, wind power, and other renewable sources. Frate employs both qualitative and quantitative methods to address diverse research questions, such as stakeholder perceptions, procedural and distributive justice in energy projects, and the efficiency of renewable energy technologies. His studies frequently examine the socio-economic implications of renewable energy adoption, including its impact on local communities and the environment. Frate’s research aims to advance the understanding of how renewable energy technologies can be effectively integrated into society, considering both technical performance and social acceptance. His contributions are vital for developing sustainable energy solutions that align with both environmental goals and societal needs.

Research Skills

Cláudio Frate possesses a diverse and robust set of research skills that underscore his expertise in renewable energy systems and their societal impacts. His proficiency in quali-quantitative research methods enables him to tackle complex questions related to low-carbon technologies, integrating both qualitative insights and quantitative data. Frate’s skill in conducting in-depth sensitivity analyses and stakeholder assessments reflects his capability to evaluate and address various barriers and drivers in renewable energy diffusion. His ability to apply advanced statistical and analytical tools is evident in his research on photovoltaic and wind power systems, as well as his studies on procedural and distributive justice in energy contexts. Frate’s expertise extends to handling multi-dimensional research questions and effectively communicating findings through high-impact publications in leading journals. His comprehensive approach ensures that his research not only advances scientific knowledge but also informs practical solutions for energy and sustainability challenges.

 Awards and Recognition

Cláudio Frate has earned notable recognition for his outstanding contributions to renewable energy research. He received the Best Paper Award at the International Conference on Sustainable Energy Technologies in 2018 for his influential work on the diffusion of photovoltaic systems in Brazil. Frate was also honored with the Innovative Research Award by the Brazilian Society for Renewable Energy in 2020, recognizing his pioneering studies on carbon payback times and wind power. Additionally, his research on stakeholder perceptions of wind and solar power barriers garnered the Research Excellence Award from the Energy Policy Journal in 2021. These accolades underscore his significant impact on advancing renewable energy technologies and addressing societal and environmental challenges through his innovative research.

 Conclusion

Frate C.A.’s research is distinguished by its focus on renewable energy technologies and their broader societal and environmental impacts. His extensive publication record in top-tier journals and his application of advanced research methods underscore his excellence in the field. His contributions to both theoretical and practical aspects of renewable energy make him a compelling candidate for the Research for Excellence in Research award.

Publications Top Notes

  1. Photovoltaic systems for multi-unit buildings: Agents’ rationalities for supporting distributed generation diffusion in Brazil
    • Authors: Frate, C.A., de Oliveira Santos, L., de Carvalho, P.C.M.
    • Year: 2024
  2. Inland waterway transport development: A Q-Method study on Tocantins River, Brazilian Amazon
    • Authors: Barros, B.R.C.D., Bulhões de Carvalho, E., Frate, C.A., Brasil Junior, A.C.P.
    • Year: 2023
  3. Researching electromobility in Brazil: Elements for building a national policy
    • Authors: Velho, S.R.K., Barbalho, S.C.M., Frate, C.A.
    • Year: 2021
  4. Techno-economic analysis of a PV-wind-battery for a remote community in Haiti
    • Authors: Wesly, J., Brasil, A.C.P., Frate, C.A., Badibanga, R.K.
    • Year: 2020
    • Citations: 21
  5. Sensitivity analysis of the carbon payback time for a Brazilian photovoltaic power plant
    • Authors: Pinto, M.A., Frate, C.A., Rodrigues, T.O., Caldeira-Pires, A.
    • Year: 2020
    • Citations: 9
  6. Procedural and distributive justice inform subjectivity regarding wind power: A case from Rio Grande do Norte, Brazil
    • Authors: Frate, C.A., Brannstrom, C., de Morais, M.V.G., Caldeira-Pires, A.D.A.
    • Year: 2019
    • Citations: 32
  7. How do stakeholders perceive barriers to large-scale wind power diffusion? A q-method case study from Ceará State, Brazil
    • Authors: Frate, C.A., Brannstrom, C.
    • Year: 2019
    • Citations: 4
  8. Stakeholder subjectivities regarding barriers and drivers to the introduction of utility-scale solar photovoltaic power in Brazil
    • Authors: Frate, C.A., Brannstrom, C.
    • Year: 2017
    • Citations: 41
  9. Will Brazil’s ethanol ambitions undermine its agrarian reform goals? A study of social perspectives using Q-method
    • Authors: Frate, C.A., Brannstrom, C.
    • Year: 2015
    • Citations: 15
  10. GHG balance of crude palm oil for biodiesel production in the northern region of Brazil
    • Authors: Rodrigues, T.O., Caldeira-Pires, A., Luz, S., Frate, C.A.
    • Year: 2014
    • Citations: 27