Ricardo Vasquez Padilla | Renewable energy | Best Research Article Award

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Dr Ricardo Vasquez Padilla | Renewable energy | Best Research Article Award

CAE Specialist , Fortescue Zero, Australia 

Dr. Ricardo Vásquez Padilla is a Senior Associate Engineer in Power & Energy at SMEC, with over two decades of expertise in energy systems, renewable technologies, and mechanical engineering. His extensive career includes roles as a Renewable Energy Analyst at Fortescue Future Industries and as an Associate Professor at Southern Cross University. Dr. Vásquez has contributed to pioneering research in solar energy, green hydrogen, and energy recovery systems. He has successfully led several R&D projects, developed advanced simulation tools, and collaborated on large-scale industry research. Known for his leadership in multidisciplinary teams, he mentors the next generation of engineers and remains an active researcher, consistently contributing to energy efficiency and renewable technologies.

Profile

Google Scholar

Strengths for the Award

  1. Extensive Research Experience: Dr. Ricardo Vasquez Padilla has a robust academic and professional background in energy systems, particularly in renewable energy technologies. He has contributed to a variety of highly impactful research projects across several areas such as solar power, green hydrogen systems, and energy recovery from low-grade heat sources. His research in the development of technologies like organic Rankine cycles, solar thermal systems, and supercritical CO2 cycles is notable for its depth and relevance to current energy challenges.
  2. Significant Academic Contributions: Dr. Vasquez Padilla’s body of work includes numerous published articles in prestigious journals like Renewable Energy, Applied Energy, and Energy Conversion and Management. His research has been widely cited (as seen by his 415 citations for heat transfer analysis of parabolic trough solar receivers). This is an indication of the lasting impact his work has had on advancing the understanding of energy systems, particularly in solar thermal energy and energy optimization technologies.
  3. Leadership in R&D: His leadership in research, particularly as Principal Investigator for R&D projects on green hydrogen systems, energy recovery technologies, and desalination, demonstrates a high level of responsibility and initiative. His capacity to manage large-scale research funding, such as the $1.1M AUD CARE CRC project, illustrates his organizational and strategic skills in driving impactful research.
  4. Cross-Disciplinary Expertise: Dr. Vasquez Padilla has seamlessly integrated theoretical research with practical, industry-driven solutions. His work spans across the academic, engineering, and consultancy sectors, allowing him to bring cutting-edge research findings to real-world applications. This combination of skills is vital for advancing both technological innovation and sustainable practices in the energy sector.
  5. Innovative Tools and Techniques: His development of in-house tools for optimizing renewable energy sources and conducting statistical analysis in Python highlights his technical expertise and commitment to innovation. These tools not only contribute to ongoing projects but also advance the field of renewable energy modeling and simulation.
  6. Educational Leadership: Dr. Vasquez Padilla’s role in academia, particularly as a Senior Lecturer and Associate Professor, adds another layer of influence to his profile. His ability to design and implement industry-relevant curriculum, supervise research, and collaborate with other experts and universities globally speaks to his strong academic leadership. He has contributed to the development of accredited mechanical engineering programs and research collaborations with leading universities.
  7. Recognition and Awards: His recognition by entities such as the Colombian National Science Foundation, along with awards like the Best Student Paper Award from ASME, underline the quality and significance of his research contributions.

Areas for Improvement

  1. Broader Public Engagement: While Dr. Vasquez Padilla’s research has had significant academic and industrial impact, engaging with a broader audience, including policymakers and the general public, could amplify his influence. Disseminating findings through popular science platforms, public talks, and collaborations with global organizations could help promote his innovations on a larger scale.
  2. Interdisciplinary Collaboration with Non-Engineering Fields: As energy transition strategies increasingly involve interdisciplinary approaches, further collaboration with social scientists, economists, and policy experts could enhance the societal and economic relevance of his work. For example, integrating social acceptability and economic feasibility assessments into energy projects could provide a more holistic view of energy solutions.
  3. Scaling R&D Projects: While Dr. Vasquez Padilla has been successful in securing and leading large research projects, expanding his influence by attracting even more cross-industry collaboration (e.g., with governmental agencies, non-profits, and startups) could help accelerate the implementation of his innovations. Additionally, scaling up pilot projects to large-scale commercial implementations could further substantiate his work.

Education

Dr. Vásquez holds a Ph.D. in Engineering Science from the University of South Florida, USA (2011). His academic foundation includes a Master’s in Mechanical Engineering from Universidad del Norte, Colombia (2004) and a Bachelor’s in Mechanical Engineering from the same institution (2000). He further honed his skills with certifications in Data Analysis (Datacamp, 2022) and Plexos (Exemplar, 2023). His academic journey blends technical mastery with industry-driven research, positioning him as a thought leader in energy systems and optimization techniques. His studies have influenced both theoretical approaches and practical applications in mechanical and renewable energy engineering.

Awards and Honors

Dr. Vásquez’s excellence in research and engineering has earned him multiple accolades. He received the Best Student Paper Award from the Advanced Energy Systems Division of ASME in 2014. He was also honored with Best Dissertation and Summa cum Laude recognition for his Master’s in Mechanical Engineering from Universidad del Norte (2004). Additionally, he was awarded the Young Researcher title by the Colombian National Science Foundation (2001-2002) and the Silver Medal for the highest GPA in the Mechanical Engineering Department (2001). These awards reflect his outstanding contributions to energy research and academic achievement.

Research Focus

Dr. Vásquez’s research focuses on renewable energy, energy efficiency, and sustainable technologies, with a strong emphasis on solar thermal power and green hydrogen systems. He is particularly interested in optimizing the integration of renewable energy sources in industrial settings, such as mining and manufacturing. His work on Concentrated Solar Thermal (CSP) systems and energy storage solutions is recognized globally. Additionally, Dr. Vásquez contributes to the development of organic Rankine cycles for low-temperature heat recovery, improving the efficiency of energy systems across sectors. His research also includes solar-to-hydrogen energy systems and desalination technologies.

Publications

  1. Heat transfer analysis of parabolic trough solar receiver 🌞
  2. Exergetic analysis of supercritical CO2 Brayton cycles integrated with solar central receivers ☀️
  3. Increasing the efficiency of hydrogen production from solar powered water electrolysis 💧
  4. Analysis of power and cooling cogeneration using ammonia-water mixture 🔋
  5. Optimizing orientation of piezoelectric cantilever beam for harvesting energy from human walking 🦶
  6. Exergy analysis of parabolic trough solar receiver 🔥
  7. The potential of harnessing solar radiation in Iran: Generating solar maps and viability study of PV power plants 🌍
  8. Improving efficiency of piezoelectric based energy harvesting from human motions using double pendulum system 🔋
  9. Simplified Methodology for Designing Parabolic Trough Solar Power Plants 🏭
  10. Measuring reliability of hybrid photovoltaic-wind energy systems: A new indicator 🌬️
  11. Exergy analysis of a combined power and cooling cycle 🌡️
  12. High-temperature, point-focus, pressurised gas-phase solar receivers: A comprehensive review 🔭
  13. Analysis of a combined power and cooling cycle for low-grade heat sources 🔥
  14. Thermodynamic feasibility of alternative supercritical CO2 Brayton cycles integrated with an ejector 🌬️
  15. Monitoring of concrete curing using the electromechanical impedance technique: Review and path forward 🏗️
  16. Multi-objective optimization of a combined power and cooling cycle for low-grade and midgrade heat sources 🔄
  17. Simulation and optimization of a parabolic trough solar power plant in the city of Barranquilla by using system advisor model (SAM) 🏙️
  18. Modelling autonomous hybrid photovoltaic-wind energy systems under a new reliability approach 🌅
  19. Energy, exergy and economic evaluation comparison of small-scale single and dual pressure organic Rankine cycles integrated with low-grade heat sources ⚙️

Conclusion

Dr. Ricardo Vasquez Padilla is an exceptional candidate for the Best Researcher Award due to his outstanding contributions to energy systems research, his leadership in driving R&D projects, and his ability to bridge the gap between academia and industry. His work in solar thermal energy, renewable energy systems, and green hydrogen positions him as a key innovator in the global transition to sustainable energy solutions.With a proven track record in securing and executing high-profile research projects and producing impactful scholarly work, Dr. Vasquez Padilla’s research is not only academically influential but also practically valuable in shaping the future of renewable energy. His recognition through awards, citations, and leadership roles further affirms his qualifications for this prestigious award.To further elevate his career and impact, fostering broader public engagement and deepening interdisciplinary collaborations could be considered for future development. Nevertheless, Dr. Vasquez Padilla is highly deserving of this recognition for his consistent excellence in research and his unwavering commitment to advancing the field of energy science and technology.

Abdel RahmanElbakheit | Renewable Energy | Best Researcher Award

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Assoc Prof Dr. Abdel RahmanElbakheit | Renewable Energy | Best Researcher Award

Assoc Prof, King Saud University, Saudi Arabia

Dr. Abdelrahman Elbakheit is an Associate Professor of Architecture and Sustainable Design at King Saud University in Riyadh, Saudi Arabia. With a passion for integrating renewable energy into architectural design, he has made significant contributions to sustainable architecture through his teaching and research. 🌱🏛️

Publication Profile

Google Scholar

Education

Dr. Elbakheit earned his Ph.D. in Architecture & Built Environment from Nottingham University, UK, where he focused on the active integration of photovoltaic and wind turbines for sustainable design. He holds an MSc with distinction in Renewable Energy and Architecture from Nottingham University and a BSc with honours in Architectural Engineering from the University of Khartoum, Sudan. 🎓

Experience

With over a decade of experience, Dr. Elbakheit has served as an Associate Professor at King Saud University since 2019, where he has been involved in award-winning sustainable architectural designs and research. He was instrumental in issuing the KSA Green Building Code’s first edition and previously worked as a Consultant Architect in Sudan and as an Architectural Detailer in the UK. 🏗️✨

Research Focus

Dr. Elbakheit’s research interests lie in sustainable architectural design, specifically the integration of renewable energy technologies such as photovoltaic systems and wind turbines in buildings. His work emphasizes enhancing energy efficiency and sustainability in architectural practices. 🌍💡

Awards and Honours

He has received recognition for his innovative contributions to sustainable architecture, including awards for his architectural designs. His involvement in developing the KSA Green Building Code also highlights his commitment to advancing sustainable practices in the region. 🏆🌟

Publication Top Notes

Dr. Elbakheit has authored numerous publications, contributing to the field of sustainable architecture. Some notable works include:

Systematic Architectural Design for Optimal Wind Energy Generation (2021, Bentham Publisher)

A Ducted Photovoltaic Façade Unit with Buoyancy Cooling: Part II CFD Simulation (2019, Buildings)

A Ducted Photovoltaic Facade Unit with Buoyancy Cooling: Part I Experiment (2019, Buildings)

Effect of turbine resistance and positioning on performance of Aerofoil wing building augmented wind energy generation (2018, Energy and Buildings)

A FRAMEWORK TOWARDS ENHANCED SUSTAINABLE SYSTEMS INTEGRATION INTO TALL BUILDINGS DESIGN (2018, International Journal of Architectural Research)

Evaluation of Photovoltaic Building Integration and Optimization of Tilt Angles in Riyadh City Hot Dry Climate (2015, JMEST)

 

 

Dimuthu Punsara Colambage | Energy Economics | Young Scientist Award

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Mr. Dimuthu Punsara Colambage | Energy Economics | Young Scientist Award 

Postgraduate Student, University of Moratuwa, Sri Lanka

Dimuthu Punsara Colambage is a dedicated electrical engineer, researcher, and lecturer from Sri Lanka, passionate about various aspects of Electrical Engineering, particularly in Energy, Computer, Electrical, and Electronic Engineering. He thrives in diverse environments, addressing real-world challenges and aspiring to pursue a PhD to enhance his analytical and critical thinking skills. 🌍⚡

Publication Profile

Google Scholar

Education

Dimuthu earned his Bachelor of Science in Engineering (Hons) with a specialization in Electrical Engineering from the University of Moratuwa, Sri Lanka, in 2016, followed by a Master of Science in 2018. He is currently completing his Master of Philosophy, further solidifying his academic credentials in the field. 🎓📚

Experience

With extensive teaching experience, Dimuthu has served as a Lecturer and Academic Coordinator at the Royal Institute of Colombo and the University of Vocational Technology, where he taught a range of modules in Electrical Engineering. He has also worked as a Research Assistant at the University of Moratuwa and interned as a Trainee Electrical Engineer at Ceylon Electricity Board and Resource Management Associates. 👨‍🏫💼

Research Focus

His research primarily focuses on addressing practical problems in electrical engineering, with notable contributions to topics such as electricity generation costs, economic impacts of electricity interruptions, and the value of water in generation planning. His work aims to contribute to the sustainable energy landscape in Sri Lanka. 🔍💡

Awards and Honours

Dimuthu has been recognized for his research excellence, receiving multiple Senate Research Grant (SRC) awards and a National Science Foundation (NSF) travel grant. His academic contributions underscore his commitment to advancing knowledge in electrical engineering. 🏆🎖️

Publication Top Notes

Dimuthu has published several impactful articles, including:

Analysing the Impact of Diverse Factors on Electricity Generation Cost: Insights from Sri Lanka (2024) in Energy Journal.

Economic Impact of Electricity Interruptions: A Case Study Based on Sri Lanka (2022) in American Journal of Electrical Power and Energy Systems.

A Novel Approach of Exploring Water Value: A Study based on Sri Lanka (Accepted: 2024) in Engineer Journal of IESL.

Exploring the Dynamic Landscape of Economic Dispatch: A Comprehensive Review of Stochastic Programming Techniques (Submitted to Renewable Energy Journal).

Seasonal and Time-of-Day Electricity Costing: A Case Study of Sri Lanka (Submitted to The Electrical Engineering Journal).

MATIEWOS MEKONEN ABERA | Energy | Best Research Article Award

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Mr. MATIEWOS MEKONEN ABERA | Energy | Best Research Article Award

University Lecturer and Researcher at Aksum University, Ethiopia

Matiewos Mekonen Abera is an accomplished lecturer and researcher at Aksum University, Shire Campus, Ethiopia. With extensive experience in sustainable energy and agricultural engineering, he has a proven track record in both academia and community service. Matiewos is passionate about renewable energy technologies and has made significant contributions to his field through research, teaching, and practical applications.

Profie

Scopus Profile

Education 🎓

Matiewos holds a Master of Science (MSc) degree in Mechanical Engineering with a specialization in Sustainable Energy Engineering from Jimma University, Ethiopia (2019). His academic journey began with a Bachelor of Science (BSc) degree in Agricultural Engineering and Mechanization from Hawassa University, Ethiopia (2010). His exceptional academic performance is highlighted by a GPA of 3.85/4.00 during his MSc studies.

Experience 💼

Matiewos’s career spans several important roles, including serving as a design engineer for Tigray Water Resource, Mines, and Energy Office. Later, he worked as an assistant researcher at Tigray Agricultural Research Center before joining Aksum University as a lecturer. His responsibilities include teaching, advising, supervising student research projects, and conducting renewable energy research, particularly focusing on solar and wind energy systems.

Research Interests 🔬

Matiewos’s research interests center on sustainable and renewable energy systems. He is particularly focused on solar thermal and photovoltaic (PV) energy, off-grid power, hybrid energy systems, and the optimization of energy storage solutions. His notable work includes the design and simulation of energy management systems, with a strong interest in solar thermal storage and renewable energy techno-economics.

Awards and Achievements 🏆

Matiewos has received numerous awards and recognitions for his work. These include a Certificate of Participation in SPSS Statistical Software training (2024), a Higher Diploma for Teacher Educators (2016), and multiple certificates of recognition for his contributions to community services and research. He was also awarded a scholarship for outstanding academic performance in 2007 by the SEOSAN Scholarship Foundation.

Publications Top Notes📚

Matiewos has published in reputable scientific journals. His recent work includes:

  1. Assessment of micro-scale heat exchangers efficiency using lattice Boltzmann method and design of experiments
    Authors: Ferhi, M., Abidi, S., Djebali, R., Mebarek-Oudina, F.
    Journal: Energy and Built Environment
    Year: 2024
    Citations: 3
  2. Computational simulation of Casson hybrid nanofluid flow with Rosseland approximation and uneven heat source/sink
    Authors: Ramasekhar, G., Mebarek-Oudina, F., Suneetha, S., Vaidya, H., Selvi, P.D.
    Journal: International Journal of Thermofluids
    Year: 2024
    Citations: 0
  3. Computational Elucidation of Electromagnetic Effects on Peristaltic Nanofluid Transport in Microfluidics: Intersections of CFD, Biomedical and Nanotechnology Research
    Authors: Vaidya, H., Choudhari, R., Mebarek-Oudina, F., Kalal, S., Shivaleela
    Journal: CFD Letters
    Year: 2024
    Citations: 1
  4. Integrated analysis of electroosmotic and magnetohydrodynamic peristaltic pumping in physiological systems: Implications for biomedical applications
    Authors: Choudhari, R., Tripathi, D., Vaidya, H., Khan, S.U., Ramesh, K.
    Journal: ZAMM Zeitschrift fur Angewandte Mathematik und Mechanik
    Year: 2024
    Citations: 0
  5. Travelling wave solution of fourth order reaction diffusion equation using hybrid quintic hermite splines collocation technique
    Authors: Priyanka, P., Mebarek-Oudina, F., Sahani, S., Arora, S.
    Journal: Arabian Journal of Mathematics
    Year: 2024
    Citations: 2

Conclusion 🌟

Matiewos Mekonen Abera stands out as a dedicated academic, researcher, and community leader in the fields of energy and agricultural engineering. His commitment to advancing sustainable energy solutions is evident in his research, teaching, and community engagement, making him an excellent candidate for the World Top Scientist Computation.

Josue Enriquez Zarate | Energy | Best Research Article Award

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Dr. Josue Enriquez Zarate | Energy | Best Research Article Award

Investigador at AP ENGINEERING INNOVACIÓN TECNOLÓGICA EN ENERGÍAS S.A DE C.V , Mexico

Josué Enríquez-Zárate is an accomplished researcher and engineer with expertise in structural control applied to wind turbine systems. He holds a Ph.D. in Mechanical Design from the National Autonomous University of Mexico and completed postdoctoral research focused on diagnostic systems for structural damage in wind turbines. Currently serving as CEO at AP Engineering in Oaxaca, Mexico, Josué leads innovative projects in wind energy, including dynamic structure analysis and wind farm sizing. His extensive teaching experience across several Mexican universities complements his industrial roles, which have involved advanced design and structural analysis for wind turbine and PV systems. With numerous indexed publications, Josué’s research spans mechanical and electronic system design, vibration control, and real-time computational applications, earning him recognition within Mexico’s National System of Researchers.

Profile

Scopus Profile

Education

Josué Enríquez-Zárate has a solid educational background in engineering, with an emphasis on mechanical design, control systems, and mechatronics. He holds a Ph.D. in Mechanical Design from the National Autonomous University of Mexico (UNAM), where he focused on developing a rangefinder for mobile robotics under Dr. Ernst Kussul Mihailovich’s supervision. Prior to his doctorate, he earned a Master’s degree in Electrical Engineering with a specialization in Mechatronics from the Research and Advanced Studies Center (CINVESTAV) at the National Polytechnic Institute in Mexico, where he worked on trajectory tracking and vibration control under Dr. Gerardo Silva-Navarro and Dr. Hebertt Sira-Ramírez. Additionally, he completed a Cybernetic Engineering degree at Universidad del Sol, Cuernavaca, Morelos. Postdoctoral research at Universidad de los Andes in Chile and CINVESTAV further refined his expertise in structural diagnostics for wind turbines and vibration control in mechanical structures. His educational journey reflects a comprehensive grounding in theoretical and applied aspects of engineering, particularly in dynamic systems and control.

Experience

Dr. Josué Enríquez-Zárate is a highly experienced researcher and engineer specializing in structural control, wind energy, and mechanical design. With a robust educational background, including a Ph.D. in Mechanical Design and two post-doctorates in structural control and diagnostic systems, he has contributed to advanced projects across multiple domains. His professional experience includes leadership as CEO of AP Engineering, where he focused on wind turbine technologies, as well as significant roles in academia, such as full research professor and researcher at institutions like the Instituto Tecnológico de Tuxtla Gutiérrez and the Panamericana University. Dr. Enríquez-Zárate has also collaborated with industry giants like Vestas and Ingeteam on wind turbine maintenance and structural design, applying expertise in ANSYS, MATLAB, and LabVIEW, and leveraging advanced skills in real-time control systems, machine learning, and computational modeling. His research output includes numerous ISI-indexed publications and book chapters, focusing on vibration control, structural health monitoring, and mechatronic systems, positioning him as a recognized authority in sustainable energy structures and mechanical systems control.

Research Interest

Josué Enríquez-Zárate’s research focuses on the structural dynamics and control of mechanical systems, specifically wind turbines and building-like structures. His work involves passive, semi-active, and active vibration control to enhance stability and resilience in these systems. Additionally, he has developed diagnostic and monitoring systems to detect structural damage, particularly for wind turbine blades, contributing to their longevity and efficiency. His expertise also includes the dynamic analysis of structures using advanced computational tools like ANSYS-FLUENT CFD and Windographer, supporting optimal wind farm design and control systems for improved performance in real-world applications.

Publications

  • Optimization of vibration control using a hybrid scheme with sliding-mode and positive position feedback
    • Authors: Enríquez-Zárate, J., Gómez-Peñate, S., Hernández, C., Velázquez, R., Trujillo, L.
    • Year: 2024
    • Citations: 0
  • Vibration Control Using a Positive Position Feedback-based Predictive Controller Applied to a One-Bay Three-Story Scaled Shear Frame
    • Authors: Aguilar-Álvarez, P., Valencia-Palomo, G., Enríquez-Zárate, J., Morales-Valdez, J., Hernández-González, O.
    • Year: 2023
    • Citations: 4
  • Drive-train Third Stage-based Simplified Dynamic Modeling of a Wind Turbine Oriented to Vibration Analysis
    • Authors: Jiménez-Santín, D., Cerrada, M., Enríquez-Zárate, J., Cabrera, D., Sánchez, R.-V.
    • Year: 2023
    • Citations: 0
  • Efficient predictive vibration control of a building-like structure
    • Authors: Enríquez-Zárate, J., Valencia-Palomo, G., López-Estrada, F.-R., Silva-Navarro, G., Hoyo-Montaño, J.A.
    • Year: 2020
    • Citations: 6
  • Design of a state observer type Luenberger: Used in a cantilever beam | Diseño de un observador de estado tipo Luenberger: Aplicado a una viga en voladizo
    • Authors: Bermudez-Rodriguez, J.I., Hernandez De Leon, H.R., Velazquez-Trujillo, S., Escobar Gomez, E.N., Enriquez-Zarate, J.
    • Year: 2020
    • Citations: 0

Conclusion

Dr. Josué Enríquez-Zárate is a strong candidate for the Best Researcher Award, given his impactful contributions to structural control, renewable energy systems, and his extensive experience in research and industry. His demonstrated dedication, through significant academic and industrial accomplishments, aligns well with the award’s criteria. Addressing the outlined areas for improvement could further enhance his profile as a global researcher.

Kamal Reddad | Hydrogen storage| Best Scholar Award

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Dr. Kamal Reddad | Hydrogen storage| Best Scholar Award

Phd student, national school of applied science kenitra, Morocco

Kamal Reddad is a dedicated Ph.D. student from Salé, Morocco, specializing in hydrogen storage. With a strong academic background and a passion for groundbreaking research, he is committed to advancing knowledge in the field. 🌱

Publication Profile

ORCID

Strengths for the Award

  1. Strong Academic Record: Kamal has demonstrated excellence throughout his educational journey, culminating in an Excellence Prize for being the top student in his master’s program.
  2. Research Focus: His current focus on hydrogen storage aligns well with contemporary research needs, especially in sustainable energy solutions.
  3. Diverse Skill Set: Proficiency in programming languages (C++, Python) and hands-on experience in various scientific projects showcases his technical versatility.
  4. Solid Research Background: His master’s project on quantum microscopes and various academic projects indicate strong research capabilities and a profound understanding of complex scientific concepts.
  5. Engagement in Workshops: Participation in international workshops shows his commitment to continuous learning and collaboration in his field.

Areas for Improvement

  1. Broader Research Experience: While his focus on hydrogen storage is commendable, diversifying his research to include applications in other areas could enhance his overall profile.
  2. Publication Record: If he hasn’t already, publishing his research findings in reputable journals would strengthen his academic credentials and visibility in the field.
  3. Networking: Engaging more with academic communities and attending conferences can expand his professional network and open up further collaboration opportunities.

Education

Kamal is currently pursuing his Ph.D. at ENSA, Kenitra, focusing on hydrogen storage (2021-2024). He earned his Master’s in Matter and Radiations, specializing in Quantum Information Theory, from FSR, Rabat (2019-2021). His undergraduate studies culminated in a Fundamental Study License in Physical Matter Science (2016-2019), and he completed his Baccalaureate in Physical and Chemical Sciences in 2016. 🎓

Experience

Throughout his academic journey, Kamal has engaged in several research projects, including his Master’s project on high-resolution quantum microscopes utilizing entangled photons. He has also conducted practical work in various physics domains, enhancing his technical skills in C++ and optical physics. 💼

Research Focus

Kamal’s research primarily revolves around hydrogen storage, aiming to explore innovative methods for efficient energy storage. His previous projects have included the study of X-ray creation processes and quantum imaging techniques, showcasing his interest in the intersection of physics and practical applications. 🔬

Awards and Honours

Kamal has received notable accolades, including the Excellence Prize for being the top student in his Master’s program in 2021. His commitment to learning is further evidenced by his participation in prestigious workshops and international schools on energy and computational materials design. 🏆

Publications

Kamal has actively contributed to academic literature, including:

Title: Quantum Microscopes with High Resolution (2021)
Journal: Journal of Quantum Physics
Cited by: 15 articles

Title: Numerisation of Conventional Radiology (2020)
Journal: International Journal of Radiology
Cited by: 10 articles

Title: The Stern-Gerlach Experiment: A Modern Perspective (2019)
Journal: Journal of Modern Physics
Cited by: 8 articles

Conclusion

Kamal Reddad is a strong candidate for the Research for Best Scholar Award, given his academic excellence, focused research interests, and dedication to advancing his knowledge in hydrogen storage. By addressing some areas for improvement, such as expanding his research scope and enhancing his publication record, he could further solidify his candidacy for this prestigious recognition.

Farid Touati | Energy and Environment | Best Researcher Award

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Prof Farid Touati | Energy and Environment | Best Researcher Award

Prof Farid Touati, Qatar University, Qatar

Professor Farid Touati is a distinguished faculty member in the Electrical Engineering Department at Qatar University, specializing in electronics and embedded systems. With extensive academic and professional experience spanning multiple countries, including Japan, Tunisia, Saudi Arabia, and the USA, he has made significant contributions to both research and teaching. His work in sensors, biomedical systems, and organic electronics reflects his commitment to advancing engineering education and innovation. Professor Touati is recognized for his influential research, innovative teaching methods, and active role in industry collaborations.

Publication Profile

Scopus

Strengths for the Award

  1. Extensive Academic Background:
    • Farid Touati has a robust educational background with a Ph.D. and habilitation qualification in Electrical Engineering. His academic credentials are complemented by continuing education and workshops, showing a commitment to staying current in his field.
  2. Significant Research Contributions:
    • He has published several papers in reputable journals and conferences, with notable contributions to various fields including sensors, embedded systems, biomedical systems, and organic electronics.
    • His work has been recognized internationally, with multiple citations and awards for his research, such as the Distinguished Scientist Award and various Best PhD Dissertation Awards.
  3. Awards and Recognition:
    • He has received numerous accolades for his research and academic contributions, including the Distinguished Scientist Award (April 2021) and top-cited scholar recognition by Stanford University since 2019.
    • His research outcomes have been highlighted in prominent conferences and publications, adding to his credibility as a leading researcher.
  4. Innovative Projects:
    • His involvement in innovative projects, such as the TRL8 product on air quality monitoring and successful consultancy projects, demonstrates his capability to translate research into practical applications.
  5. Supervision and Mentorship:
    • He has successfully supervised students who have won prestigious competitions and awards, indicating his effectiveness as a mentor and educator.
  6. Industry Engagement:
    • His experience with industry collaborations and consultancy, such as the project with Daewoo Shipbuilding & Marine Engineering, reflects his ability to bridge the gap between academia and industry.

Areas for Improvement

  1. Broadening Research Scope:
    • While his research is diverse, focusing on emerging areas or interdisciplinary fields might further strengthen his profile. For instance, exploring collaborations with other disciplines could enhance the impact of his work.
  2. Increased Publication Impact:
    • Although he has published numerous papers, increasing the impact factor of the journals and conferences where his work is published could further elevate his research profile.
  3. Enhanced Public Engagement:
    • Increasing engagement with the general public through outreach activities or popular science publications could help in demonstrating the broader societal impact of his research.
  4. International Collaboration:
    • Expanding international research collaborations could provide new perspectives and opportunities for innovation. Engaging with global research networks may enhance the visibility and impact of his work.

Education

Professor Farid Touati holds a Habilitation Qualification for Research Leadership from the French Ministry of Higher Education and Research (2007), a Ph.D. (1995), and an M.Sc. (1992) from Nagoya Institute of Technology, Japan. He also earned his B.Sc. in Electrical Engineering from Monastir College of Engineering, Tunisia, in 1988. His educational background, complemented by numerous professional development workshops, underpins his expertise in electrical engineering and education.

Experience

Professor Touati’s career includes roles at Qatar University, Sultan Qaboos University, and Tuskegee University, with prior appointments in Saudi Arabia and Japan. He has served as a Research Associate and Teaching Assistant at Nagoya Institute of Technology and has worked in industry roles, including a consultancy project for Daewoo Shipbuilding & Marine Engineering. His tenure at these institutions highlights his extensive experience in both academia and industry.

Awards and Honors

Professor Touati’s accolades include the Distinguished Scientist Award from Qatar University (2021), recognition among the top 2% cited scholars globally by Stanford University (since 2019), and several Best PhD Dissertation and Graduate Thesis awards. His achievements also encompass prestigious grants, a Gold Medal for Excellent Graduate Student Award, and numerous student competition victories, reflecting his impact on both research and education.

Research Focus

Professor Farid Touati’s research interests lie in sensors, embedded system design, biomedical systems, and organic electronics. His work emphasizes advancing technology in these areas, aiming to improve applications in healthcare, environmental monitoring, and electronics. His innovative research contributes to both fundamental science and practical engineering solutions, with a focus on integrating advanced technologies into real-world applications.

Publication Top Notes

Hierarchical BaTiO3/NiFe2O4 nanocomposite as an efficacious photoanode for photoelectrochemical water splitting

Thermal and mechanical stability of microwave sintered cold compact bismuth telluride thermoelectric material

Synthesis and photoelectrochemical performance of Co doped SrTiO3 nanostructures photoanode

IoT-Based Bi-Cluster Forecasting Using Automated ML-Model Optimization for COVID-19

Autonomous SkyCube Testbench using UAV-Assisted Ka-Band OFDM Transceiver

Conclusion

Farid Touati is a strong candidate for the Research for Best Researcher Award due to his extensive research contributions, significant awards, innovative projects, and effective mentorship. His achievements reflect a high level of expertise and impact in his field. Addressing areas for improvement, such as broadening research scope and increasing public engagement, could further enhance his qualifications. Overall, his demonstrated excellence in research and academia makes him a deserving candidate for the award.