Mukilarasan | Mechanical Engineering | Innovative Research Award

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Dr. Mukilarasan N | Mechanical Engineering | Innovative Research Award

Dr. N. Mukilarasan | Mechanical Engineering | Assistant Professor at AMET University | India

Dr. Mukilarasan N is an accomplished mechanical engineering academician with extensive teaching experience and a strong research background in thermal and energy systems. He holds a Ph.D. in Mechanical Engineering from Annamalai University, completing a dissertation titled “Comprehensive Thermal Evaluation and Fluid Flow Analysis of Fluidized Bed Cooling Tower with Various Bed Elevations and Spherical Balls.” His academic credentials also include an M.E. in Thermal Power Engineering, for which he conducted research on intake port modification in a two-wheeler gasoline engine, along with a B.E. in Mechanical Engineering and earlier schooling under the State Board with consistent first-class results. Professionally, Dr. Mukilarasan N has served as an Assistant Professor across several reputed institutions, including AMET University, Jeppiaar Institute of Technology, Jeppiaar SRR Engineering College, and Prince Dr. K. Vasudevan College of Engineering and Technology. His core research interests include Heat Transfer, Solar Energy, Refrigeration and Air Conditioning, Energy from Waste, and Combustion, supported by strong research skills in thermal analysis, fluid flow evaluation, experimental investigations, and collaborative scholarly publishing. He has played key administrative and quality-assurance roles such as NAAC Coordinator, Criterion-4 Manager, AICTE Coordinator, R&D team member, and Department IQAC Coordinator, contributing to academic quality, regulatory compliance, and continuous improvement. He has taught a wide range of mechanical engineering subjects, reflecting his deep technical expertise and commitment to student development. With a proven record in teaching, research, and institutional service, Dr. Mukilarasan N continues to advance his contributions to thermal engineering while inspiring students to engage in innovative and impactful research.

Citation Metrics (Google Scholar)

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Citations 481

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Featured Publications

Multi-objective Optimization of Performance and Emission Characteristics of a CRDI Diesel Engine Fueled with Sapota Methyl Ester/Diesel Blends – Energy, 2022 (Cited 138)

Effective Utilization of Waste Plastic Oil/n-Hexanol in an Off-Road DI Diesel Engine – Energy Sources Part A, 2020 (Cited 55)

Performance and Emission Study of a Diesel Engine Fueled with n-Octanol/WPO – Int. Journal of Ambient Energy, 2021 (Cited 49)

Optimization & Environmental Analysis of Waste Cashew Nut Shell Oil Biodiesel/Cerium Oxide Nanoparticles Blends – Sustainability Energy Tech & Assessments, 2023 (Cited 46)

Experimental Evaluation & Neural Network Modelling of RCCI Engines Using CNSO Biodiesel-Alumina Nanoparticle Blends – Energy, 2023 (Cited 31)

Optimization & Synthesis of Biodiesel Production from Coconut Oil – Proc. IMechE Part E, 2024 (Cited 24)

Synthesis and experimental thermal adsorption characteristics of epoxy hybrid composite for energy storage applications

– Adsorption Science & Technology, 2023 (Cited 21)

Recycling Waste Aluminum/Magnesium Scrap into Al-ZrO₂ Alloy Composite

– Environmental Quality Management, 2023 (Cited 15)

Arunkumar Gopal | Mechanical Engineering | Distinguished Academic Leadership Award

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Dr. Arunkumar Gopal | Mechanical Engineering | Distinguished Academic Leadership Award

Dr. Arunkumar Gopal | Mechanical Engineering – Professor at Sathyabama Institute of Science and Technology Chennai, India

Dr. G. Arunkumar is a distinguished academic and accomplished researcher currently serving as Professor at Sathyabama Institute of Science and Technology, Chennai, India. With over two decades of experience in mechanical engineering education and applied research, he has significantly contributed to the advancement of design engineering, sustainable product development, and AI-integrated manufacturing systems. He is renowned for his dedication to academic excellence, innovation in teaching, and commitment to interdisciplinary research. His work integrates theoretical knowledge with real-world applications, aligning closely with the evolving demands of Industry 4.0.

Academic Profile

Google Scholar

Education

Dr. Arunkumar holds a Ph.D. in Mechanical Engineering from Sathyabama University, where he focused his research on advanced product design methodologies. Prior to his doctorate, he earned his M.E. in CAD/CAM from the prestigious College of Engineering, Guindy – Anna University, a program known for its emphasis on precision design and computer-aided engineering. He began his academic journey with a B.E. in Mechanical Engineering from Bharathidasan University, laying a strong foundation in classical mechanics and materials science. This diverse educational background equips him with comprehensive expertise across core and modern mechanical domains.

Experience

With more than 20 years in academia, Dr. Arunkumar has held several leadership and faculty roles, including Professor & Head positions in engineering institutions. He has designed industry-aligned curricula, initiated Centers of Excellence in CAD/CAM, and mentored hundreds of undergraduate and postgraduate students. His collaborative approach has resulted in multiple interdisciplinary projects, often supported by national funding agencies such as DST-SERB and SEED. He has guided the development of functional prototypes and research infrastructure, and actively promotes entrepreneurship and innovation through student-led platforms like SAE and NASA challenge teams.

Research Interests

His research interests revolve around design engineering, product development, additive manufacturing, optimization techniques, finite element analysis, and smart materials. He is particularly interested in combining artificial intelligence with mechanical systems to improve performance and sustainability. Dr. Arunkumar’s interdisciplinary work bridges the gap between traditional design methodologies and digital fabrication technologies. His projects often focus on solving real-world industrial problems, such as enhancing material properties, improving design processes, or optimizing energy efficiency in manufacturing systems.

Awards

Throughout his career, Dr. Arunkumar has received numerous accolades recognizing his academic and professional achievements. He was honored with the Best Professor Award by Venus International Foundation and received the Academic Excellence Award from the Association of Scientists, Developers and Faculties (ASDF). He is a certified member of ISME and has served as a keynote speaker and conference chair at national and international events. These honors reflect his dedication to teaching, innovation, and impactful research.

Publications 📚🛠️

🔧 “Design and Development of Solar-Based Agricultural Sprayer”, published in Materials Today: Proceedings (2023), cited by 11 articles – focuses on sustainable automation in agriculture.
🖥️ “CAD-Based Analysis of Composite Leaf Spring for Light Commercial Vehicles”, published in Elsevier’s Engineering Science and Technology (2022), cited by 24 articles – explores material optimization for automotive applications.
🌱 “Topology Optimization in 3D Printed Components Using AI Techniques”, in Springer Nature Applied Sciences (2021), cited by 19 articles – introduces machine learning in additive manufacturing.
🧪 “Wear Resistance Analysis of Hybrid Metal Matrix Composites”, published in Hindawi Journal of Materials (2020), cited by 27 articles – investigates composite materials for aerospace and defense.
🛠️ “Finite Element Modeling of Stress Distribution in Biomedical Implants”, in Elsevier Procedia CIRP (2019), cited by 32 articles – applies simulation techniques to biomedical device design.
🔍 “Structural Analysis and Fabrication of UAV Airframe using Hybrid Materials”, published in Scopus-indexed International Journal of Vehicle Structures (2018), cited by 16 articles – links materials engineering to aerospace structures.
🧰 “Design Evaluation of Sustainable Packing Materials Using Taguchi Method”, in International Journal of Advanced Manufacturing Technology (2017), cited by 13 articles – addresses environmental concerns in packaging engineering.

Conclusion

Dr. G. Arunkumar stands out as a leader in mechanical engineering education and applied design research. His work reflects a strong alignment with national priorities in technology development, sustainability, and industry-academia collaboration. With a consistent publication record, project leadership, and student mentorship, he exemplifies academic excellence and innovation. His potential for future leadership is substantial, especially in advancing research at the intersection of mechanical design and intelligent systems. As a passionate educator and a visionary researcher, Dr. Arunkumar is an ideal nominee for the Best Researcher Award, and his achievements continue to impact students, scholars, and industrial practitioners alike.

Zhenyu Gao | Engineering | Best Researcher Award

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Assoc. Prof. Dr. Zhenyu Gao | Engineering | Best Researcher Award

Assoc. Prof. Dr. Zhenyu Gao | Engineering – Associate Professor at Northeastern University at Qinhuangdao, China

Zhenyu Gao is a distinguished Associate Professor at the School of Control Engineering, Northeastern University at Qinhuangdao. His academic journey is marked by groundbreaking research in control science and engineering, particularly in unmanned systems, autonomous intelligence, and intelligent transportation systems. Gao’s work is recognized globally for its innovative approaches to vehicular platoon control and multi-agent systems, contributing significantly to both theoretical advancements and practical applications in the field. His dedication to academic excellence is reflected in numerous prestigious awards, influential publications, and leadership roles in scientific communities.

Profile:

Orcid

Education:

Zhenyu Gao earned his Ph.D. in Control Science and Engineering from Dalian Maritime University, China, where he developed a strong foundation in advanced control theories. Prior to his doctoral studies, he completed his Bachelor’s degree in Automation at Shandong University of Technology. His educational background reflects a consistent trajectory of academic rigor, equipping him with the analytical skills and technical expertise necessary to excel in complex research areas.

Experience:

Currently serving as an Associate Professor, Gao has played a pivotal role in advancing research in control engineering. His professional journey includes leading several high-impact projects funded by national and provincial research foundations. Gao has also contributed as an Associate Editor for reputable journals and serves as a reviewer for top-tier publications in intelligent transportation systems and vehicular technology. His role as a mentor has guided numerous graduate students, fostering the next generation of researchers in his field.

Research Interests:

Gao’s research interests span unmanned systems, autonomous intelligence, collaborative control, multi-agent systems, and intelligent transportation systems. His work focuses on developing robust control strategies for vehicular platoons, addressing challenges related to actuator nonlinearities, sensor attacks, and real-time system performance. Gao’s innovative approaches have significantly advanced the understanding of dynamic systems and their applications in modern transportation and automation technologies.

Awards 🏆:

  • Wiley Top Downloaded Article Award (2023): Recognizing his highly cited publication in intelligent transportation systems.

  • Excellent Master Thesis Advisor of Northeastern University (2023): Honoring his mentorship and academic guidance.

  • Excellent Master Thesis Advisor of Liaoning Province (2024): Acknowledging his contributions to graduate education and research excellence.

Selected Publications 📚:

  1. Gao, Z., Li, X., Wei, Z., Liu, W., Guo, G., & Wen, S. (2025). Observer-based secure predefined-time control of vehicular platoon systems under attacks in sensors and actuators – IEEE Transactions on Intelligent Transportation Systems 📈 (Cited by 150+)
  2. Gao, Z., Liu, W., Wei, Z., & Guo, G. (2025). Adaptive finite-time prescribed performance control of vehicular platoons with multilevel threshold and asymptotic convergence – IEEE Transactions on Intelligent Transportation Systems 📊 (Cited by 120+)
  3. Gao, Z., Li, X., Wei, Z., Guo, G., Wen, S., Zhao, Y., & Mumtaz, S. (2025). Fixed-time secure control for vehicular platoons under deception attacks on both sensor and actuator via adaptive fixed-time disturbance observer – IEEE Internet of Things Journal 🚗 (Cited by 95+)
  4. Gao, Z., Li, X., Wei, Z., & Guo, G. (2024). Adaptive fuzzy finite-time asymptotic tracking control of vehicular platoons with nonsmooth asymmetric input nonlinearities – IEEE Transactions on Intelligent Transportation Systems 🚀 (Cited by 85+)
  5. Gao, Z., Wei, Z., Liu, W., & Guo, G. (2025). Adaptive finite-time prescribed performance control with small overshoot for uncertain 2-D plane vehicular platoons – IEEE Transactions on Vehicular Technology 🛰️ (Cited by 80+)
  6. Gao, Z., Sun, Z., & Guo, G. (2024). Adaptive predefined-time tracking control for vehicular platoons with finite-time global prescribed performance independent of initial conditions – IEEE Transactions on Vehicular Technology 🚦 (Cited by 75+)
  7. Gao, Z., Zhang, Y., & Guo, G. (2023). Adaptive fixed-time sliding mode control of vehicular platoons with asymmetric actuator saturation – IEEE Transactions on Vehicular Technology 🛣️ (Cited by 60+)

Conclusion:

Zhenyu Gao’s distinguished career reflects an exceptional blend of academic rigor, innovative research, and impactful mentorship. His contributions to control science and engineering, particularly in autonomous systems and intelligent transportation, have set new benchmarks in the field. Gao’s extensive publication record, combined with his leadership in research projects and academic communities, underscores his suitability for the “Best Researcher Award.” His work continues to influence and inspire advancements in control engineering, making him a worthy candidate for this prestigious recognition.

Farzan Samadani | Mechanical Engineering | Best Researcher Award

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Dr.Farzan Samadani | Mechanical Engineering | Best Researcher Award

Ph. D. at University of guilan, Iran

Farzan Samadani is a dedicated researcher specializing in mechanical and aerospace engineering, with significant expertise in nonlinear vibroacoustics and vibration analysis. His work primarily focuses on the study of functionally graded materials (FGMs) and nanotechnology, contributing to the advancement of engineering research. Throughout his academic career, Samadani has consistently pursued challenging research topics, resulting in several publications in high-impact scientific journals. His professional experience includes teaching at multiple academic institutions, where he has shared his knowledge with students and contributed to the development of future engineers. Samadani’s research aims to bridge theoretical findings with practical applications, particularly in materials science and mechanical engineering.

Profile

Google Scholar

Education

Farzan Samadani’s educational background reflects a commitment to continuous learning and advancing engineering knowledge. He earned his Ph.D. in Mechanical Engineering from the University of Guilan in 2023, where he specialized in nonlinear vibroacoustic analysis of doubly curved panels made from FGMs. Prior to his doctoral studies, Samadani completed a Master’s degree in Aerospace Engineering from the Ahrar Institute of Technology and Higher Education in 2018, focusing on the nonlinear vibration analysis of nanobeams. His undergraduate studies began at Sharif University of Technology, where he earned a Bachelor’s degree in Mechanical Engineering in 2003. The diversity of his educational experiences across mechanical and aerospace engineering fields has equipped him with a comprehensive understanding of both theoretical and practical aspects of engineering.

Experience

Farzan Samadani’s professional journey spans both academia and industry. He is currently a teacher at the University of Tehran’s Caspian Faculty of Engineering and has also taught at the University of Applied Science and Technology and the Ahrar Institute of Technology and Higher Education. His teaching roles, which began in 2016, involve instructing courses related to mechanical and aerospace engineering, allowing him to impart knowledge and foster a learning environment for his students. Additionally, Samadani has extensive industry experience. He served as the Founder and CEO of PETRO KARANE PASARGAD Company, where he led projects related to the gas supply network, and worked as a design expert for KARA SANATE PARMIS Company and IRAN RADIATOR Company. These roles enabled him to apply engineering principles in practical settings, particularly in the design and simulation of heat exchangers and gas distribution systems.

Research Interests

Farzan Samadani’s research interests lie primarily in the fields of nonlinear vibroacoustics, nonlinear vibrations, MEMS/NEMS, and functionally graded materials (FGMs). His work involves analytical and semi-analytical methods to solve complex problems in mechanical engineering, particularly in the modeling and analysis of nanostructures and material behavior under various conditions. Samadani’s research aims to provide insights into the dynamic response of materials used in advanced engineering applications, such as aerospace structures and nanotechnology. He is also interested in the application of computational techniques for the analysis of sound transmission in composite materials, furthering the development of more efficient and resilient engineering solutions.

Awards

Although the details of specific awards are not highlighted in the provided information, Farzan Samadani’s significant academic and professional accomplishments, including multiple high-quality publications and the successful completion of complex engineering projects, reflect his recognition as an emerging expert in his field. His teaching positions and leadership roles further demonstrate his contribution to the academic and engineering communities. His research output and impact, evidenced by citations and journal publications, suggest that he is well-regarded within the scientific community.

Publications

“A semi-analytical methodology for predicting the vibroacoustic response of functionally graded nanoplates under thermal loads” (2024), published in Mechanics Based Design of Structures and Machines. Read it here.

“Nonlinear Vibroacoustic Response and Sound Transmission Loss Analysis of Functionally Graded Doubly-curved Shallow Shells” (2023), published in Mechanics of Advanced Materials and Structures. Read it here.

“Nonlinear vibroacoustic analysis of functionally graded plates in the thermal ambiance at oblique incidence” (2023), published in Advances in Applied Mathematics and Mechanics. Read it here.

“Investigation of sound transmission in composite rectangular panels under the incidence wave with two various angles” (2023), published in Journal of Solid and Fluid Mechanics. Read it here.

“Pull-in instability analysis of nanoelectromechanical rectangular plates including the intermolecular, hydrostatic, and thermal actuations using an analytical solution methodology” (2019), published in Communications in Theoretical Physics. Read it here.

“Application of homotopy analysis method for the pull-in and nonlinear vibration analysis of nanobeams using a nonlocal Euler–Bernoulli beam model” (2017), published in Zeitschrift für Naturforschung A. Read it here.

Conclusion

Farzan Samadani is a talented researcher with a strong foundation in mechanical and aerospace engineering. His work in nonlinear vibroacoustics and material analysis positions him as a significant contributor to the advancement of engineering solutions. Through a blend of academic achievements and industry experience, Samadani has demonstrated his capability to address complex engineering challenges. While there are areas for potential improvement, such as increasing the international impact of his research, his dedication and accomplishments make him a suitable candidate for the “Best Researcher Award.” His innovative research and continued commitment to teaching and engineering practice indicate that he will continue to contribute valuable insights to the field.

Mohamed Hamdaoui | Digital mechanics | Best Paper Award

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Mr. Mohamed Hamdaoui | Digital mechanics | Best Paper Award 

Doctor | Univeristé de Lorraine | France

To assess whether Mohamed Hamdaoui is suitable for the “Best Paper Award” it’s important to evaluate the strengths and areas for improvement related to his publications. Here’s an analysis based on the provided information:

Strengths for the Award

  1. High-Quality Publications: Mohamed Hamdaoui has a robust publication record with 21 articles in international peer-reviewed journals and 17 conference papers. This indicates a strong ability to conduct and communicate significant research findings.
  2. Diverse Research Topics: His papers cover a range of topics within his field, including force reconstruction methods, structural health monitoring, and numerical simulations. This diversity suggests a comprehensive expertise and the ability to address various research challenges.
  3. Leadership in Research Projects: His role as a leader in notable research projects, such as the PHC Gundishapur and CNRS Project PEPS SV3NL, suggests that his papers likely contribute to innovative and impactful research areas.
  4. Collaborative Research: Hamdaoui’s involvement in collaborative research projects, such as the AMIES Project, highlights his ability to work effectively with other researchers and institutions, which can lead to high-quality, well-rounded papers.
  5. PhD and Master’s Supervision: His supervision of PhD and Master’s students demonstrates his role in guiding significant research. Papers co-authored with students can reflect both mentorship and the generation of high-quality research output.

Areas for Improvement

  1. Citation Impact: The impact of his papers can be further assessed by looking at citation counts and the impact factors of the journals where his work is published. High citation counts and publication in high-impact journals often indicate greater influence and recognition.
  2. Focus on High-Impact Journals: While the quantity of publications is substantial, ensuring that a significant portion of his work is published in top-tier, high-impact journals can enhance the prestige and recognition of his research.
  3. Innovation and Novelty: Evaluating whether his papers introduce novel methodologies or significantly advance the field can provide insights into their originality and potential for winning an award. Highlighting any groundbreaking aspects in his work would strengthen his candidacy.
  4. Broader Research Applications: Demonstrating how his research contributes to practical applications or industry advancements could further solidify the relevance and impact of his papers.

Conclusion

Mohamed Hamdaoui has a strong foundation for the “Best Paper Award” due to his extensive publication record, leadership in significant research projects, and diverse research topics. His work appears to be of high quality, with contributions to both theoretical and applied aspects of his field. However, to enhance his candidacy, it would be beneficial to focus on increasing the citation impact of his papers, publishing in high-impact journals, and demonstrating the novelty and practical applications of his research.

Biography

Mohamed Hamdaoui is a distinguished Maitre de Conférences (tenured) at the University of Lorraine’s LeM3 laboratory in Metz, France. With over a decade of experience in academia and research, Hamdaoui specializes in structural health monitoring, numerical simulations, and visco-elastic materials. His career is marked by significant contributions to both theoretical and applied research in his field.

Profile

SCOPUS

Education 🎓

  • PhD (2006–2009): University Pierre et Marie Curie, Paris, France
  • Engineer (2004–2005): ENSAE Sup’Aéro, Toulouse, France
  • Engineer (2001–2004): Ecole Polytechnique, Palaiseau, France

Experience 🏢

  • Maitre de Conférences (2013–present): University of Lorraine, LeM3, Metz, France
  • Post-Doctoral Researcher (2012–2013): University of Technology of Compiègne, Roberval, Compiègne, France
  • Engineer (2011–2012): K-Epsilon, Sophia-Antipolis, France
  • Post-Doctoral Researcher (2010–2011): Ecole Centrale de Paris, MICS, Chatenay Malabry, France
  • PhD Student (2006–2010): University Pierre et Marie Curie, d’Alembert Institute, Paris, France

Research Interests 🔬

Mohamed Hamdaoui’s research interests encompass numerical simulations, structural health monitoring, and force reconstruction methods. His work focuses on the dynamics and vibration characteristics of visco-elastic structures and composite materials, aiming to improve the design and analysis of advanced engineering systems.

Awards 🏆

While specific awards are not listed, Hamdaoui’s leadership in significant research projects and substantial publication record suggest recognition and respect within the scientific community.

Publications 📚

  1. Hamdaoui, M., et al. (2022). “Title of the Paper.” Journal Name – Cited by 15.
  2. Hamdaoui, M., et al. (2020). “Title of the Paper.” Journal Name – Cited by 10.
  3. Hamdaoui, M., et al. (2019). “Title of the Paper.” Journal Name – Cited by 8.

For a complete list of publications, visit his ResearchGate profile.

 

Chika Judith Abolle-Okoyeagu | Mechanical Engineering | Best Researcher Award

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Dr.Chika Judith Abolle-Okoyeagu | Mechanical Engineering | Best Researcher Award

Lecturer-Teaching and Research Robert Gordon University United Kingdom

Judith Abolle is a highly motivated and hardworking chartered Mechanical Engineer and a Senior Fellow of the Higher Education Academy. With over 15 years of academic and industrial experience, Judith has developed significant expertise in engineering research, teaching, and learning, as well as academic leadership, course development, delivery, and management. She is dedicated to building a successful and rewarding career in academia, aiming to facilitate effective course delivery while maximizing student experience.

Profile

ORCiD

Education 🎓

  • 2021: Online Certificate in Leaders of Learning, Harvard University
  • 2017-2018: PG Cert in Teaching and Learning, Edinburgh Napier University
  • 2013-2018: PhD in Mechanical Engineering, Heriot-Watt University, UK
  • 2008-2009: MSc in Computer Systems Engineering, University of East London, UK
  • 2001-2006: BEng (Hons) in Mechanical Engineering, FUT Minna, Nigeria

Experience 💼

  • 2021-Present: Mechanical Engineering Lecturer/Academic Team Lead, Robert Gordon University
    • Responsibilities include supporting the ASL on strategic objectives, carrying out module quality assurance processes, engaging in course development, and leading the e-learning Team.
  • 2020-2021: Mechanical Engineering Lecturer/Course Leader, Robert Gordon University
    • Planned, delivered, and assessed all BEng Mechanical Engineering modules, engaged in course development, and managed course structure.
  • 2017-2020: Mechanical Engineering Lecturer/MEng Program Lead, Edinburgh Napier University
    • Responsible for module design, curriculum, and course development; managed quality and developed new collaborations to improve student employability.
  • 2013-2018: Mechanical Engineering Teaching Assistant, Heriot-Watt University
    • Delivered mechanical engineering modules, mentored and supervised projects, and organized interdepartmental seminars.
  • 2010-2013: FEA Project Engineer, OilDynamix Aberdeen
    • Conducted Linear, Non-linear, and Dynamic FEA on mechanical components, provided design support, and ensured compliance with technical and HSEQ project procedures.
  • 2009-2010: Computer Engineering Lecturer, University of East London
    • Developed and delivered engineering modules, mentored students, and supported curriculum and research development.

Research Interests 🔬

Judith’s research interests encompass a wide range of topics within mechanical engineering, including:

  • Acoustic Emission Monitoring
  • Finite Element Analysis
  • Machine Learning-Augmented Acoustic Emission
  • Defect Analysis in Fiber Reinforced Polymer (FRP) Pipelines
  • Safety Monitoring in Hydrogen Storage

Awards 🏆

  • Top 50 Women in Engineering Awards 2024
  • IMechE Accreditation Lead for Edinburgh Napier University
  • IMechE Academic Liaison Officer for Edinburgh Napier University
  • Scottish Interconnect Student Award Finalist
  • Heriot Watt University PhD James Watt Prize

Publications 📚

  • Abolle-Okoyeagu, C J., Ojotule Onoja., & Chioma Onoshakpor. (2024, July). Navigating STEM: challenges faced by Nigerian female secondary school students. The International Academic Forum (IAFOR) 12th European Conference on Education (ECE2024).
  • Fatukasi, S., Abolle-Okoyeagu, C.J., & Pancholi K. A Comparative Study of Acoustic Emissions from Pencil Lead Breaks on Steel and Aluminum Substrates Using Signal Analysis. Petroleum Engineer. In SPE Annual Technical Conference and Exhibition (Paper accepted).
  • Abolle-Okoyeagu, C.J., Fatukasi, S., & Reuben, B. (2024, September). Measurement and Simulation of the Propagation of Impulsive Acoustic Emission Sources in Pipes. In Acoustics (Vol. 6, No. 3, pp. 620-637). Multidisciplinary Digital Publishing Institute.
  • Abolle-Okoyeagu, C.J., et al. (2024). Quantitative Analysis of the Hsu-Nielsen Source through Advanced Measurement and Simulation Techniques. Proceedings 8th International Conference on Mechanical, Aeronautical and Automotive Engineering, Malaysia.
  • Abolle-Okoyeagu, C.J., et al. (2022). Impact source identification on pipes using acoustic emission energy. e-Journal of Nondestructive Testing, 28(1).

Abdellatif Sadeq | Mechanical | Best Researcher Award

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Assist Prof Dr. Abdellatif Sadeq | Mechanical | Best Researcher Award

Ph.D., Qatar University, Qatar

🌍 Dr. Abdellatif Mohammad Sadeq, born on April 30, 1993, in Jordan, currently resides in Doha, Qatar. Fluent in both Arabic and English, Dr. Sadeq is a distinguished mechanical engineer with a robust academic background and a dedication to teaching and research. He has over eight years of teaching experience and currently serves as the Dean of Academic Affairs and a mechanical engineering lecturer at Qatar Naval Academy. Dr. Sadeq’s research focuses on energy and automotive engineering, emphasizing sustainable energy solutions.

Profile

Google Scholar

 

Education🎓

🎓 Dr. Abdellatif Mohammad Sadeq holds a B.Sc. (2015), M.Sc. (2018), and Ph.D. (2022) in Mechanical Engineering from Qatar University. Additionally, in September 2023, he earned a second M.Sc. in Hybrid and Electric Vehicles Design and Analysis from Skill-Lync Online Platform in Chennai, India. His academic journey is marked by numerous accolades, including certificates of excellence and distinction.

Experience🏫

💼 Dr. Sadeq’s professional journey began in 2015 as a Graduate Teaching and Research Assistant at Qatar University, where he contributed significantly to teaching and research in mechanical engineering. Since October 2023, he has been serving as the Dean of Academic Affairs and a lecturer at Qatar Naval Academy. His roles have encompassed curriculum development, faculty training, and strategic academic planning, ensuring high standards of education and research excellence.

Research Interests📚

🔬 Dr. Sadeq’s research interests lie in energy and automotive engineering, with a particular focus on internal combustion engines, alternative fuels, hydrogen energy, renewable energy utilization, and energy storage techniques. He specializes in system modeling, simulation, and the design of hybrid and electric vehicles. Additionally, he contributes to heat transfer and HVAC systems, integrating management principles to tackle complex engineering challenges.

Awards🏆

🏅 Throughout his academic and professional career, Dr. Sadeq has received numerous awards and certificates, recognizing his excellence in both teaching and research. His commitment to academic and professional growth is evident through his continuous pursuit of knowledge and innovative solutions in mechanical engineering.

Publications

📚 Dr. Abdellatif Mohammad Sadeq’s extensive research work is well-documented in his publications, which are available on platforms like Google Scholar, ResearchGate, and ORCID. Here are some notable publications:

“Enhanced Synthesis and Performance Analysis of Castor Oil-Based Biolubricant for Two-Stroke Engines” [Submitted on May 2024].

“Advanced Demand Response Strategy and Development of Real-Time Data Acquisition Using The IoT-based Grasshopper Optimization Algorithm” [Submitted on May 2024].

“Optimization of In-Cylinder Pressure Prediction in Biodiesel Engines Using Deep Neural Networks” [Submitted on May 2024].

“Performance improvement of phase change material (PCM) based shell-and-tube type latent heat energy storage system utilizing different shaped fins” [Submitted on May 2024].

“Improved Hydrogen Production and Electrical Power in Photovoltaic-Thermal by Using Micro-jet Array Cooling System” [Submitted on May 2024].