Shivam Aggarwal | Engineering | Best Researcher Award

Posted on by Academic achievements

Dr. Shivam Aggarwal | Engineering | Best Researcher Award

Research Scholar | J. C. Bose University of Science and Technology, YMCA | India

Shivam Aggarwal is a dedicated Mechanical Engineer with a robust academic background and industry experience. He holds a Master’s degree in Mechanical Engineering and is in the process of completing his Ph.D. His expertise lies in mechanical design, statics, dynamics, thermodynamics, and materials science. Throughout his career, he has excelled in both practical engineering and academia, combining theoretical knowledge with hands-on experience in designing and testing mechanical systems. Currently, he serves as an Assistant Professor at the Echelon Institute of Technology, where he imparts knowledge to future engineers. Known for his commitment to academic excellence, research, and student mentorship, Shivam seeks to contribute further to the academic community, particularly in areas like finite element analysis and sustainable engineering.

Profile

Scholar

Education
Shivam Aggarwal’s educational journey showcases his deep commitment to the field of mechanical engineering. He pursued his Ph.D. in Mechanical Engineering at J.C. Bose University of Science & Technology, Faridabad, India, and is currently in the final stages of his thesis submission in 2024. Prior to that, he earned his Master’s in Mechanical Engineering from the same institution in 2021, specializing in advanced mechanical concepts. His academic foundation was further solidified by his Bachelor’s degree in Mechanical Engineering from Satyug Darshan Institute of Engineering & Technology, Faridabad, in 2019. Additionally, Shivam completed a Diploma in Mechanical Engineering from Government Polytechnic Manesar, Gurugram, in 2016, which provided him with a strong practical base. His education underscores a continuous pursuit of knowledge and excellence in mechanical engineering.

Experience
Shivam Aggarwal’s professional journey spans both academia and industry. He currently serves as an Assistant Professor in the Mechanical Engineering Department at Echelon Institute of Technology, where he has been shaping the minds of future engineers since June 2024. His role includes designing curricula, delivering lectures on subjects such as thermodynamics and fluid mechanics, conducting research, and mentoring students. Before venturing into academia, Shivam gained valuable industry experience. He worked as a Graduate Engineer Trainee at Frick India Pvt Ltd (January–May 2019), where he honed his skills in mechanical design and system development. He also worked as a Trainee at Dauji Metal Pvt Ltd and Forgewell India Pvt Ltd, further strengthening his practical knowledge in mechanical engineering processes, testing, and evaluation.

Research Interest
Shivam’s research interests lie in several core areas of mechanical engineering. He is particularly passionate about finite element analysis (FEA), sustainable engineering, and the application of advanced materials in automotive and mechanical systems. His work often focuses on optimizing mechanical components for performance and sustainability. He has explored the application of composite materials in electric rickshaw leaf springs, automotive leaf spring design, and energy-efficient systems. Additionally, his interest extends to robotics, automation, and the integration of IoT for smart systems in agriculture. These research pursuits reflect his dedication to advancing mechanical engineering practices through innovation and sustainability.

Award
Shivam Aggarwal’s dedication to excellence has been recognized through several prestigious awards and nominations. Notably, he won the Best Innovation Award in 2022 at YMCA University for his work in mechanical engineering. He has also received accolades for his performance in academic and professional assessments. Shivam passed the GATE exam in Mechanical Engineering, a significant achievement that highlights his theoretical and practical expertise. His contributions to mechanical engineering have earned him eligibility for the University Research Scholarship at YMCA University. Additionally, Shivam has received multiple certifications, including ISRO-IIRS Certification, and has excelled in national-level exams like the National Olympiad in Mechanical Engineering by ASSOCHAM and TCS National Qualifier Test.

Publication
Shivam Aggarwal has contributed to several high-quality publications in mechanical engineering. His research is widely acknowledged within the academic community. Some of his notable publications include:

  1. Sandwich Composite Material Analysis for its Application in Electric Rickshaw Leaf Spring, Taylor & Francis Journal of Mechanics Based Design and Structures, SCIE (2024).
  2. Analysis of Glass Fiber-reinforced Composite Leaf Springs in a Light Commercial Vehicle, Journal of Scientific Report, Nature Publishing Group, UK, SCIE (2024).
  3. Design and Analysis of Load Stiffness Tester for Dual Applications in Measurement of Spring Stiffness and Walnut Shell Stiffness, Lecture Notes in Mechanical Engineering (Springer Nature), Scopus (2024).
  4. Investigation regarding the Replacement of Composite Material Leaf Springs with Spring Steel Leaf Springs in Automotive Vehicles: A Review, IOP Conference Series Material Science & Engineering, indexed in WoS (2024).
  5. Optimization of Various Percentages of Fibers in Fiber Reinforced Composite Material Leaf Springs in Vehicles, IOP Conference Series Material Science & Engineering, indexed in WoS (2024).
  6. IoT-Based Treadle Pump and Smart Flow Measurement Device for Irrigation, Proceedings of the 10th International Symposium on Fusion of Science and Technology (2024).

These works highlight Shivam’s expertise in materials science, mechanical design, and sustainable engineering, with several being widely cited in related research fields.

Conclusion
Shivam Aggarwal is a highly accomplished Mechanical Engineer and academic, whose work spans both practical engineering and cutting-edge research. His experience as an educator, coupled with his academic achievements and industry exposure, has equipped him with a unique perspective on engineering solutions. Through his research, publications, and patents, Shivam continues to contribute meaningfully to the field of mechanical engineering. His strong foundation in design, materials science, and sustainable engineering, combined with his passion for teaching and innovation, makes him a valuable asset to the academic and engineering communities. As he advances his career, Shivam remains committed to inspiring and mentoring the next generation of engineers, fostering their academic and professional growth.

Ali Salimpour | Engineering | Best Researcher Award

Posted on by Academic achievements

Mr. Ali Salimpour | Engineering | Best Researcher Award

Student Researcher at Iran University Science & Technology, Iran

Ali Salimpour is an emerging talent in construction engineering and management, dedicated to enhancing the quality and efficiency of construction processes. Through advanced project management techniques, Ali focuses on optimizing timelines, budgets, and resource utilization while driving innovation and sustainability in the construction industry.

Profile

Google Scholar

Education🎓

Bachelor’s degree in Construction Engineering and Management at the Iran University of Science & Technology (IUST), with graduation anticipated in 2024. His academic pursuits are enriched by his passion for modern project management tools and sustainable construction practices.

Experience🏗️

As a Project Manager at Mehrabad Sazeh Company (2021–2023), Ali successfully led the construction of a residential complex. By employing advanced project management methods and optimizing resources, he reduced project completion time and minimized costs. His leadership in coordinating contractors and consultants ensured timely and budget-conscious project delivery.

Research Interests🔬

  1. Building Information Modeling (BIM): Ali is passionate about leveraging BIM to enhance project transparency, reduce errors, and optimize resources throughout construction phases.
  2. Geopolymer and Green Concrete: His interest in environmentally friendly materials drives his exploration of geopolymer and green concrete to mitigate CO2 emissions and promote sustainability.
  3. Sustainability in Construction: Ali actively researches methods to optimize energy use, minimize waste, and employ sustainable materials in large-scale construction projects.
  4. Futuristic Construction Technologies: He is keen on exploring innovations like robotics, 3D printing, and new building materials to address future challenges in the industry.

Awards and Nominations🏆

Ali has been recognized for his contributions to sustainable construction practices and innovation in project management, with nominations in industry-related award categories focusing on sustainability and project execution.

Publications📚

  1. “Advancing Sustainability in Construction through Green Concrete” (Published: 2022, Journal of Sustainable Construction) – [Cited by 10 articles].
  2. “Optimizing Construction Processes with BIM Integration” (Published: 2023, International Journal of Construction Management) – [Cited by 15 articles].

Conclusion🌏

Ali Salimpour is committed to transforming the construction industry by incorporating advanced techniques and sustainable practices. His focus on innovative solutions, environmental consciousness, and futuristic trends positions him as a forward-thinking leader in the field. Through continuous learning and collaboration, Ali aims to leave a lasting impact on construction management and engineering practices worldwide.

 

Chang He | Composite structures | Best Researcher Award

Posted on by Academic achievements

Mr. Chang He | Composite structures | Best Researcher Award 

PHD student at Tongji University, China

Chang He is a dedicated Ph.D. student in Civil Engineering at Tongji University, Shanghai, where he has distinguished himself through exemplary academic performance and significant contributions to research. With a strong foundation in Civil and Hydraulic Engineering, he has garnered recognition for his innovative approach to integrating smart materials with traditional construction techniques. His commitment to advancing the field of civil engineering is evident in his participation in various high-impact research projects and his proactive engagement in scholarly activities.

Profile

ORCID

Education

Chang He began his academic journey at Shenyang Jianzhu University, where he earned his Bachelor’s degree in Civil Engineering with a commendable GPA of 87.6/100. He was recognized for his academic excellence through several awards, including the Merit Student Award and multiple scholarships. Pursuing further education, he obtained his Master’s degree in Civil and Hydraulic Engineering from Tongji University, achieving a GPA of 84.5/100. Currently, he is advancing his studies as a Ph.D. student in Civil Engineering, where he maintains an impressive GPA of 89.5/100, demonstrating his commitment to academic rigor and research excellence.

Experience

Chang He’s research experience is extensive and multifaceted. He has actively participated in several prominent research projects, including the NSFC Project focused on the integration of spherical piezoelectric smart materials with concrete, and the development of disaster acquisition robot equipment under the National Key R&D Program of China. His involvement in these projects has allowed him to gain hands-on experience in cutting-edge research methodologies and technologies, particularly in the context of structural health monitoring and disaster management. Additionally, he has contributed to the academic community as a reviewer for notable journals, further enhancing his understanding of current research trends and standards.

Research Interest

Chang He’s research interests lie at the intersection of civil engineering and advanced technology. His primary focus includes the application of machine learning and artificial intelligence to analyze and optimize the performance of construction materials and structures. He is particularly interested in exploring how innovative materials, such as fiber-reinforced polymers, can be integrated into traditional concrete structures to enhance their durability and resilience. By leveraging deep learning techniques, Chang aims to develop predictive models that can inform engineering practices and improve the safety and efficiency of civil engineering projects.

Awards

Throughout his academic career, Chang He has received several awards and honors that reflect his dedication to excellence in education and research. Notably, he was awarded the Social Work Scholarship twice, highlighting his commitment to community engagement and social responsibility. Additionally, he received the Second Prize Scholarship twice during his master’s studies, as well as the Third Prize Scholarship and the Merit Student Award during his undergraduate years. These accolades serve as a testament to his hard work, perseverance, and contributions to the academic community.

Publications

Chang He has authored and co-authored several research publications in esteemed journals, demonstrating his commitment to advancing knowledge in his field. His notable works include:

Deep Learning-Based Analysis of Interface Performance between Brittle Engineering Materials and Composites (Expert Systems with Applications, 2024).

Hyperparameter optimization for interfacial bond strength prediction between fiber-reinforced polymer and concrete (Structures, 2023).

Bayesian optimization for selecting efficient machine learning regressors to determine bond-slip model of FRP-to-concrete interface (Structures, 2022).

Semi-supervised networks integrated with autoencoder and pseudo-labels propagation for structural condition assessment (Measurement, 2023).

Application of Bayesian optimization approach for modelling bond-slip behavior of FRP-to-concrete interface (Proceedings of the 12th International Conference on Structural Health Monitoring of Intelligent Infrastructure, 2023).

An acoustic-homologous deep learning method for FRP concrete interfacial damage evaluation (Proceedings of the 12th International Conference on Structural Health Monitoring of Intelligent Infrastructure, 2023).

Conclusion

In conclusion, Chang He embodies the qualities of an exceptional researcher in civil engineering, combining academic excellence with impactful research contributions. His extensive experience, innovative research interests, and notable achievements position him as a strong candidate for the Best Researcher Award. By continuing to push the boundaries of knowledge in his field, Chang He is poised to make significant contributions to civil engineering and society as a whole. His commitment to excellence and passion for research make him a deserving nominee for this prestigious award.

Farzan Samadani | Mechanical Engineering | Best Researcher Award

Posted on by Academic achievements

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.

TRAN THI BICH CHAU VO | Industrial Engineering and Management | Excellence in Innovation

Posted on by Academic achievements

Ms . TRAN THI BICH CHAU VO | Industrial Engineering and Management | Excellence in Innovation 

PhD Candidate , National Kaohsiung University of Science and Technology , Taiwan

Tran Thi Bich Chau VO is a dedicated academic and researcher in Industrial Engineering and Management. Currently a lecturer at Can Tho University, she brings extensive experience in process improvement and lean manufacturing. Her work focuses on enhancing processing efficiency through advanced engineering methods.

Profile

Scopus

Strengths for the Award

  1. Diverse Research Experience: Tran Thi Bich Chau Vo has a rich background in industrial engineering and management, with specific expertise in lean manufacturing, workflow process reengineering, and value stream mapping. Her work spans various industries, including garment manufacturing and aquaculture, demonstrating versatility and the ability to apply innovative techniques across different fields.
  2. Significant Research Contributions: Her publications reflect a strong commitment to advancing knowledge in industrial processes and environmental management. Notable works include her contributions to improving manufacturing processes and her involvement in projects related to green waste management and smart manufacturing.
  3. Leadership and Project Management: Vo has led several research projects, including those funded by Can Tho University and international grants. Her roles in projects like “Improvement of Pangasius Fillet Producing Line based on Lean Manufacturing” and “Genetic algorithm-based optimal locations for apparel logistics” showcase her ability to drive innovative solutions and manage complex research initiatives.
  4. International Collaboration: Her involvement in international projects, such as the Erasmus-funded green waste management project, indicates a collaborative approach and engagement with global research communities.
  5. Educational and Professional Background: Vo’s academic qualifications, including her Ph.D. in Industrial Engineering and Management, and her practical experience in both academia and industry, provide a solid foundation for her innovative research endeavors.

Areas for Improvement  

  1. Broader Innovation Impact: While Vo has demonstrated significant contributions to industrial and environmental processes, expanding her research impact into emerging technologies or interdisciplinary areas could further strengthen her profile. Exploring innovations in fields like artificial intelligence or digital transformation could enhance her contributions to cutting-edge research.
  2. Enhanced Public Engagement: Increasing the visibility of her research through popular science publications, media engagements, or public talks could broaden the reach and impact of her work. Engaging with a wider audience could also help in disseminating innovative solutions to practical challenges.
  3. Collaborative Ventures: Expanding her network to include collaborations with industry leaders, startups, or other research institutions might offer new perspectives and resources for innovation. Such collaborations could lead to the development of novel solutions and technologies.

    Education 

    🎓 Tran Thi Bich Chau VO is pursuing a Ph.D. in Industrial Engineering and Management at the National Kaohsiung University of Science and Technology, Taiwan, expected to complete in December 2024. She holds a Master of Engineering in Industrial and Systems Engineering from Ho Chi Minh City University of Technology, Vietnam (2014), and a Bachelor of Engineering in Garment Technology and Fashion from Ho Chi Minh City University of Technology and Education, Vietnam (2011).

    Experience  

    💼 Tran has been a Lecturer at Can Tho University since August 2014. Previously, she served as Head of the Research & Development Department at Thanhcong Textile Garment Investment Trading Joint Stock Company (2012-2014) and worked in the Work Study Department at Garment Fashion Limited (2011-2012).

    Research Interests  

    🔬 Tran’s research interests include workflow process reengineering, lean manufacturing, and simulation techniques to improve processing efficiency. Her recent work explores value stream mapping and the optimization of manufacturing processes.

    Awards 

    🏆 Tran has led multiple successful projects including the improvement of production lines based on lean manufacturing and genetic algorithm-based optimization for apparel logistics. Her projects have received funding and recognition from Can Tho University and other institutions.

    Publications

    📝 Tran has authored several notable publications. Here are a few of her works:

    1. Wang, C. N., Vo, T. T. B. C., Hsu, H. P., Chung, Y. C., Nguyen, N. T., & Nhieu, N. L. (2024). Improving processing efficiency through workflow process reengineering, simulation, and value stream mapping: a case study of business process reengineering. Business Process Management Journal.
    2. Wang, C. N., Vo, T. T. B. C., Chung, Y. C., Amer, Y., & Truc Doan, L. T. (2024). Improvement of manufacturing process based on value stream mapping: a case study. Engineering Management Journal, 36(3), 300-318.
    3. Nguyen, N. T., Vo, T. T. B. C., Tran-Nguyen, P. L., Nguyen, M. N., Matsuhashi, R., Kim, K., & Vo, T. T. B. C. (2024). A comprehensive review of aeration and wastewater treatment. Aquaculture, 741113.
    4. Tien Nguyen, N., Tran-Nguyen, P. L., & Vo, T. T. B. C. (2024). Advances in aeration and wastewater treatment in shrimp farming: emerging trends, current challenges, and future perspectives. AQUA—Water Infrastructure, Ecosystems and Society, 73(5), 902-916.
    5. Vo, T. S., Hoang, T., Vo, T. T. B. C., Jeon, B., Nguyen, V. H., & Kim, K. (2024). Recent Trends of Bioanalytical Sensors with Smart Health Monitoring Systems: From Materials to Applications. Advanced Healthcare Materials, 2303923.

      Conclusion

      Tran Thi Bich Chau Vo is a strong candidate for the Research for Excellence in Innovation award due to her extensive experience, significant research contributions, and leadership in managing and executing innovative projects. Her diverse background and international collaboration highlight her capability to drive impactful research. To further enhance her candidacy, focusing on expanding her research into emerging technologies and increasing public engagement could provide additional value and recognition in the field of innovation.

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

Posted on by Academic achievements

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).