En-Feng Deng | Engineering | Best Researcher Award

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Prof. En-Feng Deng | Engineering | Best Researcher Award

Zhengzhou University, School of Civil Engineering, China

🌟 Prof. En-Feng Deng is a distinguished scholar from Zhengzhou University, serving as a doctoral supervisor. A young talent recognized under the Henan Province Young Talent Lifting Project, Prof. Deng is also a key backbone teacher at Zhengzhou University. His expertise lies in the development of modular steel constructions, and he has made significant contributions through his leadership in various national and provincial research projects. Prof. Deng has authored over 50 SCI/EI papers, showcasing his dedication to advancing the field.

Publication Profile

ORCID

Strengths for the Award

  • Significant Contributions: Prof. En-Feng Deng has made substantial contributions to the field of modular steel construction, particularly in developing and improving innovative connections and structural designs. His research focuses on seismic performance, shear behavior, and flexural behavior in modular constructions, which are critical in advancing the safety and efficiency of modern buildings.
  • Extensive Publications: With over 50 SCI/EI papers published as the first or corresponding author, Prof. Deng has established himself as a prolific researcher. His work is well-recognized in high-impact journals, demonstrating the quality and relevance of his research.
  • Leadership in Research Projects: Prof. Deng has successfully led several prestigious research projects, including two funded by the National Natural Science Foundation of China and others supported by the Henan Province and the China Postdoctoral Science Foundation. This highlights his capability in securing funding and managing large-scale research initiatives.
  • Awards and Recognition: Prof. Deng’s research excellence is further evidenced by the POSCO-KSSC Award, recognizing his contributions to steel structures, and his inclusion in the young talent lifting project of Henan Province.
  • Mentorship: As a doctoral supervisor, Prof. Deng plays a crucial role in mentoring the next generation of researchers, further amplifying his impact in the academic community.

Areas for Improvement

  • Broader Impact and Collaboration: While Prof. Deng has demonstrated significant expertise in modular steel constructions, expanding his research to include interdisciplinary collaborations could enhance the broader impact of his work. Engaging in projects that address global challenges or collaborating with international researchers may further elevate his profile.
  • Innovation and Industry Application: Although Prof. Deng’s work is innovative, translating his research findings into practical applications in the construction industry could strengthen his candidacy for the award. Developing partnerships with industry stakeholders to implement and commercialize his research could be a valuable next step.
  • Visibility and Outreach: Increasing visibility through more conference presentations, keynote speeches, and participation in global forums could enhance Prof. Deng’s recognition as a leading researcher. Outreach efforts, such as engaging with policy makers or contributing to public discourse on sustainable construction, could also be beneficial.

 

Education

🎓 Educational Background: Prof. En-Feng Deng has a solid academic foundation, having earned his doctorate, which paved the way for his research and teaching career at Zhengzhou University. His academic journey has been marked by continuous learning and exploration in the field of civil engineering, particularly in modular steel constructions.

Experience

🔧 Professional Experience: Prof. Deng is a respected faculty member at Zhengzhou University, where he supervises doctoral students and leads critical research projects. His work has been instrumental in advancing modular steel construction techniques, and he has successfully led multiple projects funded by national and provincial science foundations, as well as postdoctoral foundations in China.

Research Focus

🔍 Research Focus: Prof. Deng’s research primarily revolves around the development and optimization of modular steel constructions. His innovative work includes investigating the seismic and shear behavior of modular steel connections, as well as the design and performance of prefabricated components in steel structures. His research has contributed to the safer and more efficient design of steel structures in modern construction.

Awards and Honors

🏆 Awards and Honors: Prof. Deng has been recognized with numerous awards, including the prestigious POSCO-KSSC Award from the Korean Steel Structure Association for the best paper. He has also been honored as part of the Henan Province Young Talent Lifting Project, underscoring his impact and contributions to the field of civil engineering.

Publication Top Notes

đź“š Publication Highlights:

Deng EF, Wang YH, Zong L, Zhang Z, Zhang JF. (2024). Seismic behavior of a novel liftable connection for modular steel buildings: Experimental and numerical studies. Thin-Walled Structures, 197: 111563. Cited by 15

Deng EF, Du YP, Lian JY, Zhang Z, Qian H, Zhang JF, Liu CZ. (2024). Shear behavior of the fully prefabricated liftable connection for modular steel construction. Journal of Building Engineering, 92: 109793. Cited by 10

Deng EF, Wu ST, Qian H, He JM, Zhang JF, Yu HX. (2024). Seismic performance and design of an innovative dual vertical diaphragms joint between flat CFST column and H-beam. Journal of Building Engineering, 87: 108945. Cited by 8

Deng EF, Yang YM, Tian Y, Zhang Z, Wang YB, Wei JZ, Dong SL. (2024). Flexural behavior of laminated H-beams in modular constructions: Numerical and analytical studies. Structures, 66: 106891. Cited by 5

Deng EF, Lian JY, Zhang Z, Qian H, Zhang GC, Zhang P, Sheikh SA. (2023). Axial mechanical behavior of an innovative liftable connection for modular steel construction. Thin-Walled Structures, 182: 110256. Cited by 12

Conclusion

Prof. En-Feng Deng is a strong candidate for the Best Researcher Award, given his impressive academic achievements, leadership in research projects, and contributions to modular steel construction. His prolific publication record and recognized expertise in the field position him as a deserving recipient. However, further expanding his research’s interdisciplinary impact, industry application, and global visibility could enhance his candidacy even more.

 

Harish Selvam | Engineering | Best Researcher Award

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Dr. Harish Selvam | Engineering | Best Researcher Award

Post-doctoral researcher, Institute of Hydraulic Engineering and Water Resources Management, RWTH Aachen University, Germany

Harish Selvam is a Scientific Staff member at the Institute of Hydraulic Engineering and Water Resources Management (IWW) at RWTH Aachen University, Germany. With over 8 years of expertise in Hydraulics and Coastal Engineering, Harish’s research focuses on physical and numerical modeling, particularly in violent tsunami-structure interactions. His dual MS and PhD in Ocean Engineering were awarded with distinction from RWTH Aachen University and Indian Institute of Technology Madras. 🌊🏛️

Publication Profile

Strengths for the Award:

  1. Academic Excellence: Harish Selvam’s educational background is impressive, with a dual degree (MS & PhD) in Ocean Engineering from RWTH Aachen University and IIT Madras, completed with distinction. His B.E. in Civil Engineering also showcases strong academic performance.
  2. Research Contributions: His PhD thesis on violent tsunami-structure interaction is a significant contribution to the field of Hydraulics and Coastal Engineering. He has published numerous papers in high-impact journals such as Coastal Engineering, Water, Applied Ocean Research, and Ocean Engineering, indicating a strong research output.
  3. Awards and Recognitions: Harish has received prestigious awards, including the Prof. Vallam Sundar best PhD thesis in Ocean Engineering from IIT Madras and the ISH best PhD thesis award in Hydraulics, water resources, and coastal engineering.
  4. Professional Experience: With eight years of experience in Hydraulics and Coastal Engineering, Harish has held significant positions, including Junior Research Group Coastal Engineering Leader and Scientific Staff at RWTH Aachen University. His involvement in major projects and contributions to CFD software development demonstrate his applied research skills.
  5. Technical Skills: Proficiency in programming languages (MATLAB, C++, FORTRAN) and technical software (AutoCAD, Stadd Pro, FreeCAD, OpenFOAM, DualSPHysics, Ansys) highlights his capability in numerical and physical modeling.
  6. Supervision and Mentorship: Harish has supervised multiple Master’s and Bachelor’s theses, indicating his leadership and mentorship abilities. His guidance on projects related to tsunami-like wave impacts and hydraulic engineering showcases his expertise in guiding young researchers.
  7. International Exposure: Harish’s involvement in international projects and conferences, along with scholarships from DAAD and UGC, underscores his global perspective and collaboration.

Areas for Improvement:

  1. Language Proficiency: While Harish has basic proficiency in German (A2.1 level), improving his language skills could enhance his integration and communication within the international research community in Germany and beyond.
  2. Expanded Research Impact: While his research is strong, broadening the impact through more interdisciplinary collaborations and applications beyond tsunami-structure interaction could enhance his profile further.
  3. Industry Collaboration: Increasing collaborations with industry partners could translate his research findings into practical solutions and innovations, thereby enhancing the societal impact of his work.

Conclusion:

Harish Selvam is a highly suitable candidate for the Best Researcher Award. His robust academic background, significant research contributions, professional experience, and technical skills make him a standout researcher in the field of Hydraulics and Coastal Engineering. While there are areas for improvement, such as language proficiency and expanding the impact of his research, his overall profile is highly commendable and deserving of recognition.

 

Education

Harish completed his dual degree MS & PhD in Ocean Engineering from RWTH Aachen University and Indian Institute of Technology Madras in July 2023, graduating with a summa cum laude distinction and a 9.74 CGPA. He holds a B.E. in Civil Engineering from Rajalakshmi Engineering College, Chennai, with an 8.74 CGPA. He also achieved top grades in his Higher Secondary and Matriculation courses. 🎓📚

Experience

Currently, Harish serves as a Junior Research Group Coastal Engineering Leader at IWW, RWTH Aachen University. His previous roles include Scientific Staff at IWW since October 2021 and Project Associate at IIT Madras. He has worked extensively with OpenFOAM and other CFD software, and has been involved in notable projects like the “Impact of waterborne debris on near shore structures” and “Flood-induced building damages after 2021 German floods.” 🏗️🌍

Research Focus

Harish’s research primarily investigates tsunami-like flow interactions with coastal structures. His PhD thesis delves into tsunami-induced forces on shorefront structures, leveraging both physical experiments and numerical simulations to enhance understanding and design improvements in coastal engineering. His current work includes numerical simulations of tsunami impacts and flow interactions with various structural models. 🌪️🔬

Awards

Prof. Vallam Sundar Best PhD Thesis Award (2023), Indian Society of Hydraulics (ISH) Best PhD Thesis Award (2023), GATE Qualification (2016), University Rank Holder in B.E. among colleges affiliated with Anna University, Chennai. 🏆🎖️

Publications

  1. Harish, S., Sriram, V., SchĂĽttrumpf, H., & Sannasiraj, S. A. (2021). Tsunami-like flow induced force on the structure: Prediction formulae for the horizontal force in quasi-steady flow phase. Coastal Engineering, 168, 103938.
  2. Harish, S., Sriram, V., SchĂĽttrumpf, H., & Sannasiraj, S. A. (2022). Tsunami-like flow induced forces on the structure: Dependence of the hydrodynamic force coefficients on Froude number and flow channel width. Coastal Engineering, 172, 104078.
  3. Harish, S., Sriram, V., SchĂĽttrumpf, H., & Sannasiraj, S. A. (2022). Tsunami-like Flow-Induced Forces on the Landward Structure behind a Vertical Seawall with and without Recurve Using OpenFOAM. Water, 14(13), 1986.
  4. Harish, S., Sriram, V., SchĂĽttrumpf, H., & Sannasiraj, S. A. (2022). Flow-structure interference effects with the surrounding structure in the choked quasi-steady condition of tsunami: Comparison with traditional obstruction approach. Applied Ocean Research, 126, 103255.
  5. Harish, S., Sriram, V., SchĂĽttrumpf, H., & Sannasiraj, S. A. (2024). Tsunami-like flow induced forces on the building with openings and orientation in the quasi-steady flow phase. Ocean Engineering, 301, 117337.

 

Mutiu Shola Bakare | Engineering | Best Researcher Award

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Mutiu Shola Bakare | Engineering | Best Researcher Award

Mutiu Shola Bakare, Kampala International University, Uganda, Uganda

Mutiu Shola Bakare is a PhD candidate in Electrical and Electronics Engineering at Kampala International University, Uganda (2022-present) 📚. He holds an M.Eng. from the University of Ilorin, Nigeria, and a B.Eng. from the Federal University of Technology Minna, Nigeria 🏫. As an Assistant Lecturer at Kampala International University, he specializes in electrical engineering subjects like Power Quality Management and Circuit Theory ⚡. His research focuses on renewable energy, smart grids, and energy management 🔋. Bakare has contributed to numerous publications, seminars, and conferences 🌍. He is proficient in MATLAB/Simulink and Microsoft Office 📊.

Publication profile

google scholar

Academic background

John is currently pursuing a Doctor of Philosophy (PhD) in Electrical and Electronics at Kampala International University, starting in 2022. He previously completed his Master of Engineering (M. Eng.) in Electrical and Electronics from the University of Ilorin, Nigeria, between 2017 and 2021. Prior to that, John earned a Bachelor of Engineering (B. Eng.) in Electrical and Computer Engineering from the Federal University of Technology Minna, Nigeria, graduating with a Second Class Upper Division in 2014. His academic journey showcases a robust foundation and continuous dedication to excellence in the field of electrical engineering. ⚡🔧

Experience

John Doe is an Assistant Lecturer at Kampala International University, Uganda, specializing in Electrical and Electronics Engineering since 2022. He teaches courses such as Electrical Installation and Maintenance, Power Generation, Transmission and Distribution, Circuit Theory, and Power Electronics. 📚 Previously, he was a Research Assistant at the University of Ilorin, Nigeria, focusing on Advanced Power and Green Energy Research from 2019 to 2022. 🌱 Prior to this, he tutored Physics and Further Mathematics at Government Day Secondary School (2018-2019). 🔧 His experience includes working as a Site Engineer at Thamar Engineering Company Limited (2015-2018), where he managed various electrical installations, including transformers and generators. ⚡

Research focus

Mutiu Shola Bakare is a prominent researcher focusing on smart grid technologies and energy management. His research primarily revolves around the development of intelligent systems for demand-side energy management, incorporating techniques such as fuzzy logic, ANFIS, and gene expression programming. He explores solutions for integrating hybrid energy sources, optimizing load forecasting, and enhancing the efficiency of grid-connected systems. Bakare’s work significantly contributes to the advancement of energy informatics and the performance evaluation of energy management systems, promoting sustainable and efficient energy usage in modern smart grids. 🔍

Publication top notes

A comprehensive overview on demand side energy management towards smart grids: challenges, solutions, and future direction

Development of fuzzy logic-based demand-side energy management system for hybrid energy sources

Performance Evaluation of Different Membership Function in Fuzzy Logic Based Short-Term Load Forecasting.

Simulation based testing and performance investigation of induction motor drives using matlab simulink

A hybrid long-term industrial electrical load forecasting model using optimized ANFIS with gene expression programming

PREDICTIVE ENERGY CONTROL FOR GRID-CONNECTED INDUSTRIAL PV-BATTERY SYSTEMS USING GEP-ANFIS

e-Prime-Advances in Electrical Engineering, Electronics and Energy

PERTANIKA JOURNAL OF SCIENCE AND TECHNOLOGY

Energy Reports