Abhijeet Das | Water Resources Engineering | Breakthrough Research Award

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Dr. Abhijeet Das | Water Resources Engineering | Breakthrough Research Award

Research Consultant at C. V. Raman Global University, India

Dr. Abhijeet Das is a seasoned Research Consultant in Water Resources and GIS with over 9 years and 10 months of focused experience in geospatial technologies, hydrological modeling, and environmental systems analysis. His expertise spans the evaluation of hydro-environmental vulnerabilities and climate variability impacts in Odisha’s major river basins—Mahanadi, Baitarani, and Brahmani. Utilizing a range of technologies from remote sensing, AI/ML, to cloud-based geospatial platforms, Dr. Das has delivered data-driven solutions for groundwater mapping, water quality prediction, flood risk analysis, and watershed management. He has authored more than 15 AICTE/UGC/Scopus-listed publications, significantly contributing to academic research and policy-level water governance. Dr. Das is known for his cross-disciplinary collaboration with government agencies and institutions and his leadership in GIS training and capacity building.

Professional Profile 

Scopus

Education Details

Dr. Abhijeet Das holds a strong academic background in civil and water resource engineering. He completed his Bachelor of Technology (B.Tech) in Civil Engineering from ABIT College, affiliated with BPUT, Rourkela, in 2015. He went on to pursue his Master of Technology (M.Tech) in Water Resource Engineering at the College of Engineering and Technology, Bhubaneswar, also under BPUT, graduating in 2017. Further advancing his specialization, he is currently pursuing a Ph.D. in Water Resource Engineering at C.V. Raman Global University (CGU), Bhubaneswar, Odisha, with research focused on hydrological modeling, GIS applications, and water quality assessment, expected to be completed in 2024.

Professional Experience

Dr. Abhijeet Das brings nearly a decade of hands-on professional experience in water resource engineering and GIS. He began his career as a GIS Analyst Intern at A.B. Consultancy in Bhubaneswar (2015–2017), where he worked on spatial data management, LiDAR analysis, and 3D city modeling. He then served as a Teaching Assistant at IGIT Sarang (2017–2019), focusing on agricultural time-series analysis, irrigation design, and watershed management using advanced GIS tools. From 2019 to 2022, he was a Teaching Assistant at the College of Engineering and Technology, Bhubaneswar, where he led GIS-based research and project execution, including quality assurance, scripting, and client coordination. Since July 2022, he has been working as a Research Consultant (GIS Expert) at Madhu Smita Design & Engineers Studio in Kolkata, specializing in hydrological and hydraulic modeling, flood risk analysis, remote sensing integration, and decision-support systems using platforms like SWAT, HEC-RAS, and Google Earth Engine, contributing significantly to water quality mapping and sustainable water resource planning across Eastern India.

Research Interests

Dr. Abhijeet Das’s research interests lie at the intersection of hydrology, environmental engineering, and geospatial technologies. He focuses on watershed hydrology, water resources engineering, and hydrological modeling, with a particular interest in hydrologic extremes such as droughts and floods. His work extensively explores the impacts of climate change on water systems, the Food-Energy-Water (FEW) nexus, and the application of remote sensing and Geographic Information Systems (GIS) in environmental monitoring. Additionally, he is deeply engaged in geoinformatics, numerical and simulation-optimization modeling, and the use of artificial neural networks, fuzzy logic, and machine learning techniques for water quality control and environmental impact assessment.

Awards & Honors

Dr. Abhijeet Das has been consistently recognized for his academic excellence and professional contributions through numerous awards, honors, and prestigious selections. He has been invited to participate in over 20 high-impact national and international Faculty Development Programs (FDPs), Short-Term Training Programs (STTPs), and specialized workshops organized by reputed institutions such as IIT Madras, IIT Roorkee, NIT Jamshedpur, NIT Delhi, and the Central Water and Power Research Station under the Ministry of Jal Shakti. His selection for ATAL FDPs, ISTE-approved STTPs, and international conferences such as the ICGCE 2024 in Canada underscore his expertise and thought leadership in water resource engineering and geospatial science. These honors reflect his active engagement in cutting-edge research, commitment to continuous learning, and growing recognition in the academic and professional hydrology community.

Publications Top Noted

  • [2025] A data-driven approach utilizing machine learning (ML) and geographical information system (GIS)-based time series analysis with data augmentation for water quality assessment in Mahanadi River Basin, Odisha, India. Discover Sustainability.

  • [2025] Bioplastics: A sustainable alternative or a hidden microplastic threat? Innovative Infrastructure Solutions.

  • [2025] Surface water quality assessment for drinking and pollution source characterization: A water quality index, GIS approach, and performance evaluation utilizing machine learning analysis. Desalination and Water Treatment.

  • [2025] Geographical Information System–driven intelligent surface water quality assessment for enhanced drinking and irrigation purposes in Brahmani River, Odisha (India). Environmental Monitoring and Assessment.
    Citations: 3

  • [2025] Spatiotemporal evaluation and impact of superficial factors on surface water quality for drinking using innovative techniques in Mahanadi River Basin, Odisha, India. Journal of Hydrology: Regional Studies.

  • [2025] Harnessing biotechnology for sustainable wastewater treatment and circular economy. Earth Systems and Environment.

  • [2025] Applying the water quality indices, geographical information system, and advanced decision-making techniques to assess the suitability of surface water for drinking purposes in Brahmani River Basin (BRB), Odisha. Environmental Science and Pollution Research.
    Citations: 4

Conclusion

Dr. Abhijeet Das is an emerging scholar and practitioner in hydro-spatial sciences who blends technical innovation with practical relevance. His work not only informs the academic ecosystem but also actively supports regional water governance, climate adaptation, and sustainable resource planning. With strong interdisciplinary grounding and a growing international footprint, he is poised to make lasting contributions to water security and environmental resilience in India and globally.

Wenfeng Du | Blue-Green Infrastructure | Best Researcher Award

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Prof. Dr. Wenfeng Du | Blue-Green Infrastructure | Best Researcher Award

Prof. Dr. Wenfeng Du | Blue-Green Infrastructure Director at Henan University, China

Professor Wenfeng Du is a distinguished academic, researcher, and innovator in the field of structural engineering, currently serving as a professor and doctoral supervisor at Henan University. He holds a Ph.D. from Zhejiang University and has emerged as a national leader in advanced structural design, steel and spatial structures, intelligent design, and 3D printing manufacturing. With over 180 publications (including 50 SCI-indexed papers), 80+ patents, and authorship of 7 books and standards, his work has significantly advanced the theoretical and practical foundations of civil engineering. As Director of several key research centers and teams, he has secured over 4 million RMB in research funding from prestigious bodies like NSFC, while mentoring dozens of graduate and postdoctoral researchers who have gone on to receive national-level accolades. Recognized with numerous honors such as the May Fourth Youth Medal, Wisdom Teaching Star, and the Outstanding Young Talent of Henan Province, Professor Du has also played an instrumental role in policy-making and standardization for prefabricated construction. His interdisciplinary and forward-looking contributions continue to shape the future of intelligent structural systems in China and beyond.

Professional Profile 

🎓 Education Background of Wenfeng Du

Professor Wenfeng Du has a strong and focused academic foundation in Structural Engineering. He earned his Doctor of Philosophy (Ph.D.) in Structural Engineering from Zhejiang University in 2007, following a Master of Science in the same field from the same institution in 2004. His academic journey began with a Bachelor of Science degree in Structural Engineering from Northeast Electric Power University in 2001. This rigorous educational path laid the groundwork for his specialization in steel and spatial structures, structural optimization, and intelligent design, and continues to support his cutting-edge research and academic leadership.

💼 Professional Experience of Wenfeng Du

Professor Wenfeng Du has accumulated over 18 years of progressive academic and research experience at Henan University, where he currently serves as a Professor and Doctoral Supervisor in the School of Civil Engineering and Architecture. He began his academic career as a Lecturer in 2007, was promoted to Associate Professor in 2009, and attained the rank of Professor by 2013. In addition to his university roles, he is also the Director of multiple high-impact research centers, including the Steel and Spatial Structures Research Institute and the Henan Provincial Prefabricated Construction Engineering Technology Research Center. His international exposure includes a term as a Visiting Scholar at the University of Alabama in 2014. Beyond academia, Professor Du actively contributes to national engineering societies, serves on editorial boards, and holds leadership roles in professional associations, solidifying his influence in both research and policy-making in structural engineering.

🔬 Research Interests of Wenfeng Du

Professor Wenfeng Du focuses his research on advancing the frontiers of Structural Engineering, with a strong emphasis on steel and spatial structures, structural optimization, and intelligent design technologies. His work explores the behavior, performance, and optimization of complex structural systems, aiming to enhance safety, efficiency, and sustainability in construction. He is a pioneer in integrating artificial intelligence and generative design into structural analysis and has made significant contributions to 3D printing and additive manufacturing of high-performance structural components. His research also includes innovative applications in topology optimization, deep learning, and prefabricated building systems, positioning him at the intersection of civil engineering and smart construction technologies.

🏅 Awards and Honors of Wenfeng Du

Professor Wenfeng Du has been widely recognized for his exceptional contributions to research, education, and innovation in structural engineering. His accolades include prestigious titles such as the “Wisdom Teaching Star” awarded by China’s Ministry of Education and the “May Fourth Youth Medal” from Henan University. He has also been honored as an “Outstanding Young Talent”, “High-Level Talent”, and “Outstanding Young Scientific and Technological Expert” by Henan Province. Professor Du has received multiple teaching excellence awards, including “Most Beautiful Teacher”, “Model of Teacher Ethics”, and “Outstanding Teacher of Kaifeng City”. These honors reflect not only his research excellence but also his dedication to mentorship, ethical leadership, and educational impact within academia and the broader engineering community.

✅Conclusion

Professor Wenfeng Du is not only eminently qualified, but also stands out as a model academic leader and innovator in the structural engineering community. His record of prolific publication, pioneering research in intelligent design and 3D printing, commitment to mentoring, and leadership in institutional and provincial roles strongly align with the values and expectations of the Best Researcher Award.

📚 Publications top notes 

  1. Title: Robust form finding of tree-like structure by improved slime mould algorithm
    Authors: [Not fully listed; includes Wenfeng Du]
    Journal: Engineering Structures
    Year: 2025
    Citations: 0

  2. Title: The Structural Configuration and Mechanical Performance of a New Cable-Supported Reciprocal Structure
    Authors: [Not fully listed; includes Wenfeng Du]
    Journal: Buildings
    Year: 2025
    Citations: 0

  3. Title: The influence of screen mesh interception device on hydrogen-oxygen explosion in closed detonation tube
    Authors: [Not fully listed; includes Wenfeng Du]
    Journal: International Journal of Hydrogen Energy
    Year: 2025
    Citations: 0

  4. Title: Collaborative form-finding of multiple treelike column structures based on improved numerical inverse hanging method
    Authors: [Not fully listed; includes Wenfeng Du]
    Journal: Journal of Constructional Steel Research
    Year: 2025
    Citations: 1

  5. Title: Research on topology optimization of steel joints based on improved bi-directional progressive structural optimization method
    Authors: [Not fully listed; includes Wenfeng Du]
    Journal: Jisuan Lixue Xuebao (Chinese Journal of Computational Mechanics)
    Year: 2024
    Citations: 0

  6. Title: New shape optimization method for tree structures based on BP neural network
    Authors: [Not fully listed; includes Wen
    Journal: Journal of Constructional Steel Research
    Year: 2024
    Citations: 3

  7. Title: Experimental investigation and simulation analysis of cast-steel joints under vertical pressure
    Authors: [Not fully listed; includes Wenfeng Du]
    Journal: Scientific Reports
    Year: 2024
    Citations: 1

  8. Title: Enhancing energy harvesting through hybrid bluff body at a predefined angle of attack coupling vortex-induced vibration and galloping
    Authors: [Not fully listed; includes Wenfeng Du]
    Journal: Ocean Engineering
    Year: 2024
    Citations: 2

 

Tsz Lok Wan | Postdoctoral Fellow | Best Researcher Award

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Dr. Tsz Lok Wan | Water-Energy Nexus | Best Researcher Award

Postdoctoral Fellow at University of Alberta, Canada

Dr. Tsz Lok Wan is a highly accomplished researcher specializing in computational materials science, with a focus on clean energy, environmental sustainability, and advanced catalysis. He holds a Ph.D. from Queensland University of Technology, where he earned multiple prestigious scholarships and the High Achiever Award. His research integrates chemistry, physics, and engineering to design and simulate innovative materials using advanced first-principles calculations and modeling tools. Dr. Wan has authored several high-impact publications in top-tier journals such as Nanoscale, Advanced Materials Technologies, and Journal of Materials Chemistry A, contributing significantly to the understanding of ferroelectric materials and their role in energy and environmental applications. With international research experience across Australia, Hong Kong, and Canada, and active participation in major scientific conferences, he demonstrates strong global engagement and academic leadership. Currently serving as a Young Editorial Board Member at the University of Alberta, Dr. Wan exemplifies the qualities of a forward-thinking and impactful researcher, making him a strong candidate for the Best Researcher Award.

Professional Profile 

Education

Dr. Tsz Lok Wan has a robust academic background in engineering and materials science, beginning with a Bachelor of Engineering (Honours) in Mechanical Engineering from Queensland University of Technology, where he conducted theoretical investigations into the mechanical properties of graphene and carbon nanotube-based nanomaterials. He further advanced his expertise by completing a Master of Engineering Science in Mechanical Engineering at The University of Queensland, focusing his thesis on characterizing the surface force of nanowires. Building on this foundation, he earned a Doctor of Philosophy from Queensland University of Technology, where his research centered on ferroelectric-controllable gas capture and catalysis for environmental and energy applications. His doctoral studies were supported by several prestigious scholarships, including the ARC Discovery Scholarship, QUT HDR Tuition Fee Sponsorship, and the Faculty Write-Up Scholarship, and culminated in receiving the High Achiever Award in 2022 for outstanding academic performance.

Professional Experience

Dr. Tsz Lok Wan has accumulated diverse professional experience across academia and industry, reflecting a strong foundation in research, innovation, and engineering practice. He is currently serving as a Young Editorial Board Member at the University of Alberta’s Department of Civil and Environmental Engineering, contributing to academic leadership and scholarly review. In parallel, he is involved in a carbon neutralization research initiative, further aligning his work with global sustainability goals. Previously, he held a postdoctoral fellowship at the Hong Kong Polytechnic University in the Department of Biomedical Engineering, where he contributed to advanced image analysis and software development for medical applications. His earlier experiences include research internships at the Chinese University of Hong Kong and the Hong Kong Polytechnic University, where he worked on electrocardiograph circuit development and 3D ultrasound image analysis, respectively. Additionally, he gained hands-on engineering experience during an internship at Po Shing Construction Limited, where he calibrated engineering drawings and supported site workflow procedures. These roles have collectively equipped Dr. Wan with a blend of theoretical acumen and practical skills across computational modeling, biomedical engineering, and construction technology.

Research Interest

Dr. Tsz Lok Wan’s research interests lie at the dynamic intersection of chemistry, physics, and engineering, with a primary focus on the development of advanced materials for clean energy, environmental sustainability, and electronic applications. He is particularly interested in the use of computational modeling and first-principles calculations, such as Density Functional Theory (DFT) and Ab Initio Molecular Dynamics (AIMD), to understand and predict the behavior of materials at the atomic scale. His work explores ferroelectric-controlled catalysis, gas adsorption, and the design of two-dimensional (2D) heterostructures for applications such as hydrogen evolution and nitrogen reduction reactions. By simulating chemical reactions and material interactions that are difficult to observe experimentally, Dr. Wan aims to accelerate the discovery of efficient, sustainable catalysts and contribute to the global transition toward low-carbon technologies.

Award and Honor

Dr. Tsz Lok Wan has received several prestigious awards and honors in recognition of his academic excellence and research contributions. During his doctoral studies at Queensland University of Technology, he was the recipient of the ARC Discovery Scholarship, the QUT HDR Tuition Fee Sponsorship, and the Faculty Write-Up Scholarship, reflecting his strong academic standing and research potential. In 2022, he was honored with the High Achiever Award, acknowledging his outstanding performance and impact in the field of computational materials science. These accolades underscore his dedication to advancing knowledge in clean energy and environmental applications through innovative theoretical research.

Conclusion

Tsz Lok Wan demonstrates exemplary academic performance, technical proficiency, and research productivity in high-impact areas like sustainable catalysis and clean energy materials. While there is room to strengthen leadership and translational aspects of his research, his consistent contributions, especially in computational materials science, make him a highly suitable candidate for the Best Researcher Award, particularly in the early-to-mid career category.

Publications Top Noted

  • Title: Catalysis based on ferroelectrics: controllable chemical reaction with boosted efficiency
    Authors: TL Wan, L Ge, Y Pan, Q Yuan, L Liu, S Sarina, L Kou
    Year: 2021
    Citation: 50

  • Title: Rational design of 2D ferroelectric heterogeneous catalysts for controllable hydrogen evolution reaction
    Authors: TL Wan, J Liu, X Tan, T Liao, Y Gu, A Du, S Smith, L Kou
    Year: 2022
    Citation: 15

  • Title: Ferroelectric Controlled Gas Adsorption in Doped Graphene/In2Se3 Heterostructure
    Authors: TL Wan, J Shang, Y Gu, L Kou
    Year: 2022
    Citation: 12

  • Title: Density Functional Theory Studies on Magnetic Manipulation in NiI2 Layers
    Authors: M Liu, L Zhang, J Liu, TL Wan, A Du, Y Gu, L Kou
    Year: 2023
    Citation: 11

  • Title: Synergistic engineering of heterovalent states and sulfur-vacancy defects in Co/O co-doped ZnS for enhanced photocatalytic hydrogen evolution
    Authors: L Chen, B Wu, X Wu, DH Kuo, TL Wan, B Yang, P Zhang, Z Su, J Lin, D Lu, X Chen
    Year: 2025
    Citation: 7

  • Title: Bimetallic conjugated metal–organic frameworks as bifunctional electrocatalysts for overall water splitting
    Authors: TL Wan, J Liu, X Tan, M Liu, S Smith, L Kou
    Year: 2023
    Citation: 4

  • Title: Enhanced Activity and Selectivity for Nitrogen Reduction Reaction in Electrides‐Based Heterostructures: A DFT Computational Study
    Authors: H Wijesingha, TL Wan, J Liu, L Kou
    Year: 2024
    Citation: 3

  • Title: Magnetic skyrmions and their manipulations in a 2D multiferroic CuCrP₂Te₆ monolayer
    Authors: M Liu, TL Wan, K Dou, L Zhang, W Sun, J Jiang, Y Ma, Y Gu, L Kou
    Year: 2024
    Citation: 3

  • Title: Mo-cation/O-anion doping strategy for creating vacancy defects and cation multivalency to enhance the hydrogen evolution of ZnS under visible light
    Authors: X Wu, TL Wan, B Yang, DH Kuo, P Zhang, M Liu, SN Adawara, D Fang Lu, J Lin, X Chen
    Year: 2025
    Citation: Not available yet

  • Title: Ferroelectric controllable gas capture and catalysis for environmental and energy application (PhD Thesis)
    Author: TL Wan
    Year: 2024
    Citation: Not applicable

  • Title: Ferroelectric Controlled Gas Adsorption in Doped Graphene/In2Se3 Heterostructure (Duplicate journal entry in Adv. Mater. Technol.)
    Authors: TL Wan, J Shang, Y Gu, L Kou
    Year: 2022
    Citation: Not listed separately (already counted above)

  • Title: Characterizing of Surface Forces of Nanowires (Master’s Thesis)
    Author: TL Wan
    Year: 2020
    Citation: Not applicable

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Mohamed Saber | Hydropower Systems | Best Researcher Award

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Mr. Mohamed Saber | Hydropower Systems | Best Researcher Award

Lecturer assistant at Zagazig University, Egypt

Mohamed Saber Abdel-Moaty is a Lecturer Assistant in the Department of Water and Water Structures Engineering at Zagazig University, Egypt, and a Civil Hydraulic Engineer at the university’s Irrigation and Hydraulics Lab. He holds a B.Sc. in Civil Engineering with honors and is currently completing his M.Sc. in Water and Water Structures Engineering, focusing on energy harvesting using water wheels at low-head structures. His research interests center around sustainable hydraulic systems and renewable energy applications. He has published in the high-impact journal Renewable Energy, with work highlighting innovative designs for pico hydropower generation. Mohamed is proficient in CFD simulations using ANSYS Fluent and FLOW-3D, and skilled in structural design software like SAP2000 and ETABS. His professional experience includes academic teaching, computational and experimental research, structural design freelancing, and co-founding a general contracting company. He also gained international engineering experience through an intensive internship with AECOM in Qatar. Mohamed combines strong technical capabilities, academic dedication, and entrepreneurial spirit, making him a promising early-career researcher in the field of civil and hydraulic engineering.

Professional Profile 

Education

Mohamed Saber holds a strong academ ic background in civil and hydraulic engineering. He earned his Bachelor of Science in Civil Engineering from Zagazig University in 2019, graduating with an Excellent with Honors and an impressive overall grade of 88.65%. Building on his undergraduate success, he is currently pursuing a Master of Science in Water and Water Structures Engineering at the same university, with a research focus on sustainable energy, specifically the investigation of energy harvesting using water wheels at low-head structures. His academic journey reflects a consistent commitment to innovation, technical excellence, and the advancement of renewable energy solutions within hydraulic systems.

Professional Experience

Mohamed Saber has accumulated diverse professional experience in both academic and practical engineering settings since 2019. As a Lecturer Assistant in the Department of Water and Water Structures Engineering at Zagazig University, he has supported undergraduate courses, supervised lab work, and guided students in graduation projects. Concurrently, he has served as a Civil Hydraulic Engineer at the university’s Irrigation and Hydraulics Lab, where he conducted experimental and computational research focused on open channel flow and hydraulic structures. Beyond academia, Mohamed has worked as a freelance structural design engineer, delivering structural analysis and construction drawings for residential and commercial buildings using software such as SAP2000, ETABS, and SAFE. He also gained hands-on experience as a General Contracting Engineer, managing site activities, coordinating with subcontractors, and ensuring quality control. His technical expertise extends to freelance CFD engineering, where he performed simulations using ANSYS Fluent for fluid flow and heat transfer analysis. Additionally, Mohamed is the co-founder of CIVIC, a construction company offering design-build services, demonstrating his entrepreneurial initiative and leadership within the engineering industry.

Research Interest

Mohamed Saber’s research interests lie at the intersection of hydraulic engineering, renewable energy, and computational fluid dynamics. He is particularly focused on the development of sustainable energy solutions through the integration of hydraulic structures and energy harvesting technologies, as demonstrated by his M.Sc. thesis on energy generation using water wheels at low-head structures. His work aims to enhance the efficiency and applicability of pico and micro hydropower systems, especially in rural or developing regions. Mohamed is also deeply engaged in numerical modeling and simulation, utilizing CFD tools like ANSYS Fluent and FLOW-3D to analyze fluid behavior, optimize hydraulic performance, and support experimental findings. His broader research vision involves improving water infrastructure through innovative, environmentally friendly engineering approaches that align with global sustainability goals.

Award and Honor

Mohamed Saber has been recognized for his academic excellence and professional commitment throughout his early career. He graduated with a B.Sc. in Civil Engineering from Zagazig University with an Excellent with Honors distinction, achieving a high academic standing with an overall grade . His innovative research on renewable energy applications in hydraulic systems has led to the publication of a peer-reviewed article in the prestigious journal Renewable Energy, reflecting both the quality and relevance of his work. While he is still in the early stages of his research career, his strong academic performance, publication record, and involvement in significant engineering projects position him as a promising candidate for future academic and professional awards.

Conclusion

Recommendation: Mohammed Saber is a strong emerging researcher and could be a good candidate for an Early Career or Young Researcher Award, rather than a “Best Researcher Award” in a general or senior category. If the award focuses on innovation, potential, and sustainability-focused research in early-stage academics, then he is a highly suitable nominee..

Publications Top Noted

Title:
Techno-economic Assessment of the Dethridge Waterwheel under Sluice Gates in a Novel Design for Pico Hydropower Generation

Authors:
Mohamed Saber, Gamal Abdelall, Riham Ezzeldin, Ahmed Farouk AbdelGawad, Reda Ragab

Year:
2024

Journal:
Renewable Energy, Volume 234, Article 121206

DOI:
10.1016/j.renene.2024.121206

ISSN:
0960-1481

Citation (APA Style):
Saber, M., Abdelall, G., Ezzeldin, R., AbdelGawad, A. F., & Ragab, R. (2024). Techno-economic assessment of the Dethridge waterwheel under sluice gates in a novel design for pico hydropower generation. Renewable Energy, 234, 121206. https://doi.org/10.1016/j.renene.2024.121206

Zeling Zhao | Sustainable Water Use | Best Researcher Award

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Dr. Zeling Zhao | Sustainable Water Use | Best Researcher Award

College of Mechanical & Energy Engineering, Beijing University of Technology, china

Zeling Zhao is a dedicated researcher in the field of mechanical engineering, specializing in material plastic forming and precision hydraulic transmission. Affiliated with the College of Mechanical & Energy Engineering at Beijing University of Technology, Zhao has contributed to the conservation and efficient utilization of non-ferrous metal resources through innovative research on titanium chip recycling. Their work includes the development of a double-toothed roller crusher, which has resulted in a published patent and two peer-reviewed SCI journal articles. While Zhao’s research demonstrates clear technical depth and industrial relevance, expanding academic output, collaborations, and professional engagement would further strengthen their research profile and broader impact in the field.

Professional Profile 

Education

Zeling Zhao has an academic background in mechanical engineering, with a focus on material plastic forming and precision hydraulic transmission. Their education has provided a strong foundation in the principles of mechanical systems and advanced manufacturing processes, equipping them with the technical skills necessary for conducting specialized research in material forming technologies. This educational grounding has enabled Zhao to pursue innovative work in the development of equipment for recycling titanium scraps, aligning with both industrial application and sustainable engineering practices.

Professional Experience

Zeling Zhao has professional experience rooted in academic research within the field of mechanical engineering, particularly focusing on material plastic forming and precision hydraulic transmission. Their work at the College of Mechanical & Energy Engineering, Beijing University of Technology, has centered on the development of innovative solutions for the efficient recycling of titanium waste. Notably, Zhao has led research on the design and optimization of a double-toothed roller crusher, contributing to both theoretical advancements and practical engineering applications. Although their profile does not currently include consultancy or industry project experience, Zhao’s contributions reflect a strong commitment to applied research and technological innovation.

Research Interest

Zeling Zhao’s research interests lie in the areas of material plastic forming and precision hydraulic transmission, with a particular focus on the recycling and utilization of non-ferrous metal resources. Their work aims to develop efficient mechanical solutions for processing industrial waste, such as titanium chips, through advanced forming techniques and equipment design. Zhao is especially interested in the optimization of crushing processes and the simulation of material behavior under mechanical stress, as demonstrated in their study and development of a double-toothed roller crusher. These interests reflect a strong commitment to sustainable engineering practices and the advancement of manufacturing technologies.

Award and Honor

As of now, Zeling Zhao has not listed any formal awards or honors in their academic or professional profile. However, their contributions to the field of mechanical engineering—particularly through the publication of SCI-indexed journal articles and the development of a patented double-toothed roller crusher for titanium chip recycling—reflect a growing recognition of their research potential. Zhao’s work demonstrates innovation and relevance, positioning them as a promising candidate for future awards and honors in engineering research and sustainable technology development.

Conclusion

Zeling Zhao shows promising potential as a researcher with a clear technical focus and innovative contributions, particularly in materials engineering and sustainability-focused applications. However, for the Best Researcher Award, which typically recognizes outstanding and wide-reaching academic and research contributions, Zhao’s current profile may be considered emerging rather than established.

Publications Top Noted

  1. Finite Element Simulation and Optimization of Process Parameters for Titanium Chip Crusher

    • Authors: Jianghua Huang; Zeling Zhao; Xiaomin Huang; Tao Liu; Ji Hongchao

    • Year: 2025

    • Journal: Materials

    • DOI: 10.3390/ma18091894

    • Citation: Multidisciplinary Digital Publishing Institute

  1. Mechanical Properties and Fracture Behavior of a TC4 Titanium Alloy Sheet

    • Authors: Zeling Zhao; Ji Hongchao; Yingzhuo Zhong; Chun Han; Xuefeng Tang

    • Year: 2022

    • Journal: Materials

    • DOI: 10.3390/ma15238589

    • Citation: Part of ISSN: 1996-1944

  1. Johnson-Cook Model for TC4 Titanium Alloy Based on Compression Experiment

    • Author: Zeling Zhao

    • Year: Not specified (likely 2023 based on sequence)

    • Journal: Metalurgija

    • Citation: Zeling Zhao (Preferred Source)