Wenliang Yin | Sustainable Development | Best Researcher Award

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Assoc. Prof. Dr. Wenliang Yin | Sustainable Development | Best Researcher Award

Chairman Of Department at Shandong University of Technology, China

Wenliang Yin is an associate professor at the School of Electrical and Electronic Engineering at Shandong University of Technology (SDUT), China. With a robust background in renewable energy systems and wind power engineering, he has made significant contributions to the development of hybrid wind power generation systems integrated with hydrogen storage technologies. As a recipient of multiple prestigious grants and awards, he has positioned himself as a leading early-career researcher in the intersection of mechanical transmission, electrical control, and renewable energy integration.

Profile

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Education

Dr. Yin received his Ph.D. in Energy Power and Mechanical Engineering from North China Electric Power University (NCEPU), Beijing, in 2019, following a direct transfer from his Master’s program due to outstanding academic performance. During his doctoral studies, he also served as a visiting Ph.D. candidate at the University of New South Wales, Sydney, from 2017 to 2018, where he deepened his knowledge in electrical engineering and control systems. His undergraduate and initial graduate training were also completed at NCEPU, where he built a solid foundation in energy systems and mechanical engineering.

Experience

Since joining SDUT in 2019, Dr. Yin has advanced from lecturer to associate professor and currently supervises Master’s research students while also coordinating and lecturing undergraduate courses such as New Energy Power Generation Technology and Condition Monitoring. In parallel, he was appointed a Youth Outstanding Researcher in Shandong Province, a recognition granted to top academic talents. Prior to this, his early career included extensive involvement in national-level research programs focused on wind turbine systems and energy storage technologies.

Research Interests

Dr. Yin’s research focuses on the dynamics, modeling, and optimization of wind power generation systems, especially those employing speed regulating differential mechanisms (SRDM). His work also explores robust control strategies for hybrid-drive wind turbines integrated with hydrogen energy storage systems to enhance grid-friendly operation. His interests extend to mechanical vibration theory, electrical machine control, and system-level energy optimization. He is particularly known for developing simulation models and experimental verifications of hybrid wind-hydrogen systems, bridging theoretical concepts with practical engineering applications.

Awards

Dr. Yin has been recognized with several prestigious honors, including the Excellent Doctoral Dissertation Award from NCEPU (Top 5%) in 2019 and the Youth Outstanding Researcher Award by the Shandong provincial government (Top 1%) the same year. He has also been awarded the National Teacher Qualification Certificate and was named an Excellent Teacher by SDUT in 2021 (Top 1%). Additionally, he has received multiple first-class scholarships throughout his academic career and was acknowledged as an Excellent Reviewer at IEEE I&CPS Asia 2020. His supervision excellence is also evidenced by two undergraduate theses being named among SDUT’s top 2%.

Publications

Dr. Yin has authored numerous academic works, among which the following seven represent key contributions to his field:

Yin et al., “Advanced Power Curve Modeling for Wind Turbines: A Multivariable Approach with SGBRT and Grey Wolf Optimization,” Energy Conversion and Management, 2025 – cited for its advanced prediction methodology in wind energy performance (SJR Q1; IF 9.9).

Jia, Yin et al., “Performance improvement of active distribution networks…,” CSEE Journal of Power and Energy Systems (Online, 2025) – noted for control strategies in hybrid-drive farms (SJR Q2; IF 6.9).

Yin, Rui, “Research on dynamic characteristics…,” Acta Energiae Solaris Sinica, 2021 – studied mechanical dynamics in SRDM-based systems (SJR Q4; IF 1.069).

Yin et al., “Modeling and simulation analysis of 1.5 MW wind turbine…,” Chinese Science Paper Online, 2016 – explored hydrogen integration in turbines.

Yin et al., “Simulation analysis of wind turbine hydrogen production system…,” Chinese Science Paper Online, 2016 – introduced SRDM-based hydrogen production modeling.

Yin et al., “Analysis of a front-end speed regulation wind turbine with hydrogen storage system,” IEEE I&CPS Asia 2020 – presented hybrid drive designs (IEEE/EI indexed).

Wang, Yin et al., “Fractional-order sliding mode control…,” Journal of Modern Power Systems and Clean Energy, 2023 – focused on voltage stability in hybrid turbines (SJR Q1; IF 6.3).

Conclusion

With a strong academic pedigree, impressive publication record, and a track record of successful project leadership, Dr. Wenliang Yin has emerged as a promising researcher in the fields of wind energy systems and renewable energy integration. His work bridges mechanical design and electrical control, making him a unique contributor to next-generation energy technologies. His excellence in supervision, innovation, and academic service illustrates not only his technical proficiency but also his commitment to advancing the renewable energy discipline in both research and education.

Samira Binte Saif | Sustainable Development | Best Scholar Award

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Ms. Samira Binte Saif | Sustainable Development | Best Scholar Award

Senior Officer at Islami Bank Bangladesh PLC, Bangladesh

Samira Binte Saif is a seasoned banking professional with a strong academic foundation and extensive experience in finance, research, and teaching. Currently serving as a Senior Officer at Islami Bank Bangladesh PLC, she has a diverse educational background encompassing economics, statistics, business administration, and Islamic finance. With a keen interest in economic research, entrepreneurship, and financial systems, she has made significant contributions through her publications and academic engagements. Her dedication to knowledge and research has earned her multiple prestigious awards, making her a recognized figure in the field of economics and finance.

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Education

Samira Binte Saif holds multiple advanced degrees across various disciplines. She earned her Master’s in Economics (Entrepreneurship Economics) from the University of Dhaka in 2022, an MBA in International Marketing from Wrexham Glyndwr University, UK (2021), and a Master’s in Statistics, Bio-Statistics & Informatics from the University of Dhaka (2008). Additionally, she holds a Bachelor’s degree in Business Administration (Human Resource Management) from the Royal University of Dhaka (2019) and a Bachelor’s in Statistics from the University of Dhaka (2006). Her professional qualifications include a Diploma in Accounting & Business from ACCA, UK (2016) and multiple postgraduate diplomas in finance, risk management, supply chain, and Islamic banking.

Experience

With a career spanning over a decade in the banking sector, Samira has developed expertise in finance, risk management, and compliance. She currently holds the position of Senior Officer at Islami Bank Bangladesh PLC, where she plays a crucial role in financial analysis, customer service, and operational management. Alongside her professional career, she has been actively involved in academia, serving as a Senior Instructor at the Academy of Business Professionals (ABP), Dhaka. Furthermore, she contributes to the research community as a reviewer for IGI Global Publication and Academia Edu and serves as an Editorial Board Member at DK International Research Foundation.

Research Interests

Samira’s research interests encompass a wide range of topics, including entrepreneurship economics, international trade, small and medium enterprises (SMEs), financial technology (FinTech), and Islamic finance. She has conducted extensive studies on the impact of technology-based entrepreneurship, economic performance, trade policies, and digital transformation in Bangladesh. Her work aims to provide insights into economic sustainability, banking efficiency, and the role of artificial intelligence in customer service.

Awards & Recognitions

Samira has been the recipient of numerous prestigious research and academic awards, highlighting her contributions to economics and finance. Some of her notable recognitions include:

  • Vivekananda Prize – Institute of Researcher (India, 2024)

  • Young Fellow Award – Institute of Researcher (India, 2024)

  • Best Researcher of the Year Award (Economics, Entrepreneurship & MIS) – Asia Research Award (2024)

  • Best Researcher Award in Economics & MIS – ISSN International Research Award (2024)

  • Research Excellence Award – International American Council for Research and Development (2024)

  • Cross-Disciplinary Innovation Award – World Top Scientists Awards (2024)

  • Women Researcher Award (Econometrics & Finance) – International Research Awards (Science Father, 2024)

Publications

Samira has authored several research papers published in reputable journals. Some of her notable publications include:

“Technology-Based Entrepreneurship and Its Prospect in Bangladesh”International Journal of Trade and Commerce-IIARTC (2021)

“A Collaborative Study of Foreign Trade and Economic Performance of India with Southeast Asian Countries”IGI Global Publication (2021)

“International Organization’s Humanitarian Coordination and Activities in the Sector of Micro, Medium, and Small Enterprises in Bangladesh”International Journal of Trade and Commerce-IIARTC (2022)

“Prospect, Barriers, and Export Performances of Small Medium Enterprises in Bangladesh”International Journal of Trade and Commerce-IIARTC (2023)

“Present Status of Blue, Green, and Digital Economy of Bangladesh: Challenges & Prospects”International Journal of Trade and Commerce-IIARTC (2024)

“Analysis of the Role of Artificial Intelligence in the Customer Care Service of Islami Bank Bangladesh PLC Using TAM”Indo American Journal of Multidisciplinary Research and Review (2024)

“Impact of Tannery Waste on Social-Ecological Balance and Sustainable Development of Bangladesh”Indo American Journal of Multidisciplinary Research and Review (2024)

Conclusion

Based on academic achievements, research contributions, global recognitions, and professional engagements, Samira Binte Saif is an exemplary candidate for the Best Scholar Award. Her interdisciplinary research, commitment to innovation, and impact on the academic community make her a deserving recipient of this prestigious honor

 

Tao Zhu | Air Pollution Control | Best Researcher Award China

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Prof Tao Zhu | Air pollution control | Best Researcher Award

Director, University of Mining & Technology-Beijing, China

Tao Zhu, Ph.D., is a distinguished professor and director of the Institute of Atmospheric Environment Management and Pollution Control at China University of Mining and Technology (Beijing). He has authored over 100 research papers, including more than 30 SCI-indexed publications in renowned journals such as Environmental Science & Technology and Journal of Hazardous Materials. Dr. Zhu has applied for 30 patents in the past five years, with over 10 authorized and six successfully implemented in industrial applications. He has also published eight books, including four monographs. His contributions to air pollution control include the development of plasma-based treatment technologies and the co-processing of PM2.5 and heavy metals. He has led numerous national and industrial projects, generating significant economic and environmental impacts. His work in ultra-high-temperature plasma gasification and hazardous waste treatment has been widely recognized.

PROFESSIONAL PROFILE

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EDUCATION

🎓 Ph.D. in Environmental Engineering – China University of Mining and Technology (Beijing)
🎓 Master’s in Environmental Science – China University of Mining and Technology (Beijing)
🎓 Bachelor’s in Chemical Engineering – China University of Mining and Technology (Beijing)

Dr. Tao Zhu’s academic journey has been marked by a focus on air pollution control, plasma catalysis, and sustainable environmental technologies. His doctoral research contributed to the advancement of plasma-assisted air pollution mitigation techniques. Through rigorous academic training, he developed expertise in non-thermal plasma technology, single-atom catalysis, and volatile organic compound (VOC) decomposition. His educational background laid the foundation for his groundbreaking work in environmental protection and atmospheric pollution control.

EXPERIENCE

👨‍🏫 Professor & Director – Institute of Atmospheric Environment Management and Pollution Control, CUMT (Beijing)
🔬 Principal Investigator – 4 National Vertical Projects, 15 Ministry-Level Projects, 20+ Industrial Projects
🛠️ Technology Developer – Developed three-stage plasma treatment technology for industrial air pollution control
🌍 Environmental Consultant – Led hazardous waste management projects using plasma gasification
📖 Author & Researcher – Published over 100 papers and eight books on environmental science and pollution control

Dr. Zhu has pioneered several cutting-edge environmental technologies, contributing to academia and industry through his extensive research, project leadership, and consulting efforts. His plasma-based pollution control solutions have been implemented in large-scale environmental projects, significantly impacting China’s industrial waste management and air quality improvement.

AWARDS & HONORS

🏆 Outstanding Talent of the New Century – China
🏆 Outstanding Talent Award – Beijing
🏆 Sun Yuezaki Energy Science & Technology Award – National Science and Technology Development Foundation
🏆 Young Science & Technology Award – Chinese Society of Environmental Sciences
🏆 3 Provincial & Ministerial Science & Technology Progress Awards (First Completer)

Dr. Zhu’s pioneering research has been recognized nationally and internationally. His contributions to environmental engineering, particularly in air pollution control and plasma-based treatment methods, have earned him prestigious accolades, solidifying his reputation as a leading scientist in his field.

RESEARCH FOCUS

🌱 Air Pollution Control – Development of advanced plasma-assisted VOC and PM2.5 mitigation technologies
⚛️ Single-Atom Catalysis – Design of catalysts for effective gas-phase pollutant decomposition
🔥 Plasma Treatment Technologies – Application of non-thermal plasma for industrial waste gas purification
♻️ Hazardous Waste Management – Implementation of ultra-high-temperature plasma gasification solutions
🏭 Environmental Impact Assessment – Research on emission reduction strategies in coal-fired power plants

Dr. Zhu’s research integrates innovative environmental engineering solutions with industrial applications. His work aims to enhance pollution control efficiency, reduce emissions, and develop cost-effective technologies for sustainable industrial practices.

PUBLICATION TOP NOTES 📚

📖 Decomposition of benzene by non-thermal plasma processing: Photocatalyst and ozone effectInternational Journal of Environmental Science & Technology (2008)

📖 Life cycle carbon emission modelling of coal-fired power: Chinese caseEnergy (2018)

📖 An improved approach to estimate methane emissions from coal mining in ChinaEnvironmental Science & Technology (2017)

📖 Synergistic mechanism of Ce-Mn in ZSM-5 carrier catalysts for catalytic oxidation of tolueneFuel (2023)

📖 Gaseous phase benzene decomposition by non-thermal plasma coupled with nano titania catalystInternational Journal of Environmental Science & Technology (2009)

📖 Plasma-catalyzed combined dynamic wave scrubbing: A novel method for highly efficient removal of multiple pollutants from flue gas at low temperaturesJournal of Hazardous Materials (2024)

📖 Volatile organic compounds decomposition using nonthermal plasma coupled with a combination of catalystsInternational Journal of Environmental Science & Technology (2011)

📖 Preparation of zeolite X by the aluminum residue from coal fly ash for the adsorption of volatile organic compoundsFrontiers in Chemistry (2019)

📖 CO2 and SO2 emission characteristics of the whole process industry chain of coal processing and utilization in ChinaInternational Journal of Coal Science & Technology (2020)

📖 Effects of Mn, Cu, Sb, La on V–Mo–Ce/Ti SCR catalystsJournal of Rare Earths (2020)

📖 VOCs decomposition via modified ferroelectric packed bed dielectric barrier discharge plasmaIEEE Transactions on Plasma Science (2011)

📖 Porous materials confining single atoms for catalysisFrontiers in Chemistry (2021)

📖 Volatile organic compounds emission control in industrial pollution source using plasma technology coupled with F-TiO2/γ-Al2O3Environmental Technology (2015)

📖 Selective Catalytic Reduction of NO by NH3 Using a Combination of Non-Thermal Plasma and Mn-Cu/ZSM5 CatalystCatalysts (2020)

📖 Study on decomposition mechanism of toluene by non-thermal plasma coupled with catalysisJournal of Chemical Engineering of China (2011)

CONCLUSION

Dr. Tao Zhu is a leading researcher in atmospheric environment management and air pollution control, making significant contributions through innovative plasma treatment technologies and catalysis research. His extensive academic and industrial experience has led to impactful environmental solutions, shaping policies and practices in pollution control. With numerous prestigious awards, over 100 research publications, and multiple patents, he continues to push the boundaries of environmental science. His pioneering work in ultra-high-temperature plasma gasification and hazardous waste management has established him as a key figure in sustainable environmental engineering.

Joachim Pander | Biodiversity conservation | Best Researcher Award

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Dr Joachim Pander | Biodiversity conservation | Best Researcher Award

Researcher, Technical University of Munich, Germany

Joachim Pander is a prominent aquatic ecologist and landscape planner, currently leading the River Restoration and Anthropogenic Change in Rivers working group at the Technical University of Munich (TUM). With a background in aquatic systems biology, Pander specializes in river restoration and conservation, focusing on the impacts of human activities on freshwater ecosystems. His work encompasses interdisciplinary approaches to ecology, hydropower, and fish behavior, aiming to balance ecological restoration with sustainable human interventions.

Profile

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Strengths for the Award

Joachim Pander is highly deserving of the Best Researcher Award due to his extensive and impactful work in river restoration, aquatic ecology, and the ecological impacts of hydropower. As the leader of the “River Restoration and Anthropogenic Change in Rivers” working group at the Chair of Aquatic Systems Biology (TUM), he has significantly contributed to interdisciplinary research and practical solutions in aquatic conservation. His numerous publications in high-impact journals, such as Ecology and Evolution, Remote Sensing, and Journal of Applied Ecology, demonstrate his leadership in advancing understanding in topics like invasive species, hydropower impacts, and river habitat restoration. His work also integrates cutting-edge technology, like UAV-based thermal imaging, which reflects his ability to innovate in ecological monitoring. Pander’s contributions have practical applications for enhancing river ecosystems and sustainable human interventions, further amplifying his influence in the field.

Areas for Improvements

While Pander’s research portfolio is strong, one area for potential improvement could be expanding his focus to include more global or transboundary studies that address climate change impacts on freshwater ecosystems. Although he has worked on several hydropower and river restoration projects, expanding his research to include broader, comparative studies across diverse geographic regions could bring more international exposure and collaboration. Additionally, while Pander has made significant strides in integrating technology into his research, he could explore further advancements in artificial intelligence or machine learning to predict ecological responses to environmental changes more effectively.

Education

Pander earned a Ph.D. (Dr. rer. nat.) in Aquatic Ecology in 2012 and holds a German Diplom (equivalent to a B.Sc.) in Landscape Planning from 1999. His education has laid the foundation for his extensive career in both theoretical and applied research within aquatic and environmental systems.

Experience

Pander’s career spans academic and professional roles. He has been a lecturer and scientific employee at TUM, contributing significantly to aquatic systems biology research. As a technical applicant and co-owner of a landscape planning office, he has led initiatives in ecological consulting and river restoration. His leadership and technical expertise are integral to advancing aquatic research and restoration strategies.

Awards and Honors

Pander has earned recognition for his contributions to aquatic ecology and river restoration, particularly in the development of sustainable hydropower systems. His work in assessing environmental impacts on aquatic species and ecosystems has been pivotal in shaping environmental policy and conservation practices. His innovative research has also been honored through numerous publications in top-tier journals.

Research Focus

Pander’s research revolves around river restoration, anthropogenic impacts on rivers, and the role of hydropower in aquatic ecosystems. His focus includes the biological community responses to hydropower plants, fish behavior in restored environments, and the ecological health of rivers. His work aims to improve sustainable practices in freshwater conservation and restoration through interdisciplinary approaches.

Publication Top Notes

  • Characterization of the reproductive strategy of invasive Round Goby (Neogobius melanostomus) in the Upper Danube River 📚
  • Determining Riverine Surface Roughness at Fluvial Mesohabitat Level and Its Influence on UAV-Based Thermal Imaging Accuracy 🌍
  • Habitat quality and biological community responses to innovative hydropower plant installations at transverse in‐stream structures ⚡
  • Ecological assessment of the world’s first shaft hydropower plant 🌍
  • Hydropeaking impairs upstream salmonid spawning habitats in a restored Danube tributary 🐟
  • Environmental Pollution by Lost Fishing Tackle: A Systematic Assessment in Lake Eixendorf 🌊
  • Experimental comparison of fish mortality and injuries at innovative and conventional small hydropower plants ⚡
  • Water level induced changes of habitat quality determine fish community composition in restored and modified riverbanks 🌿
  • Environmental threats and conservation implications for Atlantic salmon and brown trout during their critical freshwater phases 🐠
  • The HydroEcoSedimentary tool: An integrated approach to characterise interstitial hydro‐sedimentary and associated ecological processes 🌊
  • Assessing Stream Thermal Heterogeneity and Cold-Water Patches from UAV-Based Imagery 🔍
  • Integration of Constructed Floodplain Ponds into Nature-Like Fish Passes Supports Fish Diversity 🌳
  • Sneaker, Dweller and Commuter: Evaluating Fish Behavior in Net-Based Monitoring at Hydropower Plants 🐟

Conclusion

Joachim Pander is a highly qualified candidate for the Best Researcher Award, with a proven track record of groundbreaking research in aquatic ecology, river restoration, and the environmental impacts of hydropower. His leadership in both academic and practical realms showcases his expertise and commitment to improving freshwater ecosystems worldwide. With further expansion into global and interdisciplinary studies, Pander could elevate his already impressive body of work to an even more influential level.