Ms. Shennan Zhou | Chemical Engineering | Best Researcher Award

Ms. Shennan Zhou, Zhejiang Ocean University, China.

👩‍🔬 Ms. Shennan Zhou is a Doctor of Safety Science and Engineering at Zhejiang Ocean University. With a background from China University of Petroleum and Beijing Institute University, she specializes in explosion consequence and risk assessment in the chemical industry. 🔬 She has contributed to national R&D projects, published in SCI-indexed journals, and holds two patents under process. 💡 Her work integrates data-driven modeling and simulation techniques for real-time safety management. 🚀

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🎓 Early Academic Pursuits

Ms. Shennan Zhou embarked on her academic journey with a Master’s degree in Safety Engineering from the China University of Petroleum (2014–2017). Driven by an innate curiosity and dedication to industrial safety, she furthered her education by pursuing a Doctorate in Safety Science and Engineering at the Beijing Institute University (2018–2025). Her research foundation was shaped within the prestigious State Key Laboratory of Explosion Science and Safety Protection, equipping her with a strong analytical and experimental background.

💼 Professional Endeavors

Ms. Zhou gained hands-on industrial experience early in her career, serving as a Research Operation Specialist at Shanghai Chemical Industry Park Common Corridor Co., Ltd (2017–2018). Her academic acumen transitioned into academia where she presently serves as a Thesis Advisor at Zhejiang Ocean University (2025–Present) in the School of Petrochemical Engineering and Environment. Her professional roles have consistently aligned with her expertise in chemical safety and risk analysis.

🔬 Contributions and Research Focus On Chemical Engineering

Ms. Zhou’s research is rooted in the risk and consequence assessment of major accidents in the chemical industry. To address the challenge of insufficient data on large-scale explosions, she has innovatively applied numerical simulation and data-driven modeling. Her work enables real-time assessment of human risk and equipment failure by simulating explosion scenarios in both theoretical and practical environments, thereby enhancing early warning systems and emergency responses.

🌍 Impact and Influence

By introducing advanced modeling techniques into accident analysis, Ms. Zhou has made it possible to predict and mitigate catastrophic chemical incidents more effectively. Her work is instrumental in bridging the gap between theoretical research and industrial application, especially in high-risk chemical zones. Her innovative approach contributes significantly to industrial safety protocols and policy formulation in China.

🧠 Research Skills

Her core research skills include data analytics, numerical modeling, real-time risk assessment, simulation of explosion consequences, and safety systems optimization. These skills are complemented by a sound understanding of chemical engineering principles, enhancing her ability to merge theory with application seamlessly.

🏅 Awards and Honors

Ms. Zhou is a strong contender for the Global Best Achievements Awards, recognizing her pioneering role in explosion risk assessment and simulation. Her academic rigor and industrial relevance make her achievements both notable and applicable on a global scale.

🏛️ Legacy and Future Contributions

Ms. Zhou envisions developing a comprehensive digital twin for chemical clusters that can predict multiple accident scenarios in real time. Her commitment to technology-driven safety solutions will likely pave the way for AI-enhanced risk management systems in the petrochemical sector. Her legacy is expected to inspire the next generation of safety engineers and risk analysts in both academic and industrial domains.

Publications Top Notes

📄 A Fusing NS with NN Model for the Consequence Prediction of Vapor Cloud Explosion
🗓️ Year: Likely 2024
📰 Journal: Possibly Process Safety and Environmental Protection or similar
🔍 Focus: Integration of numerical simulation (NS) with neural networks (NN) for explosion prediction
⚡ Emoji: 🤖🔥📈

📄 A Conceptual Framework Integrating Numerical Simulation with System Theory-Based Method for Quantitative Explosion Process Hazard Analysis
🗓️ Year: Likely 2024
📰 Journal: Possibly Journal of Loss Prevention in the Process Industries
🔍 Focus: Framework merging system theory and simulations for hazard analysis
⚡ Emoji: 🧠💥📊
📄 A Mechanism Model and Data-Driven Fusion Approach for Rapid Consequence Prediction of Explosion Accidents in Chemical Clusters
🗓️ Year: 2023
📰 Journal: Process Safety and Environmental Protection
🔍 Focus: Combines mechanism modeling and data-driven strategies for real-time consequence prediction
⚡ Emoji: 🧪📉⚠️

📄 An Integrated Method for Multi-Factor Risk Assessment and Dynamic Emergency Planning During Explosion Accidents in Chemical Clusters
🗓️ Year: 2024
📰 Journal: Safety Science or similar
🔍 Focus: Dynamic risk and emergency response modeling
⚡ Emoji: 🚨📋🧯
📄 Quantitative Risk Assessment of Explosion Rescue by Integrating CFD Modeling with GRNN
🗓️ Year: 2024
📰 Journal: Journal of Hazardous Materials or Process Safety and Environmental Protection
🔍 Focus: Combines Computational Fluid Dynamics (CFD) with General Regression Neural Network (GRNN) for rescue operations
⚡ Emoji: 💻🌪️🚑

Prof. Dr Serdar Yaman | Chemical Engineering | Best Researcher Award

Prof. Dr Serdar Yaman, Istanbul Technical University, Turkey.

Professor Serdar Yaman is a distinguished academic at Istanbul Technical University’s Department of Chemical Engineering, where he has served as a professor since 2007. With a B.Sc., M.Sc., and Ph.D. from ITU, his expertise spans energy technologies, biomass, fossil fuels, and thermal conversion processes. Globally recognized, he ranks among the top 0.04% of scholars in biomass research and has been listed among the world’s top 2% most influential scientists by Stanford University (2021-2024). An award-winning educator and researcher, Professor Yaman’s contributions include impactful publications, conference leadership, and mentorship of award-winning doctoral theses, solidifying his legacy in energy engineering.

Author Profile:

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Summary of Suitability for Best Researcher Award

Serdar Yaman, Professor of Chemical Engineering at Istanbul Technical University (ITU), is a globally recognized researcher specializing in energy technologies, biomass, fossil fuels, and thermal conversion processes. With over three decades of academic experience, Prof. Yaman has significantly contributed to both education and scientific advancements in his field. As a dedicated educator, Prof. Yaman has mentored award-winning Ph.D. students and delivered impactful courses in chemical engineering and energy studies. His administrative roles and active participation in scientific committees and editorial boards further demonstrate his professional leadership. Prof. Yaman’s achievements, including the ITU Outstanding Educator Award (2012) and Academic Performance Award (2016-2020), reflect his unwavering commitment to advancing science and education globally.

Education:

Professor Serdar Yaman has an extensive educational background in Chemical Engineering, earning his B.Sc. (1986-1990), M.Sc. (1990-1992), and Ph.D. (1992-1996) from Istanbul Technical University (ITU). His academic journey laid the foundation for his expertise in energy technologies, biomass, fossil fuels, and thermal conversion processes. Professor Yaman’s commitment to education extends beyond his own learning; he has contributed significantly to undergraduate and graduate programs, teaching subjects such as Process Control, Energy Conservation in Industry, and Solid Fuel Conversion Technologies. His dedication to academia has positioned him as a leading educator and mentor, inspiring future generations of engineers and researchers.

Professional Experience:

Professor Serdar Yaman has over 30 years of professional experience at Istanbul Technical University’s Department of Chemical Engineering. He began his academic career as an Assistant Professor (1996-1999), advanced to Associate Professor (1999-2007), and has served as a Full Professor since 2007. His expertise lies in energy technologies, biomass, fossil fuels, and thermal conversion processes. Professor Yaman has held key administrative roles, including Coordinator of Administrative and Financial Affairs (2007-2009). He actively contributes to international conferences, scientific committees, and journal editorial boards, showcasing his leadership in the field. His impactful teaching and research continue to influence global energy studies.

🌍Research Contributions:

Professor Serdar Yaman has made significant contributions to energy technologies, with a focus on biomass, fossil fuels, and thermal conversion processes. His research addresses critical challenges in energy sustainability and carbon materials, resulting in numerous publications in high-impact journals. Recognized globally, he ranks among the top 0.04% of scholars in biomass research and has been listed in Stanford University’s “Top 2% Most Influential Scientists” from 2021 to 2024. Professor Yaman’s expertise extends to machine learning applications in energy, conference leadership, and editorial roles. His groundbreaking work has advanced the understanding of energy systems while fostering innovation and global collaboration.

Award and Honors:

Professor Serdar Yaman has received numerous prestigious awards and global recognitions throughout his career. He has been consistently listed among the Top 2% Most Influential Scientists in the world by Stanford University from 2021 to 2024. According to ScholarGPS rankings, he is among the top 0.04% of highly ranked scholars in biomass research globally. In 2012, he was honored as an Outstanding Educator by Istanbul Technical University (ITU). His mentorship excellence was recognized when a Ph.D. thesis he supervised won ITU’s Most Successful Doctoral Thesis Award in 2017. Additionally, he received ITU’s Academic Performance Award (2016-2020) and Publication Award in 2023.

Conclusion:

Professor Serdar Yaman’s exceptional contributions to chemical engineering and energy technologies establish him as a leading researcher and educator. His groundbreaking work in biomass, fossil fuels, and thermal conversion processes has earned him international recognition, including a place among the top 2% of the world’s most influential scientists by Stanford University (2021-2024) and a top 0.04% ranking in biomass research globally. With numerous awards, impactful publications, and active roles in scientific committees, Professor Yaman’s dedication to advancing research and mentoring future scholars is unparalleled. His achievements make him a highly deserving candidate for the prestigious Best Researcher Award.

Publication Top Notes:

Pyrolysis of biomass to produce fuels and chemical feedstocks
Author: S. Yaman
Citation: 1870
Year: 2004
🔥🌱

Interaction between biomass and different rank coals during co-pyrolysis
Authors: H. Haykiri-Acma, S. Yaman
Citation: 263
Year: 2010
♻️⚡

Effect of heating rate on the pyrolysis yields of rapeseed
Authors: H. Haykiri-Acma, S. Yaman, S. Kucukbayrak
Citation: 238
Year: 2006
🌾🔥

Prediction of calorific value of biomass from proximate analysis
Authors: A. Özyuğuran, S. Yaman
Citation: 213
Year: 2017
🔋🌿

Production of fuel briquettes from olive refuse and paper mill waste
Authors: S. Yaman, M. Şahan, H. Haykiri-Açma, K. Şeşen, S. Küçükbayrak
Citation: 208
Year: 2000
♻️🌍

Comparison of the thermal reactivities of isolated lignin and holocellulose during pyrolysis
Authors: H. Haykiri-Acma, S. Yaman, S. Kucukbayrak
Citation: 206
Year: 2010
🔥🪶

Fuel briquettes from biomass–lignite blends
Authors: S. Yaman, M. Şahan, H. Haykiri-Açma, K. Şeşen, S. Küçükbayrak
Citation: 190
Year: 2001
🔋🌿

Synergy in devolatilization characteristics of lignite and hazelnut shell during co-pyrolysis
Authors: H. Haykiri-Acma, S. Yaman
Citation: 183
Year: 2007
🌰🔥

Gasification of biomass chars in steam–nitrogen mixture
Authors: H. Haykiri-Acma, S. Yaman, S. Kucukbayrak
Citation: 178
Year: 2006
⚙️💨

Kinetic modelling of RDF pyrolysis: Model-fitting and model-free approaches
Authors: Ö. Çepelioğullar, H. Haykiri-Açma, S. Yaman
Citation: 142
Year: 2016
🔬🌍

Effect of co-combustion on the burnout of lignite/biomass blends: a Turkish case study
Authors: H. Haykiri-Acma, S. Yaman
Citation: 137
Year: 2008
🔥🌱

Optimal use of condensed parameters of ultimate analysis to predict the calorific value of biomass
Authors: A. Özyuğuran, A. Aktürk, S. Yaman
Citation: 133
Year: 2018
⚙️🌿

Co-combustion of low rank coal/waste biomass blends using dry air or oxygen
Authors: H. Haykiri-Acma, S. Yaman, S. Kucukbayrak
Citation: 80
Year: 2013
🌱🔥

Effect of biomass on temperatures of sintering and initial deformation of lignite ash
Authors: H. Haykiri-Acma, S. Yaman, S. Kucukbayrak
Citation: 80
Year: 2010
🔥⚙️

Controlling the excess heat from oxy-combustion of coal by blending with biomass
Authors: H. Haykiri-Acma, A.Z. Turan, S. Yaman, S. Kucukbayrak
Citation: 79
Year: 2010
🔥💡

A study to predict pyrolytic behaviors of refuse-derived fuel (RDF): Artificial neural network application
Authors: Ö. Çepelioğullar, İ. Mutlu, S. Yaman, H. Haykiri-Acma
Citation: 78
Year: 2016
🤖🌱

Production of biobriquettes from carbonized brown seaweed
Authors: H. Haykiri-Acma, S. Yaman, S. Kucukbayrak
Citation: 78
Year: 2013
🌊🌱

Limits of variations on the structure and the fuel characteristics of sunflower seed shell through torrefaction
Authors: E. Bilgic, S. Yaman, H. Haykiri-Acma, S. Kucukbayrak
Citation: 55
Year: 2016
🌻🔥

Effect of lignite properties on reactivity of lignite
Authors: S. Küçükbayrak, H. Haykırı-Acma, A. Ersoy-Meriçboyu, S. Yaman
Citation: 54
Year: 2001
🔥🌍

Combinations of synergistic interactions and additive behavior during the co-oxidation of chars from lignite and biomass
Authors: H. Haykiri-Acma, S. Yaman
Citation: 53
Year: 2008
🔥💨

Activation energy prediction of biomass wastes based on different neural network topologies
Authors: Ö. Çepelioğullar, İ. Mutlu, S. Yaman, H. Haykiri-Acma
Citation: 52
Year: 2018
⚙️🤖

Is torrefaction of polysaccharides-rich biomass equivalent to carbonization of lignin-rich biomass?
Authors: E. Bilgic, S. Yaman, H. Haykiri-Acma, S. Kucukbayrak
Citation: 52
Year: 2016
🔥🌱

Interpretation of biomass gasification yields regarding temperature intervals under nitrogen–steam atmosphere
Authors: H. Haykiri-Acma, S. Yaman
Citation: 52
Year: 2007
⚡🌱

Effect of biomass on burnouts of Turkish lignites during co-firing
Authors: H. Haykiri-Acma, S. Yaman
Citation: 38
Year: 2009
🔥⚡

Thermal reactivity of rapeseed (Brassica napus L.) under different gas atmospheres
Authors: H. Haykiri-Acma, S. Yaman
Citation: 36
Year: 2008
🌾🔥

Mobilization of some trace elements from ashes of Turkish lignites in rain water
Authors: H. Haykiri-Acma, S. Yaman, N. Ozbek, S. Kucukbayrak
Citation: 34
Year: 2011
💧⚙️

Thermogravimetric investigation on the thermal reactivity of biomass during slow pyrolysis
Authors: H. Haykiri-Acma, S. Yaman
Citation: 34
Year: 2009
🔥🌱

Sulfur removal from lignite by oxydesulfurization using fly ash
Authors: S. Yaman, S. Küçükbayrak
Citation: 34
Year: 1997
🛢️💨

Prediction of calorific value of biomass based on elemental analysis
Authors: A. Özyuğuran, S. Yaman, S. Küçükbayrak
Citation: 32
Year: 2018
🔬🌿

Does carbonization avoid segregation of biomass and lignite during co-firing? Thermal analysis study
Authors: H. Haykiri-Acma, S. Yaman, S. Kucukbayrak
Citation: 31
Year: 2015

Shennan Zhou | Chemical Engineering | Best Researcher Award