Chang-Fei Yu | Environmental Science | Best Researcher Award

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Dr. Chang-Fei Yu | Environmental Science | Best Researcher Award

Doctor at Anhui University of Science and Technology, China

Yu Chang-Fei is a dedicated researcher focused on developing and analyzing dust-reducing and explosion-suppressing agents for coal mine dust. His work integrates experimental techniques with theoretical analysis to explore solutions for improving safety and reducing hazards in coal mines. He has achieved remarkable academic success and recognition, including winning the National Scholarship for Doctoral Students and receiving multiple honors for his outstanding research contributions.

Publication Profile : 

Scopus

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🎓 Educational Background :

Ph.D. in Chemical Engineering (Expected Graduation: [Year])
Anhui University of Science and Technology, [Location]
Research focus: Development and mechanism analysis of dust reducing and explosion suppressing agents for coal mine dust.

M.Sc. in Chemical Engineering
Anhui University of Science and Technology, [Location]
Thesis: [Your Thesis Title, if applicable]
Graduated: [Year]

B.Sc. in Chemical Engineering
[Undergraduate University Name], [Location]
Graduated: [Year]

💼 Professional Experience :

Yu Chang-Fei is currently a doctoral candidate, where his research focuses on coal mine safety, particularly dust reduction and explosion suppression. His work blends practical experimental methods with cutting-edge theoretical analysis to develop innovative agents that improve coal mine safety. Through his extensive research and multiple academic achievements, Yu has shown deep expertise in the areas of coal pyrolysis, chemical safety, and industrial hazard prevention.

📚 Research Interests : 

Yu’s primary research interests lie in the development and mechanism analysis of agents designed to reduce dust and suppress explosions in coal mines. He investigates the oxidative pyrolysis characteristics of bituminous coal and the thermal decomposition of chemical agents through advanced experimental methods and computational simulations, such as density functional theory. His work aims to mitigate the risks associated with coal mining by enhancing safety measures and developing effective, sustainable agents.

📝 Publication Top Notes :

  1. Shi, S., Wang, X.-H., Jiang, B., Yu, C.-F., & Ji, B. (2024). Preparation of consolidated dust suppression materials based on pectin: Graft modification experiment and reaction mechanism. ACS Omega, 9(43), 43534–43546.
  2. Liu, S.-H., Wu, K.-F., Xu, R.-J., Yu, C.-F., & Wang, Y. (2024). Studies on the thermal stability and exothermic behaviour of imidazolium-based ionic liquid binary mixture. Journal of Thermal Analysis and Calorimetry, 149(18), 10353–10361.
  3. Zhou, Y., Jiang, B., Yu, C.-F., Yu, H., & Wang, J. (2024). Study on the effect of hydrogen bonding network structure in amphoteric surfactant solution on the wettability of coal dust. Journal of Molecular Liquids, 408, 125305.
  4. Wang, S., Shi, S., Jiang, B., Zhang, Y., & Wang, X.-H. (2024). Influence of surfactant adsorption on coal oxidation and wettability: Experimental discussion and model development. Energy, 297, 131304.
  5. Jiang, B., Li, J.-J., Su, M., Yao, Q., & Ding, D. (2024). Study on flame properties and molecular dynamics of MAP suppression for polyethylene dust explosion. Fuel, 366, 131347.
  6. Jiang, B., Zhang, Y., Zheng, Y., Zhou, Y., & Wang, Y. (2024). Effect of acid-thermal coupling on the chemical structure and wettability of coal: An experimental study. Energy, 294, 130943.
  7. Jiang, B., Ding, D., Su, M., Ji, B., & Hong, H. (2024). Experimental study on the explosion suppression characteristics of polyethylene dust by ammonium polyphosphate. Powder Technology, 437, 119491.
  8. Tao, W., Jiang, B., Zheng, Y., Yu, C.-F., & Wang, X.-H. (2024). Molecular dynamics study on the effect of inorganic salts on the wettability of surfactants on bituminous coal: Sodium dodecyl sulfate and sodium chloride as representatives. Fuel, 359, 130397.
  9. Tao, W., Jiang, B., Zheng, Y., Sun, B., & Wang, J. (2024). Effect of alkyl glycoside surfactant on the explosion characteristics of bituminous coal: Experimental and theoretical discussion. Energy, 288, 129930.
  10. Shi, S., Yu, C.-F., & Wang, S. (2024). Unveiling mechanism of coal miners’ dust prevention behaviour under force field. Iranian Journal of Science (in press).

 

 

 

Yaqian Wei | Environmental Science | Young Scientist Award

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Ms. Yaqian Wei | Environmental Science | Young Scientist Award

Master’s degree student of China Three Gorges University, China

Yaqian Wei is a 24-year-old Master’s student at the College of Economics & Management, China Three Gorges University 📚. Her research focuses on the impact of human activities and climate change on ecological sensitivity, particularly in the Yangtze River Economic Belt 🌍. Yaqian has published in prestigious journals, including the Journal of Cleaner Production (IF=11.1) and China Population, Resources and Environment (IF=8.42) 📝. Supported by grants from the National Natural Science Foundation of China and the Hubei Province Natural Science Foundation, her work aims to enhance ecological resilience and sustainable development 🌱.

Publication Profile : 

Scopus

Educational Background :

Yaqian Wei is a 24-year-old Master’s student at the College of Economics & Management, China Three Gorges University 📘. Her academic journey is focused on analyzing the impact of human activities and climate change on ecological sensitivity, particularly in the Yangtze River Economic Belt 🌍. She has authored multiple research papers published in prestigious journals like the Journal of Cleaner Production and China Population, Resources and Environment 📑.

Professional Experience :

Yaqian’s research is supported by grants from the National Natural Science Foundation of China and the Natural Science Foundation of Hubei Province, showcasing her dedication to environmental sustainability 🌱. Additionally, she collaborates with the Engineering Research Center of Eco-environment in the Three Gorges Reservoir Region, contributing to critical environmental research projects 🧪.

Research Interests : 

  • Ecological Sensitivity & Climate Change 🌍: Exploring the impact of climate change and human activities on ecological sensitivity, with a focus on the Yangtze River Economic Belt.
  • Sustainable Development 🌱: Investigating pathways to enhance ecological resilience and promote sustainable development in environmentally sensitive regions.
  • Anthropogenic Factors 🏙️: Analyzing the role of human activities in shaping ecological systems and devising strategies for mitigating negative impacts.
  • Response Surface Methodology (RSM) 📊: Applying RSM to model and optimize ecological systems under various climatic and anthropogenic conditions.
  • Regional Ecological Governance 🛠️: Developing and recommending zoning governance strategies to improve regional ecological outcomes.

Publication Top Notes :

  • Wei, Y., Zhang, X., Li, M., & Wang, Y. (2024). How human activities affect and reduce ecological sensitivity under climate change: Case study of the Yangtze River Economic Belt, China. Journal of Cleaner Production, 143438.
    • Purpose: Clarifying the effects of anthropogenic activities and climate change on ecological sensitivity (ES) and proposing improvement measures.
    • Methodology: Constructs index systems of ES, anthropogenic activities, and climate change; uses response surface methodology (RSM) for analysis.
    • Findings & Conclusions: Identifies the dominant role of anthropogenic factors in ES evolution and interaction effects between climate and anthropogenic factors in 87 cities.
    • Significance: Provides recommendations for zoning governance and the application of RSM in the ecological field.
    • Journal: Journal of Cleaner Production (JCR Q1, IF=11.1).
    • Publication Date: August 2024.
    • DOI: 10.1016/j.jclepro.2024.143438.
  • Wei, Y., Zhang, X., & Li, M. (2024). 气候变化和人类活动对中国生态敏感性的影响及其改善路径: 基于响应面法 [Impact of climate change and human activities on ecological sensitivity in China and its improvement paths: based on response surface methodology]. China Population, Resources and Environment, 33(4), 120-135.
    • Journal: China Population, Resources and Environment (Class A Journal, Ministry of Education, China, IF=8.42).
    • Publication Date: May 2024.
    • DOI: 10.12062/cpre.20240333.
  • Wei, Y., Zhang, X., & Wang, Y. (2024). 气候变化和人类活动对长江经济带生态敏感性的影响 [Impact of Climate Change and Human Activities on the Ecological Sensitivity of the Yangtze River Economic Belt]. Environmental Science, 45(10), 1213-1228.
    • Journal: Environmental Science (EI, IF=5.79).
    • Publication Date: October 2024 (Online February 2024).
    • DOI: 10.13227/j.hjkx.202311071.