YAN Wangwang

Associate Professor / Master's supervisor

Direction:Sustainability and restoration

Research Area:持久性污染物在环境中的迁移转化;高效生物处理技术;有机固废资源化

Email: yanww5@mail.sysu.edu.cn

基本信息

硕士生导师

联系方式:yanww5@mail.sysu.edu.cn

2019年博士毕业于新加坡南洋理工大学,在南洋环境与水源研究所完成博士后研究工作。近年来主要研究成果包括:通过导电性物质与厌氧消化耦合实现难生物降解有机废弃物的高效转化;开发强化厌氧消化降解的系列技术并结合多组学分析手段阐明了微生物种间电子传递机制;系统解析全氟烷基类化合物在厌氧环境中的迁移转化过程。相关研究成果在Water Res.,Environ. Int.,Chem. Eng. J. 等环境领域权威期刊发表SCI论文30余篇。此外,基于理论研究开发的强化厌氧生物降解技术获得了多项技术认定以及新加坡公共事业局下属部门的应用推广。

研究方向

持久性污染物的环境行为与效应

高效生物处理技术

有机固废资源化

教育经历

2015.08-2019.01  南洋理工大学(新加坡),环境科学与工程博士学位

2012.09-2015.06  华南理工大学,化学工程硕士学位

2008.09-2012.06 华南农业大学,植物保护专业(国家一级本科专业建设点),农学学士学位

工作经历

2021.11-至今  中山大学生态学院 “百人计划”副教授

2019.02-2021.09,新加坡南洋环境与水源研究中心(Nanyang Environmental and Water Research Institute) 研究员

学术兼职

广东省固体废弃物环境管理专家库专家 

Water Research、Environmental Science & Technology、Journal of Hazardous Materials、Bioresource Technology 等期刊审稿人

主持/参与项目

国家自然科学基金青年项目,2024.01-2027.12,主持

广东省基础与应用基础研究基金项目 ,2023.11-2026.10 主持

深圳市科技创新委员会面上项目,2023.08-2025.08, 主持

新加坡公共事业局, 面上项目, P19-02-04, 参与

新加坡教育部, 面上项目, MOE2015-T1-2-105, 参与 

中央高校基本科研业务费-青年教师团队项目,2022.01-2022.12  
 

代表论文

  1. Yan W. #, Song M.S., Zhou Y. Redistribution of perfluorooctanoic acid in sludge after thermal hydrolysis: Location of protein plays a major role, Water Research, 2023, 241: 120135(一区, IF: 9.13)
  2. Yan W. #, Mukherjee M., Zhou Y. Direct interspecies electron transfer (DIET) can be suppressed under ammonia-stressed condition ‒ Reevaluate the role of conductive materials [J]. Water research, 2020: 116094. (一区, IF: 9.13)
  3. Liu H, Xu R, Haggblom M M, Yan W. Immobile iron-rich particles promote arsenic retention and regulate arsenic biotransformation in treatment wetlands[J]. Environmental Science & Technology, 2022, 56(22): 15627-15637. (一区, IF: 9.02)
  4. Yan W.#, Xu H, Lu D, et al. Effects of sludge thermal hydrolysis pretreatment on anaerobic digestion and downstream processes: mechanism, challenges and solutions[J]. Bioresource Technology, 2022, 344: 126248. (一区, IF:9.64)
  5. Yan W. #, Qian T., Zhou Y. Micro–level evaluation of organic compounds transformation in anaerobic digestion under feast and famine conditions assisted by iron–based materials–Revealing the true mechanism of AD enhancement [J]. Environment International, 2020, 135: 105362. (一区, IF:7.94)
  6. Yan W. #, Zhang L., Wang L., Zhou Y. Understanding the role of extracellular polymeric substances in perfluorooctanoic acid adsorption in Aerobic sludge, Anaerobic sludge, and enhanced biological phosphorous removal sludge [J]. Journal of Hazardous Materials, 2020: 123381. (一区, IF:9.04)
  7. Yan, W. #, Vadi V., Zhou Y. In-situ alkaline enhanced two-stage anaerobic digestion system for waste cooking oil and sewage sludge co-digestion. Waste Management, 2021,120, 221-229. (一区, IF: 5.45)
  8. Yan W. #, Lu D., Liu J., Zhou Y. The interactive effect of ammonia and CNT on anaerobic digestion [J]. Chemical Engineering Journal, 2019, 372: 332-340. (一区, IF:10.65)
  9. Yan W. #, Zhang L., Wijaya S. M., Zhou Y. Unveiling the role of activated carbon on hydrolysis process in anaerobic digestion[J]. Bioresource Technology, 2019: 122366. (一区, IF:7.54)
  10. Yan, W. #, Zhou Y. The presence of ferrihydrite enhances greenhouse gas-methane emission in the environment. Science of The Total Environment, 2019, 688, 462-469. (一区, IF:6.55)
  11. Yan W. #, Sun F., Zhou Y. Enhanced anaerobic phenol degradation by conductive materials via EPS and microbial community alteration[J]. Chemical Engineering Journal, 2018, 352: 1-9 (一区, IF:10.65)
  12. Yan W. #, Shen N., Xiao Y., Zhou Y. The role of conductive materials in the start-up period of thermophilic anaerobic system [J]. Bioresource technology, 2019, 239: 336- 344. (一区, IF:7.54)
  13. Lu D#, Yan W#, Le C, et al. Near-infrared reflectance spectroscopy for rapid prediction of biochemical methane potential of wastewater wasted sludge[J]. Science of The Total Environment, 2024, 912: 169640. (一区, IF:6.55)
  14. Cui B, Rong H, Tian T, Yan W.* Chemical methods to remove microplastics from wastewater: A review[J]. Environmental Research, 2024: 118416. (二区,IF:6.49)
  15. Zhang L., Sun F, Dan W, Yan W., Zhou Y. Biological conversion of sulfamethoxazole in an autotrophic denitrification system [J]. Water Research, 2020:116149 (一区, IF: 9.13)
  16. Liang J., Zhang L., Yan W., Yan Zhou (2020). Mechanistic insights into a novel nitrilotriacetic acid-FeO and CaO2 process for efficient anaerobic digestion sludge dewatering at near-neutral pH [J]. Water Research, 2020:116149 (一区, IF: 9.13)
  17. Chua F., Yan W, Zhou Y. The interaction between ionic liquids (ILs) and an enriched ammonia oxidizing bacteria (AOB) culture[J]. Chemosphere, 2019, 235: 842-848. (二区, IF:5.78)
  18. Yan G, Sun X, Dong Y, Yan W. Vanadate reducing bacteria and archaea may use different mechanisms to reduce vanadate in vanadium contaminated riverine ecosystems as revealed by the combination of DNA-SIP and metagenomic-binning[J]. Water Research, 2022, 226: 119247.
  19. Zhang M, Lu G, Yan W., Xiao T, et al. Characterization of arsenic-metabolizing bacteria in an alkaline soil[J]. Environmental Pollution, 2022, 312: 120040.
  20. Cao, S., Lu D., Phua, K., Yan, W., Le, C., Tao, G., & Zhou, Y. Organics transformation and energy production potential in a high rate A-stage system: A demo-scale study. Bioresource technology, 2020, 295, 122300 (一区, IF:7.54)

专利/技术认定

Yan Wangwang, Zhou Yan, Conductive-material-to-enhance-organic-waste-biodegradation (https://www.ipi-singapore.org/tech-offers/149489/conductive-material-to-enhance-organic-waste-biodegradation.html), ID number: TO149489

Yan Wangwang, Zhou Yan, A method for fast start-up of thermophilic anaerobic system, ID number: TO/280/16