师资队伍

吴国钟，教授、博导。天津大学与英国克兰菲尔德大学联合培养博士、清华大学博士后、深圳市海外高层次人才、深圳市高层次专业人才、深圳市南山区领航人才。主持国家自然科学基金等科研项目13项、发表国际SCI学术论文62篇、授权国家专利与软件著作权10项。指导研究生获得清华大学硕士与博士学位25人、获得广东工业大学硕士学位2人、入选广东工业大学研究生拔尖创新型人才计划1人。

1. 环保技术：土壤修复、固废资源化、碳捕集与碳封存、环境风险评估、环境功能化材料

2. 新能源技术：海洋可燃冰能源、油气管道流动安全保障、天然气存储、智能相变材料

2007.09-2012.01 天津大学，化学工程，博士（导师：李鑫钢教授）

2009.10-2010.12 Cranfield University, 环境工程，国家公派联合培养（导师：Prof. Frederic Coulon）

2003.09-2007.06 华南理工大学，化学工程与工艺，学士

2022.01-至今 广东工业大学，教授

2014.06-2021.12 清华大学，讲师

2012.01-2014.06 清华大学，博士后

作为项目负责人承担的科研项目：

1. 国家自然科学基金面上项目，冷泉区沉积物中甲烷渗漏与水合物相变的动态耦合机理，2025-2028

2. 广东省自然科学基金面上项目，南海沉积物孔隙通道及气泡表面天然气水合物的二氧化碳置换机理研究，2022-2024

3. 广东省自然科学基金面上项目，污染土壤老化过程中孔隙残留油絮凝与流动机理研究，2018-2021

4. 广东工业大学青年百人计划科研启动项目，天然气水合物成核生长机理研究，2022-2027

5. 清华大学海外科研合作基金项目，管壁生物膜对气体水合物形成的影响机理，2020-2023

6. 深圳市科技计划项目，泡沫碳化硅陶瓷填料孔隙内二氧化碳水合物相变机理研究，2021-2024

7. 深圳市国际合作项目，海洋天然气管道内壁腐蚀与水合物堵塞的相互作用机制及双重抑制技术研究，2021-2023

8. 深圳市科技计划项目，基于环糊精与碳化硅泡沫陶瓷填料的水合物强化生成技术，2017-2019

9. 深圳市科技计划项目，沥青质与水合物在油气输送中的共聚机理及抑制技术研究，2016-2018

10. 清华大学青年基金，原油沥青质与沉积物腐殖质共絮凝过程研究，2014-2016

11. 国家自然科学基金青年基金项目，石油四组分与土壤有机质及无机矿物表面的交互作用：分子模拟与显微观测，2014-2016

12. 广东省自然科学基金项目，石油四组分在水体沉积物表面的环境行为评价，2013-2015

13. 中国博士后基金项目，分子模拟石油在土壤有机质及无机矿物表面的吸附与分布，2013-2014

以第一作者/通讯作者发表的SCI论文：

1. Z Liao, W Li, J Feng, S Zhang, G Wu *, 2026. Harnessing biofilm polysaccharide as an endogenous green anti-foulant for suppressing asphaltene deposition and spreading on metal surface. Fuel: 138365

2. G Wu *, Y Wu, Z Liao, J Feng, S Zhang, 2026. Surface roughness destructs oil-polyethylene heteroaggregation and triggers adsorption selectivity reversal within clay nanopores. Chemical Engineering Science 323: 123154

3. Z Zhou, Z Liao, J Feng, S Zhang, G Wu *, 2026. Competitive adsorption and water migration within heterogeneous nanopores dictate CO₂-EOR efficiency by restructuring oil-CO₂-water transport channels. Chemical Engineering Science 324: 123284

4. Z Liao, Z Zhou, J Feng, S Zhang, G Wu *, 2026. Resolving adsorption thermodynamics and nanoconfined transport kinetics of flue gas in heteroporous silicon carbide for selective CO₂ capture. Fuel 406: 136878

5. R Luo, E Lau, S Tan, G Wu *, 2025. Uncovering the dual function of phytic acid in stabilizing graphene oxide nanomembranes and enabling selective permeation for oil-water separation by molecular dynamics simulations. Environmental Science: Nano 12: 4880 - 4892

6. W Li, J Feng, K Wu, S Zhang, Y Jiang, G Wu *, 2025. Equilibrium and temporal evolution of asphaltene nanoaggregates during dynamic heteroaggregation with polysaccharides. Energy & Fuels 39: 3056-3068

7. Y Wu, J Feng, K Wu, S Zhang, G Wu *, 2025. Molecular mechanisms for the nanoplastic heteroaggregation with multi-component crude oil. Chemical Engineering Science 302: 120806

8. R Luo, Y Jiang, E Lau, G Wu *, 2023. Microscopic influence mechanisms of polysaccharide on the adsorption and corrosion inhibition performance of imidazoline on metal surface. Applied Surface Science613: 155798  

9. G Wu *, F Coulon, J Feng, Z Yang, Y Jiang, R Zhang, 2023. Machine learning models for fast selection of amino acids as green thermodynamic inhibitors for natural gas hydrate. Journal of Molecular Liquids 370: 120952

10. G Wu *, L Tian, L Ha, F Feng, Z Yang, J Feng, F Coulon, Y Jiang, R Zhang, 2022. Influence of pipeline steel surface on the thermal stability of methane hydrate. Journal of Molecular Liquids 367: 120486

11. L Tian, L Ha, L Wang, G Chen, F Coulon, Y Jiang, X Zeng, R Zhang, G Wu *, 2022. Location optimization of silicon carbide foam packings in the unstirred packing trays reactor for the enhancement of solidified natural gas storage. Chemical Engineering Science 253:117503

12. L Tian, G Wu *, 2020. Microsecond molecular dynamics simulation of the adsorption and penetration of oil droplets on cellular membrane. Journal of Hazardous Materials 397: 122683

13. L Tian, G Wu *, 2020. Cyclodextrins as promoter or inhibitor for methane hydrate formation? Fuel 264: 116828

14. L Tian, G Wu *, 2020. Thermal analysis of methane hydrate formation in a high-pressure reactor packed with porous SiC foam ceramics. Fuel 260: 116307

15. Q Meng, L Sun, D Chen, G Wu *, 2019. Adsorption of asphaltenes at oil-water and oil-clay interfaces in presence of humic acids. Langmuir 35: 16718-16725

16. X Liu, L Tian, D Chen, G Wu *, 2019. Accelerated formation of methane hydrates in the porous SiC foam ceramic packed reactor. Fuel 257: 115858

17. G Wu, L Tian, D Chen, M Niu, H Ji, 2019. CO₂ and CH₄ hydrates: replacement or cogrowth? Journal of Physical Chemistry C 123: 13401-13409

18. M Zi, D Chen, J Wang, P Hu, G Wu *, 2019. Kinetic and rheological study of methane hydrate formation in water-in-oil emulsion: effects of emulsion composition and silica sands. Fuel 255: 115708. 

19. G Wu, H Ji, L Tian, D Chen, 2018. Effects of salt ions on the methane hydrate formation and dissociation in the clay pore water and bulk water. Energy & Fuels 32: 12486-12494

20. Q Meng, D Chen, G Wu *, 2018. Microscopic mechanisms for the dynamic wetting of a heavy oil mixture on a rough silica surface. Journal of Physical Chemistry C 122: 24977–24986

21. M Zi, D Chen, G Wu *, 2018. Molecular dynamics simulation of methane hydrate formation on metal surface with oil. Chemical Engineering Science 191 : 253 - 261

22. P Hu, D Chen, M Zi, G Wu *, 2018. Effects of carbon steel corrosion on the methane hydrate formation and dissociation. Fuel 230: 126 - 133

23. X Zhu, D Chen, Y Zhang, G Wu *, 2018. Insights into the oil adsorption and cyclodextrin extraction process on rough silica surface by molecular dynamics simulation. Journal of Physical Chemistry C 122: 2997-3005

24. H Ji, D Chen, C Zhao, G Wu *, 2018. Molecular dynamics simulation of methane hydrate formation and dissociation in the clay pores with fatty acids. Journal of Physical Chemistry C 122: 1318-1325

25. H Ji, D Chen, G Wu *, 2017. Molecular mechanisms for the cyclodextrin-promoted methane hydrate formation in water. Journal of Physical Chemistry C 121: 20967-20975

26. H Sui, J Dong, M Wu, X Li, R Zhang, G Wu *, 2017. Continuous hydrogen production by dark fermentation in a foam SiC ceramic packed up-flow anaerobic sludge blanket reactor. Canadian Journal of Chemical Engineering 95: 62-68

27. M Zi, D Chen, H Ji, G Wu *, 2016. Effects of asphaltenes on the formation and decomposition of methane hydrate: a molecular dynamics study. Energy & Fuels 30: 5643-5650

28. X Zhu, D Chen, G Wu *, 2016. Insights into asphaltene aggregation in the Na-montmorillonite interlayer. Chemosphere 160: 62-70

29. H Sui, L Li, X Zhu, D Chen, G Wu *, 2016. Modeling the adsorption of PAH mixture in silica nanopores by molecular dynamic simulation combined with machine learning. Chemosphere 144: 1950-1959

30. X Zhu, D Chen, G Wu *, 2015. Molecular dynamic simulation of asphaltene co-aggregation with humic acid during oil spill. Chemosphere 138: 412-421

31. H Sui, Z Hua, X Li, H Li, G Wu *, 2014. Influence of soil and hydrocarbon properties on the solvent extraction of high-concentration weathered petroleum from contaminated soils. Environmental Science and Pollution Research 21: 5774-5784

32. G Wu, X Zhu, H Ji, D Chen, 2015. Molecular modeling of interactions between heavy crude oil and the soil organic matter coated quartz surface, Chemosphere 119: 242-249

33. G Wu, X Li, C Kechavarzi, R Sakrabani, H Sui, F Coulon, 2014. Influence and interactions of multi-factors on the bioavailability of PAHs in compost amended contaminated soils, Chemosphere 107: 43-50

34. G Wu, L He, D Chen, 2013. Sorption and distribution of asphaltene, resin, aromatic and saturate fractions of heavy crude oil on quartz surface: molecular dynamic simulation, Chemosphere 92: 1465-1471

35. G Wu, C Kechavarzi, X Li, S Wu, S Pollard, H Sui, F Coulon, 2013. Machine learning models for predicting PAHs bioavailability in compost amended soils, Chemical Engineering Journal 223: 747-754

36. G Wu, C Kechavarzi, X Li, H Sui, S Pollard, F Coulon, 2013. Influence of mature compost amendment on total and bioavailable polycyclic aromatic hydrocarbons in contaminated soils, Chemosphere 90:2240-2246

37. G Wu, F Coulon, Y Yang, H Li, H Sui, 2013. Combining solvent extraction and bioremediation for removing weathered petroleum from contaminated soil, Pedosphere 23: 455-463

38. G Wu, X Li, F Coulon, H Li, J Lian, H Sui, 2011. Recycling of solvent used in a solvent extraction of petroleum hydrocarbons contaminated soil, Journal of Hazardous Material 186: 533-539

地址：广东工业大学生态环境与资源学院

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