师资情况

教师队伍

吴国钟

生日:
地址:
Tel: 0755 2603 0544 Fax: Email: w.guozhong@sz.tsinghua.edu.cn

【个人简历】

201201 ~  现在,清华大学深圳研究生院,博士后、讲师

200709 ~  201201月,天津大学化工学院,工学博士

200910 ~  201012月,Cranfield University联合培养博士

200309 ~ 200706月,华南理工大学化工学院,工学学士


【研究领域】

主要研究方向为(1)土壤与沉积物的石油污染评估与修复;(2)海底可燃冰模拟开采技术。作为项目负责人主持国家自然科学基金、中国博士后科学基金、广东省自然科学基金各1项,作为骨干人员参与国家863重点项目和环保部公益性项目多项。


【论文与专利】

*为通讯作者

[1] Sui H, Hua Z, Li X, Li H, Wu G *, 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

[2] Wu  G, Zhu X, Ji H, Chen D,  2014. Molecular modeling the interactions between heavy crude oil and the soil  organic matter coated quartz surface, Chemosphere, Doi:  10.1016/j.chemosphere.2014.06.030

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

[4] Wu  G, He L, Chen D, 2013.  Sorption and distribution of asphaltene, resin, aromatic and saturate fractions  of heavy crude oil on quartz surface: molecular dynamic simulation, Chemosphere  92 (11): 1465-1471

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

[6] Wu  G, Kechavarzi C, Li X, Sui  H, Pollard S, Coulon F, 2013. Influence of mature compost amendment on  total and bioavailable polycyclic aromatic hydrocarbons in contaminated soils,  Chemosphere 90 (8): 2240-2246  

[7] Wu  G, Coulon F, Yang Y, Li H,  Sui H, 2013. Combining solvent extraction and bioremediation for removing  weathered petroleum from contaminated soil, Pedosphere, 23 (4): 455-463

[8] Wu  G, Li X, Coulon F, Li H,  Lian J, Sui H, 2011. Recycling of  solvent used in a solvent extraction of petroleum hydrocarbons contaminated  soil, Journal of Hazardous Materials 186 (1):  533-539

[9] Li X, Cao X, Wu G, Temple T, Coulon F, Sui H, 2014.  Ozonation of diesel-fuel contaminated sand and the implications for remediation  end-points. Chemosphere  109:  71-76

[10] He L, Li X, Wu G, Lin F, Sui H, 2013.  Distribution of saturates, aromatics, resins and asphaltenes fractions in the  bituminous layer of Athabasca oil sands, Energy & Fuels 27 (8):  4677-4683

[11] Li X, Du Y, Wu G, Li Z, Li H, Sui H, 2012. Solvent  extraction for heavy crude oil removal from contaminated soils, Chemosphere 88  (2): 245-249

[12] Yang Y, Wu G, Li X, Coulon F, Li H, Sui  H,  2012. Pilot application of SVE  enhanced bioremediation technology for in situ clean up of light oil  contaminated site, Polish Journal of Environmental Studies 21 (5):  1461-1466

[13] Li X, He L, Wu G, Sun W, Li H, Sui H, 2012.  Operational parameters, evaluation methods, and fundamental mechanisms: aspects  of non-aqueous extraction of bitumen from oil sands. Energy & Fuels 26 (6):  3553-3563

[14] Li X, Sun W, Wu G, He L,  Li H, Sui H, 2011. Ionic liquid enhanced solvent extraction for bitumen recovery  from oil sands, Energy & Fuels 25 (11): 5224-5231