Li Guoliang

【Professional Title】: Associate Professor
【Department】: Department of Environmental Engineering
【Office】: 913B of Keji Building
【Tel】:
【Email】: liguoliang@ustb.edu.cn
【Research Field】: 1. Coupling technology of multi-pollutant cooperative treatment and carbon emission reduction.
2. Monitoring technology of heavy metals in industrial flue gas.
3. Study of heavy metal emission inventory and material flow study

Education & Working Experience

2021.12-now, University of Science & Technology Beijing, Associate Professor.

2019.5-2021.11, Tsinghua University, Postdoc.

2015.9-2019.4, Doctor University , Doctor.

2012.9-2015.6, Nankai University, Master.

Research projects

1. Li Guoliang, Wu Qingru, Wang Shuxiao*, and Liu K. Promoting SO2 Resistance of a CeO2(5)-WO3(9)/TiO2 Catalyst for Hg(0) Oxidation via Adjusting the Basicity and Acidity Sites Using a CuO Doping Method[J], Environmental Science & Technology, 2020, 54(3): 1889-1897. IF: 7.864.

2. Li Guoliang, Wu Qingru, Wang Shuxiao *, Improving Flue Gas Mercury Removal in Waste Incinerators by Optimization of Carbon Injection Rate[J], Environmental Science & Technology, 2018, 52(4): 1940-1945. IF: 7.864.

3. Li, Guoliang; Wang, Shuxiao; Wu, Qingru*; Li, Junhua; Chen, Zhen; Li, Junhua.; Wang, Fengyan; Han, Deming; Li, Zhijian; Tang, Y; Ouyang, Daiwei; Liu, Kaiyun, Mercury emission characteristics and mechanism in the raw mill system of cement clinker production. Journal of Hazardous Materials 2022, 430, 128403. IF: 9.038.

4. Li Guoliang, Sen Shao, Shuxiao Wang. Flame synthesized nanoscale catalyst (CuCeWTi) with excellent Hg(0) oxidation activity and hydrothermal resistance[J], Journal of Hazard Material, 2020, 124427. IF: 9.038.

5. Li Guoliang, Shuxiao Wang*, Li, Zhijian, The influence of flue gas components and activated carbon injection on mercury capture of municipal solid waste incineration in China. Chemical Engineering Journal, 326, (2017), 561-569. IF: 10.652.

6. Li Guoliang, Shuxiao Wang*, Qingru Wu, Mechanism identification of temperature influence on mercury adsorption capacity of different halides modified bio-chars, Chemical Engineering Journal, (2017), 315, 251-261. IF: 10.652.

7. Li, Guoliang, Shuxiao Wang*, Fengyang Wang, Role of inherent active constituents on mercury adsorption capacity of chars from four solid wastes, Chemical Engineering Journal, 307 (2017) 544-552. IF: 10.652.

8. Li, Guoliang, Shuxiao Wang*, Qingru Wu, Mercury sorption study of halides modified bio-chars derived from cotton straw, Chemical Engineering Journal, 302 (2016) 305-313. IF: 10.652. (

9. Li, Guoliang, Boxiong Shen* and Feng Lu, The mechanism of sulfur component in pyrolyzed char from waste tire on the elemental mercury removal, Chemical Engineering Journal, 273 (2015) 446-454. IF: 10.652.

10. Shen, Boxiong*, Guoliang Li, Fumei Wang, Elemental mercury removal by the modified bio-char from medicinal residues. Chemical Engineering Journal, 272 (2015) 28-37. IF: 10.652.

11. Li, Guoliang, Boxiong Shen*, Yongwang Li, Removal of element mercury by medicine residue derived biochars in presence of various gas compositions, Journal of Hazard Material, 298 (2015) 162-169. IF: 9.038,

12. Li, Guoliang, Boxiong Shen*, Yi Wang, Comparative study of element mercury removal by three bio-chars from various solid wastes, Fuel, 145 (2015) 189-195. IF: 5.578.

13. Li Guoliang, Shuxiao Wang*, Li Junhua, Exploration of reaction mechanism between acid gases and elemental mercury on the CeO2–WO3/TiO2 catalyst via in situ DRIFTS[J], Fuel, 239 (2019), 162-172. IF: 5.578.

14. Wang Fengyang,1 Li Guoliang1, Wang Shuxiao*, Modeling the heterogeneous oxidation of elemental mercury by chlorine in flue gas[J], Fuel, 2020, 262. IF: 5.578.

15. Li, Guoliang, Boxiong Shen*, Fukuan Li, Elemental mercury removal using biochar pyrolyzed from municipal solid waste, Fuel Processing Technology, 133 (2015) 43-50. IF: 4.982.

16. Li Guoliang, Wu Qingru*, Xu Liwen, A Review on Adsorption Technologies for Mercury Emission Control[J], Bull Environ Contam Toxicol, 2019, 103(1): 155-162. IF: 1.657.