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Teaching Staff

Expert Details

Jiajie Li

Resources

Office Space:Room 1210, Civil and Resource Engineering Building

Email:lijiajieustb@hotmail.com


Post-secondary Education:  

2006.06, University of Science and Technology Beijing (China), Mineral Resource Engineering, B.ASc.

2009.01, University of Science and Technology Beijing (China), Mining Engineering, M.ASc.

2017.09, University of British Columbia (Canada), Mining Engineering, Ph.D. 

Since 2017.07, University of Science and Technology Beijing (China), Post Doctorate 

Research Interests

1. Waste management

2. CO2 mineralization and utilization

3. Ultrafine grinding and mechanical activation

Teaching

Modern Mining Testing Technology

Committee and Broad Memberships

1. Society of Mining Engineering, Member

2. Chinese Ceramic Society, Division of Process Petrology Waste Management, Member

3. Chinese Ceramic Society, Division of Waste Management, Member

4. Canadian Institute of Mining, Metallurgy and Petroleum, Member

Conference Activities - Conference Organizer

1. 29th SOMP Annual Meeting and Conference on Mines of the Future, July 3-6, 2018, Beijing PRC, Deputy Secretary General

2. 8th International Conference on Sustainable Development in the Minerals Industry (SDIMI). June 25-29, 2017, Beijing PRC. Secretary

Editorial Activities-Guest editor

International Journal of Georesources and Environment (Canamaple Academia Services), 2018, vol 4, No 3. 

Editorial Activities-Reviewer

1. Journal of Hazardous Materials (Elsevier) 

2. RCS Advance (Royal Society of Chemistry)

3. International Journal of Mineral Processing (Elsevier) 

4. Expert Systems with Applications (Elsevier) 

5. Powder Technology (Elsevier) (Since 2015)

Research Projects

1. Research Fund of The State Key Laboratory of Coal Resources and safe Mining, CUMT, Carbonation curing of ultramafic tailings and its strength evolution law. 2019.01-2020.12, Principal Investigator

2. , National Key Research and Development Program of China, Preparation of sea concrete using metallurgy-chemistry slag and its mechanism2018.12-2022.11, Participant

3. Office of China Postdoc Council, International Postdoctoral Exchange Fellow Program (Talent-Introduction Program), 2018.11-2020.10, Principal Investigator

4. National Key Research and Development Program of China, Safe disposal of mining and processing wastes in high altitude and cold region, 2018.07-2021.06, Co-investigator 

5. China Postdoctoral Science Foundation, Mechanical activation of heterogeneous ultramafic tailings and their carbonation kinetics, 2018.05-2020.05, Principal Investigator

6. Fundamental Research Funds for the Central Universities, CO2 mineralization of ultramafic tailings in an indirect dry process, 2017.12-2019.11, Principal Investigator

7. Beijing Municipal Science and Technology Commission, Deep bury of the municipal waste to for mine closure - An experimental investigation, 2016.07-2019.10, Participant

8. Carbon Management Canada Research Institutes, Accelerating carbon mineralization in mine wastes, 2012.01-2015.12, Participant

Selected Publications

[1] Jiajie Li, Anthony D. Jacobs, Michael Hitch. Direct aqueous carbonation on olivine at a CO2 partial pressure of 6.5 MPa. Energy. 2019, 173, 902-910 (IF: 4.968) 

[2] Jiajie Li, Michael Hitch. Mechanical activation of magnesium silicates for mineral carbonation, a review. Minerals Engineering. 2018, 128, 69-83. (IF: 2.707) 

[3] Jiajie Li, Michael Hitch, Ian M. Power, Yueyi Pan. Integrated Mineral Carbonation of Ultramafic Mine Deposits – A Review. Minerals. 2018, 8(4), 147. (IF: 1.835) 

[4] Jiajie Li and Michael Hitch. Economic analysis on the application of mechanical activation in an integrated mineral carbonation processes, International Biodeterioration and Biodegradation. 2018, 128: 63-71. (IF: 3.562)

[5] Jiajie Li and Michael Hitch. Structural and chemical changes in mine waste mechanically-activated in various milling environments, Powder Technology. 2017, 308: 11-19 (IF: 3.230)

[6] Jiajie Li and Michael Hitch. Ultra-fine grinding and mechanical activation of mine waste rock using a planetary mill for mineral carbonation. International Journal of Mineral Processing. 2017, 158: 18-26 (IF: 2.255) 

[7] Jiajie Li and Michael Hitch. Mechanical activation of ultramafic mine waste rock in dry condition for enhanced mineral carbonation, Minerals Engineering. 2016, 95: 1-4. (IF: 2.707) 

[8] Jiajie Li and Michael Hitch. Carbon dioxide adsorption isotherm study on mine waste for integrated CO2 capture and sequestration processes, Powder Technology. 2016, 291: 408-413. (IF: 3.230) 

[9] Jiajie Li and Michael Hitch. Characterization of the microstructure of mechanically-activated olivine using X-ray diffraction pattern analysis, Minerals Engineering. 2016, 86: 24-33. (IF: 2.707) 

[10] Jiajie Li and Michael Hitch. Ultra-fine grinding and mechanical activation of mine waste using high-speed stirred mill for mineral carbonation. International Journal of Minerals, Metallurgy, and Material. 2015, 22(10): 1005-1016. (IF: 1.261) 

[11] Jiajie Li and Michael Hitch. Carbon dioxide sorption isotherm study on pristine and acid-treated olivine and its application in the vacuum swing adsorption process. Minerals. 2015, 5(2): 259-275. (IF: 1.835)