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IntroductionYuxin Yan is currently a lecturer and master advisor at the College of Chemical Engineering, Beijing University of Chemical Technology. Research Focus: The primary research focuses on efficient and clean conversion of heavy organic resources, including biomass pyrolysis/gasification, electromagnetic induction-driven process intensification, carbonate hydrogenation, coal liquefaction, etc. Professional Experience: 2024.06 - , Lecturer, College of Chemical Engineering, Beijing University of Chemical Technology. 2022.01-2022.06, Postdoctoral researcher, College of Chemical Engineering, Beijing University of Chemical Technology. Education Background: 2017.10-2021.06, Doctor Course of School of Chemistry, Faculty of Science, Monash University, Australia. 2014.09-2017.07, Master Course of College of Chemical Engineering, Beijing University of Chemical Technology, China. 2010.09-2014.07, Bachelor Course of College of Environmental and Chemical Engineering, Nanchang Hangkong University, China. EducationWork ExperienceSocial PositionSocial ActivitiesResearchThe primary research focuses on efficient and clean conversion of heavy organic resources, including biomass pyrolysis/gasification, electromagnetic induction-driven process intensification, carbonate hydrogenation, coal liquefaction, etc. TeachingPostgraduatesFunding(1) National Natural Science Foundation of China (NSFC), Young Scientists Fund, Project No. 22308022, Study on the Regulation Mechanism of In-Situ Thermal Conversion of Tar and Coke during Biomass Pyrolysis Based on Electromagnetic Induction Heating, 2024-01-01 to 2026-12-31, Principal Investigator.
(2) China Postdoctoral Science Foundation, International Postdoctoral Exchange Fellowship Program, Project No. YJ20220040, Study on Biomass Conversion to Hydrogen and Small-Molecule Hydrocarbons in High-Temperature Electromagnetic Induction Field, 2022-01 to 2024-01, Completed, Principal Investigator.
(3) Ministry of Education (MOE), Fundamental Research Funds for the Central Universities - Free Exploration Project, Project No. ZY2402, Electromagnetic Induction-Driven Green Hydrogen Self-Catalytic Reduction of Metal Carbonates and Efficient Refining Mechanism, 2024-01 to 2024-12, Completed, Principal Investigator.
(4) Ministry of Science and Technology (MOST), National Key R&D Program of China, Project No. 2022YFB4101303-01, Research on Differential and Efficient Conversion Control Strategies of Macerals in Coal during Direct Coal Liquefaction, 2022-12 to 2026-11, Participant.
(5) China Energy Investment Corporation (CEIC), Enterprise Commissioned Project, Project No. H20230565, Technical Consultation Services for Efficient Liquefaction Performance of Chahaquan Coal in Hami Energy Integrated Innovation Base Project (Chemical Industry), 2023-06 to 2024-08, Completed, Participant.
(6) China Energy Investment Corporation (CEIC), Challenge Project, Project No. SKL2022010, Characteristics of Hydrogen-Donor Solvents and Hydrogen Transfer Mechanism in Direct Coal Liquefaction, 2022-07 to 2024-06, Completed, Participant.
(7) China Tobacco Hunan Industrial Co., Ltd., Enterprise Commissioned Project, Project No. H2022349, Research on Pyrolysis Carbonization of Tobacco Waste and Biomass Energy Recycling - Study on Tar Removal and Potassium Migration during Carbonization, 2022-06 to 2023-12, Completed, Participant. Vertical ProjectHorizontal ProjectPublications(1) Yan Y, Li N, Pan Y, Shi L, Xie G, Liu Z, Liu Q. Hydrogen-rich syngas production from tobacco stem pyrolysis in an electromagnetic induction heating fluidized bed reactor, International Journal of Hydrogen Energy, 2024, 68: 1271-1280. (2) Na Li, Yue Pan, Zhenghao Yan, Qingya Liu, Yuxin Yan, Zhenyu Liu. Cornstalk pyrolysis for syngas in a two-stage electromagnetic induction reactor, Fuel, 2023, 336: 127124. (3) Yan Y, Wang C, Liu Q, Liu Z. Thermochemical degradation of agricultural mulch films for potential organic fertilizer precursors: Low-temperature pyrolysis in nitric acid, Journal of Analytical and Applied Pyrolysis, 2023, 176: 106256. (4) Chen X, Zou Z, Liu Q, Liu Z, Luo W, Xie G, Yan Y. Two-stage pyrolysis for effective tobacco stem utilization and tar reduction, Journal of Analytical and Applied Pyrolysis, 2024, 179: 106468. (5) Yan Y, Qi Y, Stanger A, Jackson W, Tran Q, Marshall M, Chaffee A, Stanger R. Characterisation of coal density fractions separated from Victorian brown coal by reflux classification, Fuel, 2021, 292: 120385. (6) Yan Y, Qi Y, Marshall M, Jackson WR, Chaffee AL. Separation and analysis of maceral concentrates from Victorian brown coal. Fuel, 2019, 242: 232-42. (7) Yan Y, Shi L, Liu Q, Shi X, Wang T, Zhou Q, et al. Coke and radicals formation on a sulfided NiMo/γ-Al2O3 catalyst during hydroprocessing of an atmospheric residue in hydrogen donor media. Fuel Processing Technology, 2017, 159: 404-11. (8) Li N, Pan Y, Yan Z, Shi S, Liu X, Zhang Y, Yan Y, et al. Cornstalk steam gasification for syngas in a two-stage electromagnetic induction reactor. Chemical Engineering Journal, 2024, 488: 150948. (9) Pan Y, Li N, Yan Y, Shi S, Yan Z, Shi L, et al. Novel solid-state calcium carbide synthesis from calcium oxide and walnut shell char by in-situ induction heating. Chemical Engineering Journal, 2023, 461: 142043. (10) Yuan F, Yan Y, Liu Q, Yu J, Liu J, Shen T, et al. Screening of Catalysts for the Methyl Vinyl Ether Reaction in H2. Industrial & Engineering Chemistry Research, 2023, 62 (12): 4885-95. (11) Shen T, Hu Z, Liu Q, Yan Y, Liu Z. Evaluation of hydrogen donation ability of real hydrogen storage solvents by radical precursors. Fuel, 2022, 327: 125070. (12) Zhou Q, Zarei A, De Girolamo A, Yan Y, Zhang L. Catalytic performance of scrap tyre char for the upgrading of eucalyptus pyrolysis derived bio-oil via cracking and deoxygenation. Journal of Analytical and Applied Pyrolysis, 2019, 139: 167-76. (13) Zhou Q, Liu Q, Shi L, Yan Y, Wu J, Xiang C, et al. Effect of volatiles’ reaction on composition of tars derived from pyrolysis of a lignite and a bituminous coal. Fuel, 2019, 242: 140-8. (14) Chen Z, Yan Y, Zhang X, Shi X, Shi L, Liu Q, et al. Behaviors of coking and stable radicals of a heavy oil during thermal reaction in sealed capillaries. Fuel, 2017, 208: 10-9. (15) Zhou Q, Liu Q, Shi L, Yan Y, Liu Z. Behaviors of coking and radicals during reaction of volatiles generated from fixed-bed pyrolysis of a lignite and a subbituminous coal. Fuel Processing Technology, 2017, 161: 304-10. (16) Wu J, Liu Q, Jiang J, Li Z, Shi L, Shi X, Yan Y, et al. Characterization of coke formed during thermal reaction of tar. Energy & Fuels, 2017, 31(1): 464-72. AwardsPatentHonor RewardAdmissions Information |