Associate Professor
Phone 027-87542417-8409
Email: yujie@hust.edu.cn
Academic Areas: Thermal Engineering
Research Interests: Biomass Pyrolysis; Solid Waste; Modelling
Academic Degrees
PhD, 2013 , Huazhong university of science and technology
Bachelor, 2008, China University of Petroleum.
Professional Experience
Associate Professor (2018-present); Huazhong University of Science and Technology;
Lecturer (2017-2018); Huazhong University of Science and Technology;
Research Associate (2014-2017): Imperial College London, UK
Selected Publications
[1] Bei L, Han Y, Qiao L, Bikane K, Yu J, Sun L. The in-situ effect of H2S on the decomposition of natural rubber and catalyst activity. Chemosphere. 2021;283:131252-.
[2] Chen T, Yu J, Ma C, Bikane K, Sun L. Catalytic performance and debromination of Fe-Ni bimetallic MCM-41 catalyst for the two-stage pyrolysis of waste computer casing plastic. Chemosphere. 2020;248:125964-.
[3] Chen Z, Liu S, Qiao Y, Wang W, Sun Q, Zhang K, et al. Gasification of torrefied kitchen waste: release of sodium and its influence on the formation of gasification products. ASIA-PACIFIC JOURNAL OF CHEMICAL ENGINEERING. 2016;11:785-94.
[4] Han Y, Yu J, Chen T, Liu X, Sun L. Study on catalytic pyrolysis mechanism of natural rubber (NR) over Zn-modified ZSM5 catalysts. JOURNAL OF THE ENERGY INSTITUTE. 2021;94:210-21.
[5] Liu S, Yu J, Bikane K, Chen T, Ma C, Wang B, et al. Rubber pyrolysis: Kinetic modeling and vulcanization effects. ENERGY. 2018;155:215-25.
[6] Ma C, Yan Q, Yu J, Chen T, Wang D, Liu S, et al. The behavior of heteroatom compounds during the pyrolysis of waste computer casing plastic under various heating conditions. JOURNAL OF CLEANER PRODUCTION. 2019;219:461-70.
[7] Ma C, Yu J, Chen T, Yan Q, Song Z, Wang B, et al. Influence of Fe based ZSM-5 catalysts on the vapor intermediates from the pyrolysis of brominated acrylonitrile-butadiene-styrene copolymer (Br-ABS). FUEL. 2018;230:390-6.
[8] Ma C, Yu J, Wang B, Song Z, Xiang J, Hu S, et al. Chemical recycling of brominated flame retarded plastics from e-waste for clean fuels production: A review. RENEWABLE & SUSTAINABLE ENERGY REVIEWS. 2016;61:433-50.
[9] Ma C, Yu J, Wang B, Song Z, Xiang J, Hu S, et al. Catalytic pyrolysis of flame retarded high impact polystyrene over various solid acid catalysts. FUEL PROCESSING TECHNOLOGY. 2017;155:32-41.
[10] Ma C, Yu J, Wang B, Song Z, Zhou F, Xiang J, et al. Influence of Zeolites and Mesoporous Catalysts on Catalytic Pyrolysis of Brominated Acrylonitrile-Butadiene-Styrene (Br-ABS). ENERGY & FUELS. 2016;30:4635-43.
[11] Ma C, Yu J, Yan Q, Song Z, Wang K, Wang B, et al. Pyrolysis-catalytic upgrading of brominated high Impact polystyrene over Fe and Ni modified catalysts: Influence of HZSM-5 and MCM-41 catalysts. POLYMER DEGRADATION AND STABILITY. 2017;146:1-12.
[12] Sun L, Chen T, Ba C, Reina TR, Yu J. Preparation of sorbents derived from bamboo and bromine flame retardant for elemental mercury removal. JOURNAL OF HAZARDOUS MATERIALS. 2021;410.
[13] Wei X, Yu J, Du J, Sun L. New Insights into the Pyrolysis Behavior of Polycarbonates: A Study Based on DFT and ReaxFF-MD Simulation under Nonisothermal and Isothermal Conditions. ENERGY & FUELS. 2021;35:5026-38.
[14] Xu L, Yu J, Wan G, Sun L. Emission characteristics and source identification of polycyclic aromatic hydrocarbons (PAHs) from used mineral oil combustion. FUEL. 2021;304.
[15] Yu J, Liu S, Cardoso A, Han Y, Bikane K, Sun L. Catalytic pyrolysis of rubbers and vulcanized rubbers using modified zeolites and mesoporous catalysts with Zn and Cu. ENERGY. 2019;188.
[16] Yu J, Odriozola JA, Reina TR. Dry Reforming of Ethanol and Glycerol: Mini-Review. CATALYSTS. 2019;9.
[17] Yu J, Paterson N, Blamey J, Millan M. Cellulose, xylan and lignin interactions during pyrolysis of lignocellulosic biomass. FUEL. 2017;191:140-9.
[18] Yu J, Paterson N, Millan M. The primary products of cellulose pyrolysis in the absence of extraparticle reactions. FUEL. 2019;237:911-5.
[19] Yu J, Qiao Y, Jin L, Ma C, Paterson N, Sun L. Removal of toxic and alkali/alkaline earth metals during co-thermal treatment of two types of MSWI fly ashes in China. WASTE MANAGEMENT. 2015;46:287-97.
[20] Yu J, Qiao Y, Sun L, Jin L, Wang W, Ma C. Detoxification of ashes from a fluidized bed waste incinerator. CHEMOSPHERE. 2015;134:346-54.
[21] Yu J, Sun L, Berrueco C, Fidalgo B, Paterson N, Millan M. Influence of temperature and particle size on structural characteristics of chars from Beechwood pyrolysis. JOURNAL OF ANALYTICAL AND APPLIED PYROLYSIS. 2018;130:127-34.
[22] Yu J, Sun L, Ma C, Qiao Y, Xiang J, Hu S, et al. Mechanism on heavy metals vaporization from municipal solid waste fly ash by MgCl2 center dot 6H(2)O. WASTE MANAGEMENT. 2016;49:124-30.
[23] Yu J, Sun L, Ma C, Qiao Y, Yao H. Thermal degradation of PVC: A review. WASTE MANAGEMENT. 2016;48:300-14.
[24] Yu J, Sun L, Wang B, Qiao Y, Xiang J, Hu S, et al. Study on the behavior of heavy metals during thermal treatment of municipal solid waste (MSW) components. ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH. 2016;23:253-65.
[25] Yu J, Sun L, Xiang J, Hu S, Su S. Kinetic vaporization of heavy metals during fluidized bed thermal treatment of municipal solid waste. WASTE MANAGEMENT. 2013;33:340-6.
[26] Yu J, Sun L, Xiang J, Hu S, Su S, Qiu J. Vaporization of heavy metals during thermal treatment of model solid waste in a fluidized bed incinerator. CHEMOSPHERE. 2012;86:1122-6.
[27] Yu J, Sun L, Xiang J, Hu S, Su S, Wang Y. New Method of Quantitative Determination of the Carbon Source in Blast Furnace Flue Dust. ENERGY & FUELS. 2014;28:7235-42.
[28] Yu J, Sun L, Xiang J, Jin L, Hu S, Su S, et al. Physical and chemical characterization of ashes from a municipal solid waste incinerator in China. WASTE MANAGEMENT & RESEARCH. 2013;31:663-73.
[29] Yu J, Wang D, Sun L. The pyrolysis of lignin: Pathway and interaction studies. FUEL. 2021;290.
[30] Yu J, Wang D, Zeng Z, Sun L. Experimental research on denitrification and elemental mercury removal by Surface Dielectric Barrier Discharge. PROCESS SAFETY AND ENVIRONMENTAL PROTECTION. 2019;125:307-16.
[31] Yu J, Zhang E, Wang L, Song Z, Kong F, Ma Y, et al. The Interaction of NH4HSO4 with Vanadium-Titanium Catalysts Modified with Molybdenum and Tungsten. ENERGY & FUELS. 2020;34:2107-16.
Projects
1. National Natural Science Foundation of China:52176186, Research on hydrothermal treatment of waste tire, 2022/01—2025/12.
2. National Natural Science Foundation of China:51806078, Research on catalytic pyrolysis of waste tire, 2019/01—2021/12.
