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姓 名 于 洁 性 别
职 称 副教授 毕业学校
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邮 箱 yujie@hust.edu.cn
通讯地址 武汉市华中科技大学煤燃烧国家重点实验室409
个人资料简介
于洁,男,山东烟台人,华中科技大学能源与动力工程学院副教授。2013年毕业于华中科技大学煤燃烧国家重点实验室,2014-2017年在英国伦敦帝国理工学院化工系博士后研究。入选湖北省楚天学者以及华中科技大学前沿创新青年团队。目前以第一以及通迅作者共发表近40余篇SCI论文,Google他引3000余次,授权8件发明专利。三篇文章分别入选ESI热点论文和高被引论文。承担了国家自然科学基金青年项目、面上项目、重点研发计划子课题,以及科技部高级外国专家项目,总经费500余万。指导学生获得大学生节能减排大赛一等奖和二等奖,指导学生获得本科生本科毕业设计论文百优,指导学生获得国家级大创项目并发表SCI论文三篇,结题优秀;获得校大学生创新创业活动优秀指导教师,校优秀班主任等。讲授《能源互联网与智慧能源》和《自动控制基础》等本科生课程。
招收热能工程、化学工程、环境工程方向的博士、学硕和专硕,诚挚欢迎各位同学推免或报考!与伦敦帝国理工学院、英国萨里大学以及西班牙塞尔维亚大学建立了长期合作交流。优秀学生可推荐帝国理工学院和萨里大学等英国高校进行进行联合培养或推荐攻读博士学位。

教育及工作经历

    2018.11—至今       华中科技大学,副教授
    2017.03—2018.10    华中科技大学,讲师
    2014.11—2017.02    伦敦帝国理工学院,博士后,合作导师:Marcos Millan
    2009.09—2013.06    华中科技大学,热能工程专业,博士

研究方向

    1)生物质制氢研究:配有加压金属网和加压流化床等国际先进设备,主要开展生物质气化制氢研究。
    2)高聚物制碳材料:以烯烃为原料,开展了催化制备碳材料研究,用于海水淡化和钠硫电池电池材料。
    3)热储能研究:主要应用Ebsilon等软件开展储热系统研究与评估。

科研项目

    科研项目:
    1、    危废热利用过程中污染物迁移转化机制 国家重点研发计划(科技部)子任务主持  115万 2018.12-2022.12
    2、    煤粉热解活性还原组份生成及反应机制 国家重点研发计划(科技部) 子任务主持72.35万 2018.05-2020.10
    3、    废旧轮胎催化热解过程中有机硫化物与催化剂和特征主体组份交互作用机制 国家自然科学基金(青年项目)主持  25万 2019.01-2021.12
    4、    生活垃圾分类回收,梯级利用技术研究 主持 武汉市 (5万)
    5、    企业项目:湖北金盛兰120万吨球团SNCR数值模拟 主持(8万)
    6、    企业项目:燃烧电厂SCR机组氨逃逸迁移、危害及防治技术研究辅助研究项目 主持(26万)

代表性论文与专利


    [1]    WANG L, WANG X, YU J. A comparative study of the pyrolysis and hydrolysis conversion of tire [J]. JOURNAL OF HAZARDOUS MATERIALS, 2024, 468.
    [2]    YU J, LIU X, MILLAN M. A study on pyrolysis of wood of different sizes at various temperatures and pressures [J]. FUEL, 2023, 342.
    [3]    XU L, YU J, WANG W, et al. Upgrading and PAHs formation during used lubricant oil pyrolysis at different heating modes [J]. JOURNAL OF ANALYTICAL AND APPLIED PYROLYSIS, 2023, 169.
    [4]    XU L, YU J, WAN G, et al. Pahs emission characteristics and the mitigation in the valuable products from used mineral oil thermolysis recycling [J]. FUEL, 2023, 332.
    [5]    WANG P, YU J, LIU X, et al. On the effect of pellet density on biomass pyrolysis in a pressurized fixed bed reactor [J]. FUEL, 2023, 354.
    [6]    WANG P, QIAO L, WANG W, et al. The behavior of heteroatom compounds during the pyrolysis of waste composite plastics [J]. JOURNAL OF ANALYTICAL AND APPLIED PYROLYSIS, 2023, 173.
    [7]    WANG P, QIAO L, WANG W, et al. Catalytic pyrolysis of waste composite plastics with waste FCC catalyst [J]. JOURNAL OF THE ENERGY INSTITUTE, 2023, 110.
    [8]    WEI X, YU J, DU J, et al. A ReaxFF molecular dynamic study on pyrolysis behavior and sulfur transfer during pyrolysis of vulcanized natural rubber [J]. Waste management (New York, NY), 2022, 139: 39-49.
    [9]    WAN G, YU J, WANG X, et al. Study on the pyrolysis behavior of coal-water slurry and coal-oil-water slurry [J]. JOURNAL OF THE ENERGY INSTITUTE, 2022, 100: 10-21.
    [10]    WAN G, BEI L, YU J, et al. Products distribution and hazardous elements migration during pyrolysis of oily sludge from the oil refining process [J]. CHEMOSPHERE, 2022, 288.
    [11]    DU J, YU J, QIAO L, et al. The reaction mechanism and sulfur evolution during vulcanized nature rubber pyrolysis in the atmosphere of H2O: A ReaxFF molecular dynamics study [J]. POLYMER DEGRADATION AND STABILITY, 2022, 203.
    [12]    YU J, WANG D, SUN L. The pyrolysis of lignin: Pathway and interaction studies [J]. FUEL, 2021, 290.
    [13]    XU L, YU J, WAN G, et al. Emission characteristics and source identification of polycyclic aromatic hydrocarbons (PAHs) from used mineral oil combustion [J]. FUEL, 2021, 304.
    [14]    WEI X, YU J, DU J, et al. New Insights into the Pyrolysis Behavior of Polycarbonates: A Study Based on DFT and ReaxFF-MD Simulation under Nonisothermal and Isothermal Conditions [J]. ENERGY & FUELS, 2021, 35(6): 5026-38.
    [15]    SUN L, CHEN T, BA C, et al. Preparation of sorbents derived from bamboo and bromine flame retardant for elemental mercury removal [J]. JOURNAL OF HAZARDOUS MATERIALS, 2021, 410.
    [16]    HAN Y, YU J, CHEN T, et al. Study on catalytic pyrolysis mechanism of natural rubber (NR) over Zn-modified ZSM5 catalysts [J]. JOURNAL OF THE ENERGY INSTITUTE, 2021, 94: 210-21.
    [17]    BEI L, HAN Y, QIAO L, et al. The  in-situ  effect of H2S on the decomposition of natural rubber and catalyst activity [J]. CHEMOSPHERE, 2021, 283.
    [18]    YU J, ZHANG E, WANG L, et al. The Interaction of NH4HSO4 with Vanadium-Titanium Catalysts Modified with Molybdenum and Tungsten [J]. ENERGY & FUELS, 2020, 34(2): 2107-16.
    [19]    CHEN T, YU J, MA C, et al. Catalytic performance and debromination of Fe-Ni bimetallic MCM-41 catalyst for the two-stage pyrolysis of waste computer casing plastic [J]. CHEMOSPHERE, 2020, 248.
    [20]    YU J, WANG D, ZENG Z, et al. Experimental research on denitrification and elemental mercury removal by Surface Dielectric Barrier Discharge [J]. PROCESS SAFETY AND ENVIRONMENTAL PROTECTION, 2019, 125: 307-16.
    [21]    YU J, ODRIOZOLA J A, REINA T R. Dry Reforming of Ethanol and Glycerol: Mini-Review [J]. CATALYSTS, 2019, 9(12).
    [22]    YU J, LIU S, CARDOSO A, et al. Catalytic pyrolysis of rubbers and vulcanized rubbers using modified zeolites and mesoporous catalysts with Zn and Cu [J]. ENERGY, 2019, 188.
    [23]    MA C, YAN Q, YU J, et al. The behavior of heteroatom compounds during the pyrolysis of waste computer casing plastic under various heating conditions [J]. JOURNAL OF CLEANER PRODUCTION, 2019, 219: 461-70.
    [24]    YU J, SUN L, BERRUECO C, et al. Influence of temperature and particle size on structural characteristics of chars from Beechwood pyrolysis [J]. JOURNAL OF ANALYTICAL AND APPLIED PYROLYSIS, 2018, 130: 127-34.
    [25]    MA C, YU J, CHEN T, et al. Influence of Fe based ZSM-5 catalysts on the vapor intermediates from the pyrolysis of brominated acrylonitrile-butadiene-styrene copolymer (Br-ABS) [J]. FUEL, 2018, 230: 390-6.
    [26]    LIU S, YU J, BIKANE K, et al. Rubber pyrolysis: Kinetic modeling and vulcanization effects [J]. ENERGY, 2018, 155: 215-25.
    [27]    YU J, PATERSON N, BLAMEY J, et al. Cellulose, xylan and lignin interactions during pyrolysis of lignocellulosic biomass [J]. FUEL, 2017, 191: 140-9.
    [28]    MA C, YU J, YAN Q, et al. Pyrolysis-catalytic upgrading of brominated high Impact polystyrene over Fe and Ni modified catalysts: Influence of HZSM-5 and MCM-41 catalysts [J]. POLYMER DEGRADATION AND STABILITY, 2017, 146: 1-12.
    [29]    MA C, YU J, WANG B, et al. Catalytic pyrolysis of flame retarded high impact polystyrene over various solid acid catalysts [J]. FUEL PROCESSING TECHNOLOGY, 2017, 155: 32-41.
    [30]    YU J, SUN L, WANG B, et al. Study on the behavior of heavy metals during thermal treatment of municipal solid waste (MSW) components [J]. ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH, 2016, 23(1): 253-65.
    [31]    YU J, SUN L, MA C, et al. Thermal degradation of PVC: A review [J]. WASTE MANAGEMENT, 2016, 48: 300-14.
    [32]    YU J, SUN L, MA C, et al. Mechanism on heavy metals vaporization from municipal solid waste fly ash by MgCl2•6H2O [J]. WASTE MANAGEMENT, 2016, 49: 124-30.
    [33]    MA C, YU J, WANG B, et al. Influence of Zeolites and Mesoporous Catalysts on Catalytic Pyrolysis of Brominated Acrylonitrile-Butadiene-Styrene (Br-ABS) [J]. ENERGY & FUELS, 2016, 30(6): 4635-43.
    [34]    MA C, YU J, WANG B, et al. Chemical recycling of brominated flame retarded plastics from e-waste for clean fuels production: A review [J]. RENEWABLE & SUSTAINABLE ENERGY REVIEWS, 2016, 61: 433-50.
    [35]    CHEN Z, LIU S, QIAO Y, et al. Gasification of torrefied kitchen waste: release of sodium and its influence on the formation of gasification products [J]. ASIA-PACIFIC JOURNAL OF CHEMICAL ENGINEERING, 2016, 11(5): 785-94.
    [36]    YU J, QIAO Y, SUN L, et al. Detoxification of ashes from a fluidized bed waste incinerator [J]. CHEMOSPHERE, 2015, 134: 346-54.
    [37]    YU J, QIAO Y, JIN L, et al. Removal of toxic and alkali/alkaline earth metals during co-thermal treatment of two types of MSWI fly ashes in China [J]. WASTE MANAGEMENT, 2015, 46: 287-97.
    [38]    YU J, SUN L, XIANG J, et al. New Method of Quantitative Determination of the Carbon Source in Blast Furnace Flue Dust [J]. ENERGY & FUELS, 2014, 28(11): 7235-42.
    [39]    YU J, SUN L, XIANG J, et al. Physical and chemical characterization of ashes from a municipal solid waste incinerator in China [J]. WASTE MANAGEMENT & RESEARCH, 2013, 31(7): 663-73.
    [40]    YU J, SUN L, XIANG J, et al. Kinetic vaporization of heavy metals during fluidized bed thermal treatment of municipal solid waste [J]. WASTE MANAGEMENT, 2013, 33(2): 340-6.
    [41]    YU J, SUN L, XIANG J, et al. Vaporization of heavy metals during thermal treatment of model solid waste in a fluidized bed incinerator [J]. CHEMOSPHERE, 2012, 86(11): 1122-6.

所获荣誉和奖励

    2024年 指导本科生获得百篇优秀本科毕业论文(设计)
    2024年 第二届“创青春”中国青年碳中和创新创业大赛 银奖
    2023年 大学生创新创业训练计划国家级项目 结题优秀
    2023年 第五届全国大学生可再生能源优秀科技作品竞赛二等奖
    2023年 十六届全国大学生节能减排社会实践与科技竞赛三等奖
    2021年 获得优秀教师班主任
    2021年 十四届全国大学生节能减排社会实践与科技竞赛二等奖
    2020年 华中科技大学“大学生创新创业活动优秀指导教师”
    2020年 十三届全国大学生节能减排社会实践与科技竞赛一等奖

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