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    Zongliang Zuo

    发布人:任孔冰时间:2022年10月31日浏览:

    Name: Zongliang Zuo

    Education: Ph.D. (Northeastern University)  

    Major/Department: Energy and Power Engineering

    Position: associate professor

    Email: zuozongliangneu@163.com

    Employment track(工作履历)

    2019.8—now, associate professor, School of Environmental and Municipal Engineering, Qingdao University of Technology

    Professional Service (学术兼职)

    1. Member of IEEE PES New Energy Technology Subcommittee

    2. Young expert member of National Renewable Resources Industry Technology Innovation Alliance

    3. Visiting editor of Frontiers in Energy Research and Energies

    4. Expert of Shandong Intellectual Property Talent Pool

    Research field(研究领域)

    1. Efficient energy conversion and low-carbon clean utilization

    2. Solid waste’s energy and valuable metals recovery

    Research project(科研项目)

    [1] In situ upgrading mechanism of coal directional catalytic gasification driven by copper slag waste heat in coordination with reducing gas, NSFC Youth Fund, 52104397, 2022.01-2024.12;

    [2] Clean heating technology and demonstration of low nitrogen combustion of biomass mixture, subproject of national key research and development plan, 2020YFD1100302, 2020.10-2022.12;

    [3] Dynamic prediction of multi energy flow in steel industry driven by dual carbon and research on potential of energy conservation and carbon reduction, 2022 Youth Talent Plan of Science and Technology Think Tank, 20220615ZZ071102382022.7-2023.1;

    [4] Study on the mechanism of co pyrolysis of copper slag heat carrier sludge Enteromorpha prolifera and the preparation of activated carbon, Shandong Natural Science Foundation Youth Fund, ZR2020QE150, 2021.01-2023.12;

    [5] Heat and mass transfer mechanism and residue pore control mechanism in thermochemical transformation of municipal sludge catalyzed by steel slag, open project of Shanghai Jiaotong University (Shanghai Solid Waste Treatment and Recycling Engineering Research Center), 20214GFZX004, 2022.1-2023.12

    [6] Research on mechanism of hydrogen rich catalytic gasification of copper slag heat carrier sludge, general project B of Zhejiang University (National Key Laboratory for Clean Energy Utilization), ZJUCEU2021020, 2022.1-2023.12

    [7] Directional catalysis and regulation mechanism of sludge gasification reaction interface driven by copper slag waste heat, an open project of the State Key Laboratory for Clean Utilization of Complex Nonferrous Metal Resources jointly built by Kunming University of Science and Technology, CNMRCUKF2207, 2022.1-2023.12

    Academic achievements(学术成果)

    SCI Journal Paper

    [1] Zuo Zongliang*Luo Siyi*Liu SihongZhang Jingkui, Yu Qingbo, Bi Xuejun. Thermokinetics of mass-loss behavior on direct reduction of copper slag by waste plastic char. Chemical Engineering Journal, 2021, 405: 126671. (Top 期刊,SCI, 1, IF:16.744)

    [2] Zuo Zongliang, Feng Yan, Li Xiaoteng, Luo Siyi*, Ma Jinshuang, Sun Huiping, Bi Xuejun, Yu Qingbo, Zhou Enze, Zhang Jingkui, Guo Jianxiang, Lin Huan. Thermal-chemical conversion of sewage sludge based on waste heat cascade recovery of copper slag: mass and energy analysis. Energy, 2021,23: 121327. (Top 期刊,SCI, JCR: 1, IF: 8.857)

    [3] Zongliang Zuo Yan Feng, Xinjiang Dong, Siyi Luo et al. Advances in recovery of valuable metals and waste heat from copper slag. Fuel Process Technology, 2022 (TopSCI, IF: 8.129)

    [4] Zuo ZongliangFeng YanDong XinjiangLuo Siyiet al. Energy absorption characteristics and kinetics of carbonaceous solid waste gasification with copper slag as heat carrier[J]. International Journal of Hydrogen Energy, 2022. (SCI7.139)

    [5] Zuo Zongliang*, Luo Siyi, Zhang Jingkui, Yu Qingbo. C and CO reduction proportional fraction with copper slag by a phase equilibrium calculation model (PECM). Energy & Fuels, 2020, 34(1): 698-708. (TopSCI, IF: 3.421)

    [6] Zuo Zongliang*, Yu Qingbo, Luo Siyi, Zhang Jingkui. Effects of CaO on two-step reduction characteristics of copper slag using biochar as reducer: thermodynamic and kinetics. Energy & Fuels, 2020, 34(1): 491-500. (TopSCI, IF: 3.421)

    [7] Zuo Zongliang, Yu Qingbo*, Xie Huaqing, Wang Kun, et al. Mechanical and reduction characteristics of cold-pressed copper slag pellets composited within biomass and lignite. Renewable Energy, 2018, 125: 206-224. (TopSCI, IF: 6.274)

    [8] Zuo Zongliang, Yu Qingbo*, Xie Huaqing, Yang Fan, et al. Direct reduction of copper slag-carbon composite pellets by coal and biochar. Environmental Technolgy, 2018: 1479-1487x. (SCI, IF: 1.918)

    [9] Zuo Zongliang, Yu Qingbo*, Xie Huaqing, Duan Wenjun, et al. Thermogravimetric analysis of the biomass pyrolysis with copper slag as heat carrier. Journal of Thermal Analysis and Calorimetry, 2017, 129(2): 1233-1241. (SCI, IF: 2.209)

    [10] Zuo Zongliang, Yu Qingbo*, Xie Huaqing, Yang Fan, et al. Thermodynamic analysis of reduction in copper slag by biomass molding compound based on phase equilibrium calculating model. Journal of Thermal Analysis and Calorimetry, 2018, 132(2): 1277-1289. (SCI, IF: 2.471)

    [11] Zuo Zongliang, Yu Qingbo*, Xie Huaqing, Liu Sihong, et al. Thermodynamic analysis on molten slag waste heat cascade recovery method (MS-WHCR). Journal of Thermal Analysis and Calorimetry, 2018, 134(3): 2171-2181. (SCI, IF: 2.471)

    [12] Zuo Zongliang, Yu Qingbo*, Liu Sihong, Xie Huaqing, et al. Thermodynamic analysis of thermal energy recovery and direct reduction (TER-DR) system for molten copper slag. Journal of Thermal Analysis and Calorimetry, 2017, 131(2): 1691-1698. (SCI, IF: 2.209)

    [13] Zuo Zongliang, Yu Qingbo*, Wei Mengqi, Xie Huaqing, et al. Thermogravimetric study of the reduction of copper slag by biomass. Journal of Thermal Analysis and Calorimetry, 2016, 126(2): 481-491. (SCI, IF: 1.953)

    [14] Zuo, Zongliang, Yu Qingbo*, Liu Junxiang, Qin Qin, et al. Effects of CaO on reduction of copper slag by biomass based on ion and molecule coexistence theory and thermogravimetric experiments. ISIJ International, 2017, 57(2): 220-227. (SCI, IF: 1.350)

    [15] Zuo, Zongliang, Feng Yan, Luo Siyi *, Dong Xinjiang, et al. Combustion characteristics of low calorific value biogas and reaction path of NOx based on sensitivity analysis. Frontiers in Chemistry. 2022, (SCI, IF: 5.545)

    [16] Zuo, Zongliang, Yan Feng, Siyi Luo*, Xinjiang Dong, Xiaoteng Li, Dongdong Ren, Qingbo Yu, Jianxiang Guo. Element distribution and migration behavior in the copper slag reduction and separation process. Frontiers in Energy Research. 2021(SCI, IF: 4.008)

    [17] Feng Yan, Yang Qianhui, Zuo Zongliang *, Luo Siyi, Ren Dongdong, Huan Lin. Study on preparation of oxygen carrier using copper slag as precursor. Frontiers in Energy Research. 2021(SCI, IF: 4.008)

    [18] Zuo, Zongliang, Yu Qingbo*, Xie Huaqing, Qin Qin, Wei Mengqi. Direct reduction of copper slag composite pellets within lignite using biomass as binder. Energy Technology, 2018: 65-75. (Conference paper, EI)

    Patent

    [1] 左宗良,张敬奎,罗思义,于庆波. 一种含铁冶金渣粒梯级余热回收及直接还原系统及方法[P]. ZL 01911273625.4, 2021-05-11. (授权) China patent

    [2] 左宗良,张敬奎,罗思义,于庆波,周恩泽,郭建翔. 利用固体颗粒热载体热解气化的梯级余热回收装置及方法[P]. ZL 01911292252.5, 2021-07-13. (授权) China patent

    [3] 左宗良,高龙,罗思义,董鑫江,刘卓,胡晨耀,张玫晓, 张馨丹. 一种浒苔与污泥制备混合球团及共热解技术工艺和方法[P]. CN113416564A, 2021-09-21. China patent

    [4] 左宗良,陈怡珊,罗思义,彭博,綦玉洁,李晓腾,刘雪洁,任冬冬. 一种粉末成型模具及冷固结型料制备方法[P]. CN113352681A, 2021-09-07. China patent

    [5] 左宗良,罗思义,齐传家,董鑫江,谢皓杰,王金梦,杨千慧,任冬冬,张敬奎,于庆波. 冶金渣粒化-催化剂制备及修饰一体化装置系统及方法[P]. CN113117678A, 2021-07-16. China patent

    [6] 左宗良,罗思义,李晓腾,陈怡珊,高龙,彭博,任冬冬,郭健翔. 一种脲醛树脂与生物质共热解工艺装置系统及方法[P]. CN113088307A,2021-07-09. China patent

    [7] 左宗良,刘雪洁,张敬奎,罗思义,崔红社. 一种铜渣贫化-粒化及余热回收综合处理装置系统及方法[P]. CN113073165A,2021-07-06. China patent

    [8] 左宗良,罗思义,马金双,孙慧萍,任冬冬,郭健翔,张敬奎,孙晋飞. 一种基于局部气化技术的生物质低氮燃烧锅炉[P]. CN113028445A, 2021-06-25. China patent

    [9] 左宗良,韩晓蕾,孙慧萍,闫永胜,李永杰,刘益辰,雷树培,刘雪洁,罗思义. 利用去铁尾渣余热驱动煤与污泥共热解的装置系统及方法[P]. CN112625709A, 2021-04-09. China patent

    [10] 左宗良,王露宁,刘雪洁,罗思义,冯焰,孙慧萍,李晓腾,马金双,张敬奎,任冬冬,郭健翔,于庆波. 一种利用铜渣中金属离子催化水热炭化的工艺及方法[P]. CN112625712A, 2021-04-09. China patent

    [11] 左宗良,刘雪洁,王露宁,周家秀,罗思义,张敬奎,崔红社. 一种浒苔与市政污泥水热共碳化制备活性炭工艺及方法[P]. CN112479204A, 2021-03-12. China patent

    [12] 左宗良,罗思义,刘林,孙伟,薛春丽,温冬花. 一种微波诱导城市生活垃圾气化装置及方法[P]. CN111748379A, 2020-10-09. China patent

    [13] 左宗良,韩晓蕾,马瑛超,付佳婷,罗思义,于庆波. 一种基于煤气化反应梯级吸收铜渣余热的装置系统及方法[P]. CN111733322A, 2020-10-02. China patent

    [14] 左宗良,冯焰,罗思义,张敬奎,郭健翔,于庆波,毕学军. 用于含碳固废化学链气化的载氧体制备工艺及方法[P]. CN111732990A,2020-10-02. China patent

    [15] 左宗良,罗思义,毕学军. 一种利用冶金渣余热分级处理污泥制备富氢合成气的方法[P]. CN111423085A,2020-07-17.China patent

    [16] Zuo Zongliang, Luo Siyi, Qi Chuanjia, Dong Xinjiang, Xie Haojie, Wang Jinmeng, Yang Qianhui, Ren Dongdong, Zhang Jingkui, Yu Qingbo Metallurgical slag granulation catalyst preparation and modification integrated device system and method [P] (South Africa Patent Authorization No.: 2021/08653, 2022-02-23)

    [17] Zuo Zongliang, Zhang Jingkui, Luo Siyi, Yu Qingbo A step waste heat recovery and direct reduction system and method for ferrous metallurgical slag [P] CN110,923,387B, 2021-05-11. (South African patent authorization, authorization No.: 2021/08,518, international application:)