博士生导师

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王子良

发布日期:2022-10-20 点击数:

基本信息:

王子良,工学博士,教授、博士生导师。山东大学齐鲁青年学者(第一层次)、山东省优青(海外)获得者

团队平台:

燃煤污染物减排国家工程实验室、山东省固废绿色材料工程实验室、山东大学新泰工业技术研究院

联系方式:

E-mail: zwang2022@sdu.edu.cn

研究领域

流态化技术,新型多相流反应器;生物质/有机固废热化学转化技术与装备:烘焙,热解与气化;制氢与储氢;碳纤维制备及应用

研究生招生:

欢迎具有能源、化工、环境、材料等学科背景的优秀本科、硕士和博士加入,课题组常年招收博士后,请邮件联系!

教育经历:

2012-2017:加拿大英属哥伦比亚大学,化学与生物工程专业,工学博士

(导师:John Grace(加拿大工程院院士和皇家学院院士)Jim Lim(加拿大工程院院士))

2009-2012:华南理工大学,化学工程专业,工学硕士

(导师:解东来教授)

2005-2009:中国矿业大学,化学工程与工艺专业,工学学士

工作经历:

2022.08-至今:yl6809永利官网,教授

2022.06-2022.07:加拿大英属哥伦比亚大学/University of British Columbia,化学与生物工程学院,研究助理

2019.06-2022.05:加拿大英属哥伦比亚省研究中心/BC Research Inc,研究员/研究工程师

2019.01-2019.04:加拿大英属哥伦比亚大学/University of British Columbia,化学与生物工程学院,讲师

2017.11-2019.08:加拿大英属哥伦比亚大学/University of British Columbia,化学与生物工程学院,博士后研究员(导师:Xiaotao Bi 加拿大工程院院士)

主要兼职:

山东省固废绿色材料工程实验室副主任

加拿大中国科学技术协会常务理事

第十三届国际流化床技术会议(CFB-13)组织者

Green Energy and Resources期刊编委和执行编辑

中国可再生能源学会生物质能专业委员会会员

江苏省海外专家工作室成员

Bioresource TechnologyEnergy Conversion and ManagementJournal of Analytical and Applied PyrolysisPowder TechnologyRenewable EnergyIndustrial & Engineering Chemistry ResearchEnergy & Fuels等期刊审稿人等。

荣誉与奖励:

[1] 农林废弃物资源化处理关键技术研究、智能装备创制与应用, 2022“创业沂蒙·共赢未来高层次人才创新创业大赛优胜奖, 中共临沂市组织部, 2022.12.

[2] BioProducts Institute (BPI)举办的 Research Day最佳海报一等奖, 2018.9

[3] UBC Postdoctoral Teaching Fellowship, 2019.1

[4] Mitacs Accelerate Fellowship, 2017.11

承担/参与主要项目:

[1] 甲烷直接裂解制氢,山东省优秀青年科学基金项目(海外)2023.1-2025.12,项目负责人

[2] 有机固废气化技术和装备研发,企业横向,2023.1-2025.12,项目负责人

[3] 山东大学高层次人才计划齐鲁青年学者(第一层次)2022.8-2027.8,项目负责人

入职山东大学之前,已完成了加拿大自然科学基金战略合作项目和加拿大自然科学基金发现资助计划项目、Alberta Innovates项目、Mitacs项目,以及与世界知名企业(Syncrude, Huntsman, Suncor, Highbury Energy Inc)合作研发等十项课题,主持并完成了多项生物质烘焙、热解和气化中试和工业示范系统研发。

近年来代表性论文:

[1] Shanshan Liu, Xinyan Zhang*, Wenlong Wang, Ziliang Wang, Xiqiang Zhao, Yanpeng Mao, Jing Sun, Zhanlong Song, Alkaline etched hydrochar–based magnetic adsorbents produced from pharmaceutical industry waste for organic dye removal, Environmental Science and Pollution Research (2023) 30:65631–65645(IF=5.19, 3)

[2] Gen Liu, Rongjiang Zhang, Bo Zhang, Jingjun Liu, Zhiqiang Wu*, Ziliang Wang*, Fu Yang, and Bolun Yang, Performance evaluation of torrefaction coupled with a chemical looping gasification process under autothermal conditions: Flexible syngas production from biomass, Energy & Fuels 2023, 37, 1, 424–438. (co-corresponding author) (IF=4.654, 3)

[3] Rongjiang Zhang, Wei Guo, Zhongshun Sun, Jingjun Liu, Panxi Yang, Zhiqiang Wu*, Ziliang Wang*, Bolun Yang, Effects of oxidative torrefaction conditions on the biomass liquid chemical looping reaction from the perspective of thermal behavior and kinetic analysis, Fuel 331 (2023) 125924. (IF=8.035, 1TOP)

[4] Linbo Yan*, Luchao Wang, Ziliang Wang, Cong Geng, Boshu He, Baizeng Fang*, Research on a new drag force model for cylindrical particles in fixed bed reactors. Catalysts 2022, 12, 1120. (IF=4.501, 3)

[5] Linbo Yan*, Ziyue Jia, Ziliang Wang, Boshu He and Baizeng Fang, Numerical research on biomass gasification in a quadruple fluidized bed gasifier, Processes 2022, 10(12), 2526. (IF=3.352, 3)

[6] Hao Chen, Yiming Wang, Linbo Yan *, Ziliang Wang, Boshu He and Baizeng Fang, Energy and exergy analysis on a blast furnace gas-driven cascade power cycle, Energies 2022, 15, 8078. (IF=3.252, 4)

[7] Ruixu Wang, Ziliang Wang, Xiaotao Bi*, C. Jim Lim, Residence time distribution and solids mixing of sawdust in a horizontal pulsed fluidized bed, Powder Technology 397(2022): 117006. (IF=5.64, 2TOP)

[8] Yiteng Zhang, Xingxing Cheng*, Ziliang Wang, Mudassir Hussain Tahir, Zhiqiang Wang, Xuetao Wang, and Chao Wang. Full recycling of high-value resources from cabbage waste by multi-stage utilization. Science of The Total Environment 804 (2022): 149951. (IF=10.753, 1TOP)

[9] Jialin Song#, Ziliang Wang#, Xingxing Cheng*, Xiuping Wang, State-of-art review of NO reduction technologies by CO, CH4, and H2, Processes, 9.3 (2021): 563. (Co-first author) (IF=3.352, 3)

[10] Rongjiang Zhang, Jie Zhang, Wei Guo, Zhiqiang Wu*, Ziliang Wang*, Bolun Yang, Effect of torrefaction pretreatment on biomass chemical looping gasification (BCLG) characteristics: Gaseous products distribution and kinetic analysis, Energy Conversion and Management, 237 (2021): 114100. (Co-corresponding author) (IF=11.533, 1TOP)

[11] Bo Zhang, Bolun Yang, Song Wu, Wei Guo, Jie Zhang, Zhiqiang Wu*, Ziliang Wang*, Jim C. Lim, Effect of torrefaction pretreatment on the fast pyrolysis behavior of biomass: product distribution and kinetic analysis on spruce-pin-fir sawdust, Journal of Analytical and Applied Pyrolysis, (2021): 105259 (Co-corresponding author). (IF=6.437, 2)

[12] Huimin Yun#, Ziliang Wang#, Ruixu Wang, Xiaotao Bi*, Weihsin Chen, Identification of suitable biomass torrefaction operation envelops for auto-thermal operation, Frontiers in Energy Research, DOI: 10.3389/fenrg.2021.636938. (Co-first author) (IF=3.858, 4)

[13] Linbo Yan*, Luchao Wang, Ziliang Wang, Yang Cao, Boshu He, Comparison of three biomass-based carbon-negative power generation systems. Journal of Cleaner Production, 285 (2021): 125424. (IF=11.072, 1TOP)

[14] Yanni Xi, Xingzhong Yuan*, Mengjiao Tan, Shilin Jiang, Ziliang Wang, Zhongliang Huang, Jing Huang, Hou Wang, Longbo Jiang, Hui Li*, Properties of oxidatively torrefied Chinese fir residue: Color dimension, pyrolysis kinetics, and storage behavior. Fuel Processing Technology (2021): 106663. (IF=8.129, 1TOP)

[15] Ruixu Wang#, Ziliang Wang, Xiaotao Bi*, C. Jim Lim, Shahabaddine, Sokhansanj, Chang Soo Ki, measurement of residence time distribution of sawdust in a horizontal fluidized bed with gas pulsation, Proceeding of the 13th International conference on fluidized bed technology, Vancouver, BC, Canada, 2021.05.10-14:461.

[16] Linbo Yan*, Yang Cao, Ziliang Wang, Boshu He, On a novel carbon-negative IGCC system with cascade CO2 combined cycle. Energy Conversion and Management, 221 (2020): 113202. (IF=11.533, 1TOP)

[17] Jie Ren, Ziliang Wang; Boshu He; Linbo Yan*, Ziqi Wang, Guangchao Ding, Zhaoping Ying, Hydrodynamic characteristics in a cold flow model of quadruple fluidized bed gasifier. Industrial & Engineering Chemistry Research, 59.10 (2020), 4775-4784. (IF=4.326, 3)

[18] Ziliang Wang*, C. Jim Lim, John R. Grace, A comprehensive study of sawdust torrefaction in a novel dual-compartment slot-rectangular spouted bed reactor. Energy 189 (2019): 116306. (IF=8.857, 1TOP)

[19] Ziliang Wang*, C. Jim Lim, John R. Grace, Biomass torrefaction in a slot-rectangular spouted bed reactor. Particuology 42 (2019) 154–162. (IF=3.251, 2)

[20] Hideki Takeuchi*, Ziliang Wang, C. Jim Lim, John R. Grace, Hydrodynamic characteristics of sawdust in a pulsed slot-rectangular spouted bed. Powder Technology 339 (2018) 995–1004. (IF=5.64, 2TOP)

[21] Ziliang Wang*, Hui Li, C. Jim Lim, John R. Grace, Oxidative torrefaction of biomass in a slot-rectangular spouted bed reactor. Energy Conversion and Management 174 (2018) 276–287. (IF=11.533, 1TOP)

[22] Hui Li*, Siyuan Wang; Zhongliang Huang; Xingzhong Yuan; Ziliang Wang; Rao He; Yanni Xi; Xuan Zhang; Mengjiao Tan; Jing Huang; Dan Mo; Changzhu Li, Effect of hydrothermal carbonization on storage process of woody pellets: pellets' properties and aldehydes/ketones emission. Bioresource Technology 260 (2018) 115-123. (IF=11.889, 1TOP)

[23] Ziliang Wang*, C. Jim Lim, John R. Grace, Hui Li, Maria Regina Parise, Effects of temperature and particle size on biomass torrefaction in a slot-rectangular spouted bed reactor. Bioresource Technology 244 (2017) 281-288. (IF=11.889, 1TOP)

[24] Maria Regina Parise*, Ziliang Wang, C. Jim Lim, John R. Grace, Hydrodynamics of a slot-rectangular spouted bed of biomass particles with simultaneous injection of spouting and pulsating air streams. Chemical Engineering Journal 330 (2017) 82-91. (IF=16.744, 1TOP)

[25] Ziliang Wang, C. Jim Lim, John R. Grace*, Solids mixing in a dual-column slot-rectangular spouted bed, Powder Technology 301 (2016) 1264-1269. (IF=5.64, 2TOP)

[26] Ziliang Wang*, Maysam Saidi, C. Jim Lim, John R. Grace, H. Basirat Tabrizi, Zhiwei Chen, Yonghua Li, Comparison of DEM simulation and experiments in a dual-column slot-rectangular spouted bed with a suspended partition. Chemical Engineering Journal 290 (2016) 63-73. (IF=16.744, 1TOP)

[27] Maysam Saidi*, Ziliang Wang, John R. Grace, C. Jim Lim, Numerical and experimental investigation of hydrodynamic characteristics of a slot-rectangular spouted bed. Canadian Journal of Chemical Engineering 94 (2015) 332-339. (IF=2.5, 4)

[28] Juan F. Saldarriaga*, John R. Grace, C. Jim Lim, Ziliang Wang, Nong Xu, Aitor Atxutegi, Roberto Aguado, and Martin Olazar. Bed-to-surface heat transfer in conical spouted beds of biomass–sand mixtures. Powder Technology 283 (2015) 447-454. (IF=5.64, 2TOP)

[29] Matheus B. Braga, Ziliang Wang, John R. Grace, C. Jim Lim, and Sandra CS Rocha*, Slot-rectangular spouted bed: Hydrodynamic stability and effects of operating conditions on drying performance. Drying Technology 33 (2014) 216-226. (IF= 3.556, 3)

[30] Donglai Xie*, Jie Zhao, Ziliang Wang, Yajun Zhang, Syngas production from oxidative methane reforming and CO cleaning with water gas shift reaction. International Journal of Hydrogen Energy 38 (2013) 10826-10832. (IF=7.139, 2TOP)

[31] Donglai Xie*, Ziliang Wang, Lian Jin, Yajun Zhang. Energy and exergy analysis of a fuel cell based micro combined heat and power cogeneration system. Energy and Buildings 50 (2012) 266-272. (IF= 7.201, 2TOP)

[32] Donglai Xie*, Ang Peng, Ziliang Wang, Yajun Zhang. Hydrogen production for fuel cells by a methane reformer integrated with steam generation. International Journal of Chemical Reactor Engineering 10, no. 1 (2012). (IF= 1.636, 4)

[33] Donglai Xie*, Weiyan Qiao, Ziliang Wang, Weixing Wang, Hao Yu, Feng Peng, Reaction/separation coupled equilibrium modeling of steam methane reforming in fluidized bed membrane reactors. International Journal of Hydrogen Energy 35 (2010) 11798-11809. (IF=7.139, 2TOP)

[34] Guanqun Gong*, Guangyuan Xie, Yingjie Zhang, Ziliang Wang, Jin Wang, Linghui Xie, Zhenfu Luo. Effect of a starch-based filter aid on the dewatering of fine clean coal. Mining Science and Technology 20, 4 (2010): 635-640. (IF=7.67, 1TOP)

近年来代表性专利:

[1] 解东来,王子良,一种富氢气体中CO深度脱除装置(CN202246046U),实用新型专利, 2012

[2] 解东来,王子良,一种富氢气体中CO深度脱除方法及装置(CN102424361B),发明专利,2013

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