教育及工作经历

2023.3至今   华中科技大学 副教授
2019.7-2023.3 华中科技大学 讲师
2017.6-2019.7 华中科技大学煤燃烧国家重点实验室 博士后（博新计划）
2012.9-2017.6  华中科技大学能源与动力工程学院  博士研究生
2008.9-2012.7  华中科技大学能源与动力工程学院  本科

研究方向

燃烧源PM2.5、碳烟的生成机理与生成控制；
低碳/零碳燃料清洁高效燃烧
新型能源动力技术

科研项目

主持：
国家自然科学基金青年基金1项；
中国博士后创新人才支持计划项目1项；
中国博士后科学基金面上项目1项；
华中科技大学技术创新基金1项；

参与：
国家重点研发计划项目2项
973项目1项；
国家自然科学基金面上项目3项；
中国工程院咨询研究项目1项等；

此外，作为负责人或主要执行人主持或参与横向服务项目20余项，服务20余家电厂、钢厂等企业。

代表性论文与专利

代表性论文：
[1]    Kai Zhang, Yishu Xu*, Yu Li, Yang Liu, Bowen Wang, Huakun Wang, Jingjing Ma, Xiaobei Cheng. Effects of ammonia on morphological characteristics and nanostructure of soot in the combustion of diesel surrogate fuels. Journal of Hazardous Materials. 2023. 445: 130645
[2]    Yang Liu , Yishu Xu*, Kai Zhang , Pu Zhang , Xiaobei Cheng*. Effects of ammonia addition on soot formation in ethylene laminar diffusion flames. Part 3. The morphology and nanostructure of soot particles. Fuel, 2023, 332: 126082.
[3]    Kai Zhang, Yishu Xu*, Yang Liu, Huakun Wang, Yimin Liu, Xiaobei Cheng. Effects of ammonia addition on soot formation in ethylene laminar diffusion flames. Part 2. Further insights into soot inception, growth and oxidation. Fuel, 2023, 331: 125623.
[4]    Kai Zhang, Yishu Xu*, Longjiang Qin, Yang Liu, Huakun Wang, Yimin Liu, Xiaobei Cheng*. Experimental and numerical study of soot volume fraction and number density in laminar co-flow diffusion flames of n-decane/n-butanol blends. Fuel, 2022, 330: 125620.
[5]    Bowen Wang, Yishu Xu*, Zuozhou Jiang, Yang Liu, Kai Zhang, Xiaobei Cheng*, JunjieYao. Effects of prenol and isoprenol addition on soot and PAH formation in ethylene/methane counterflow diffusion flames. Fuel, 2023, 331: 125783.
[6]    Jingji Zhu, Xiaowei Liu*, Yishu Xu*, Jingying Xu, Huakun Wang, Kai Zhang, Xiaobei Cheng, Dunxi Yu. Probing into volatile combustion flame and particulate formation behavior during the coal and ammonia co-firing process. Energy & Fuels, 2022, 36: 9347–9356.
[7]    Huakun Wang, Yishu Xu*, Kai Zhang, Baohua Zhang, Shanshan Min, Yimin Liu, Jingji Zhu and Jingjing Ma. Impacts of nano SiO2 addition on the formation of ultrafine particulate matter during coal combustion. Atmosphere, 2022, 13: 1624.
[8]    Yishu Xu, Huakun Wang, Xiaowei Liu, Jingji Zhu, Jingying Xu*, Minghou Xu. Mitigating CO2 emission in pulverized coal-fired power plant via co-firing ammonia: A simulation study of flue gas streams and exergy efficiency. Energy Conversion and Management, 2022, 256: 115328.
[9]    Yishu Xu, Xiaowei Liu*, Jiuxin Qi, Huakun Wang, Xiaobei Cheng, Jingying Xu. Insight into soot formed in coal combustion flame: Evolution of physiochemical structure, oxidation reactivity. Fuel, 2022,312:122948.
[10]    Yishu Xu, Xiaowei Liu*, Jingji Zhu, Kai Zhang, Huakun Wang, Jingying Xu, Minghou Xu. Reducing the central mode particulate matter in coal combustion by additives: Impacts of nano Al2O3 and TiO2 addition. Fuel, 2022, 312: 122989.
[11]    Xiaobei Cheng, Yu Li, Yishu Xu*, Yang Liu, Bowen Wang. Study of effects of ammonia addition on soot formation characteristics in n-heptane co-flow laminar diffusion flames. Combustion and Flame 2022, 235 111683.
[12]    Yang Liu, Xiaobei Cheng*, Yu Li, Liang Qiu, Xin Wang, Yishu Xu*. Effects of ammonia addition on soot formation in ethylene laminar diffusion flames. Fuel 2021, 292, 120416.              
[13]    Yishu Xu, Xiaowei Liu,* Jiuxin Qi, Tianpeng Zhang, Zhaofeng Wang, Jingji Zhu, and Minghou Xu. Evolution of Particulate Matter in a Municipal Solid Waste Incinerator: Probing into the Effects of a Rotary Spray Semi-dry Scrubber and a Baghouse. Energy & Fuels 2021, 35, 4237−4245.  
[14]    Yishu Xu, Xiaowei Liu,* Jiuxin Qi, Tianpeng Zhang, Minghou Xu, Fangfang Fei, Dingqing Li. Effects of kaolin-limestone blended additive on the formation and emission of particulate matter: Field study on a 1000MW coal-firing power station. Journal of Hazardous Materials, 2020, 399, 123091.
[15]    Yishu Xu, Xiaowei Liu*, Hao Wang, Yufeng Zhang, Jiuxin Qi, and Minghou Xu*. Investigation of simultaneously reducing the emission of ultrafine particulate matter and heavy metals by adding modified attapulgite during coal combustion. Energy & Fuels 2019, 33, 1518−1526.  
[16]    Yishu Xu, Xiaowei Liu*, Hao Wang, Xianpeng Zeng, Yufeng Zhang, Jinke Han, Minghou Xu*, Siwei Pan. Influences of in-furnace kaolin addition on the formation and emission characteristics of PM2.5 in a 1000 MW coal-fired power station. Environmental Science & Technology 2018: 52(15): 8718–8724.
[17]    Yishu Xu, Xiaowei Liu*, Yu Zhang, Wei Sun, Yingchao Hu, Minghou Xu*. A novel Ti-based sorbent for reducing ultrafine particulate matter formation during coal combustion. Fuel 2017, 193: 72–80.  
[18]    Yishu Xu, Xiaowei Liu*, Penghui Zhang, Junzhe Guo, Jinke Han, Zijian Zhou, Minghou Xu*. Role of chlorine in ultrafine particulate matter formation during the combustion of a blend of high-Cl coal and low-Cl coal. Fuel 2016, 184: 185–191.   
[19]    Yishu Xu, Xiaowei Liu*, Jiang Cui, Dong Chen, Minghou Xu*, Siwei Pan, Kai Zhang, Xiangpeng Gao. Field Measurements on the Emission and Removal of PM2.5 from Coal-Fired Power Stations: 4. PM Removal Performance of Wet Electrostatic Precipitators. Energy & Fuels 2016, 30(9): 7465–7473.  (2区，IF-3.605)
[20]    Yishu Xu, Xiaowei Liu*, Yu Zhang, Wei Sun, Zijian Zhou, Minghou Xu*, et al. Field measurements on the emission and removal of PM2.5 from coal-fired power stations: 3. direct comparison on the PM removal efficiency of electrostatic precipitators and fabric filters. Energy & Fuels 2016, 30 (7): 5930–5936.
[21]    Xiaowei Liu, Yishu Xu, Bin Fan, Chen Lv, Minghou Xu*, et al. Field measurements on the emission and removal of PM2.5 from coal-fired power stations: 2. studies on two 135 MW CFB boilers respectively equipped with electrostatic precipitator and hybrid electrostatic filter precipitator. Energy & Fuels 2016, 30 (7): 5922–5929.
[22]    Xiaowei Liu, Yishu Xu, Xianpeng Zeng, Yu Zhang, Minghou Xu*, et al. Field measurements on the emission and removal of PM2.5 from coal-fired power stations: 1. a case study for a 1000 MW ultra-supercritical utility boiler. Energy & Fuels 2016, 30(8): 6547–6554.
[23]    Yishu Xu, Xiaowei Liu*, Zijian Zhou, Lei Sheng, Chao Wang, Minghou Xu*. The role of steam in silica vaporization and ultrafine particulate matter formation during wet oxy-coal combustion. Applied Energy 2014, 133: 144–151.       
[24]    Lei Sheng, Xiaowei Liu*, Junping Si, Yishu Xu, Zijian Zhou, Minghou Xu*. Simulation and comparative exergy analyses of oxy-steam combustion and O2/CO2 recycled combustion pulverized-coal-fired power plants. International Journal of Greenhouse Gas Control 2014, 27: 267–278.   
[25]    Xin Wang, Xiaobei Cheng*, Hao Lu, Yishu Xu, Yang Liu, Renwei Wang, Junjie Yao. Quantifying the role of Darrieus–Landau instability in turbulent premixed flame speed determination at various burner sizes. Physics of Fluids 2021, 33, 025104.       
[26]    Chao Wang, Xiaowei Liu*, Dong Li, Wangchen Wu, Yishu Xu, Junping Si, Bo Zhao, Minghou Xu*. Effect of H2O and SO2 on the distribution characteristics of trace elements in particulate matter at high temperature under oxy-fuel combustion. International Journal of Greenhouse Gas Control 2014, 23: 51–60.   
[27]    Yu Zhang, Xiaowei Liu*, Yishu Xu, Wei Sun, Minghou Xu*. Investigation of reducing ultrafine particulate matter formation by adding modified montmorillonite during coal combustion. Fuel Processing Technology 2017, 158: 264–271.            
[28]    Wei Sun, Xiaowei Liu*, Yishu Xu, Yu Zhang, Dong Chen, Minghou Xu*. Effects of the modified kaolin sorbents on the reduction of ultrafine particulate matter (PM0.2) emissions during pulverized coal combustion [J]. Fuel 2018, 215: 153–160.    
[29]    Jingying Xu*, Yue Lyu, Jiankun Zhuo, Yishu Xu, Zijian Zhou, Qiang Yao*, Formation and emission characteristics of VOCs from a coal-fired power plant. Chinese Journal of Chemical Engineering, 2021, 35: 256–264.
[30]    Aoyang Zhang, Xiaowei Liu∗, Yishu Xu, Tianpeng Zhang, Minghou Xu. An improved model of fine particulate matter formation coupling the mechanism of mineral coalescence and char fragmentation during pulverized coal combustion. Proceedings of the Combustion Institute 000 (2022) 1–12.
代表性专利：
[1]    刘小伟;徐义书;王华坤;徐静颖;张凯;朱鸿玮;于敦喜.一种带有折流结构的掺氨旋流燃烧器.专利号：202210504241.4
[2]    徐义书, 王华坤, 徐静颖, 刘小伟, 于敦喜, 徐明厚. 一种掺氨电厂间接空冷系统及其控制方法.专利号：202111675345.3
[3]    徐义书, 王华坤, 徐静颖, 刘小伟, 于敦喜, 徐明厚. 一种掺氨电厂中利用氨冷能的直接空冷系统.专利号：202111670806.8
[4]    徐义书, 刘小伟, 张鹏辉, 王浩, 徐明厚. 一种利用粉煤灰降低燃烧源颗粒物的方法. 专利号：201710068311.5
[5]    刘小伟, 张宇, 徐义书, 张鹏辉，徐明厚. 一种用于燃煤颗粒物减排的吸附剂添加系统.专利号：201611246035.5.
[6]    刘小伟, 孙伟, 徐明厚, 王超, 徐义书, 陈栋. 一种基于改性高岭土的燃煤超细颗粒物控制方法. 专利号：201410840918.7.

所获荣誉和奖励

中国南方电网公司科技进步奖
中国工程热物理学会“吴仲华奖励基金”优秀研究生奖