教育及工作经历

1997.9-2001.6，华中科技大学制冷与低温技术专业，本科
2001.9-2007.12，华中科技大学热能工程专业，硕博连读
2007.12-2009.12，华中科技大学材料科学与工程，博士后
2010.1-2012.11，煤燃烧国家重点实验室，讲师
2012.11-2021.11，煤燃烧国家重点实验室，副教授
2021.11-，煤燃烧国家重点实验室，教授
2016.9-2017.9，威斯康星大学麦迪逊分校化学与生物化学系，访问学者

研究方向

生物质热化学转化
流化床燃烧与技术
热能转化新技术

科研项目

1.国家重点研发计划国际合作重点专项：基于焦油深度脱除的生物质定向气化及其高效清洁利用技术研究与示范，主持
2.国家重点研发计划子课题：煤与生物质直接耦合发电系统评价，主持
3.国家自然科学基金面上项目：基于组分的生物质分级液化机理及产物分离方法研究，主持
4.公益性行业（农业）科研专项课题：热解炭化液体产物高效复合冷凝技术与设备，主持
5.国家自然科学基金青年基金：生物质热解焦炭选择性吸附生物油用于改质提升的基础研究，主持

代表性论文与专利

1.An improved gasification kinetic model for biochar with high alkali and alkaline earth metals content. Fuel, 2023, 342, 127849.
2.Improving the staged gasification of crop straw by choosing a suitable devolatilization temperature. Journal of the Energy Institute, 2023, 108, 101221.
3.Valorization of the microalgae fixing CO2 from flue gas by co-hydrothermal liquefaction with high-protein microalgae: Denitrogenation of bio-oil by ash and high energy recovery. Fuel, 2023, 340, 127566.
4.Evolution pathway of nitrogen in hydrothermal liquefaction polygeneration of Spirulina as the typical high-protein microalgae. Algal Research, 2022, 66, 102759.
5.Biomass hydrothermal conversion under CO2 atmosphere: A way to improve the regulation of hydrothermal products. Science of the Total Environment, 2022, 807, 150900.
6.Effect of mesopores in ZSM-5 on the catalytic conversion of acetic acid, furfural, and guaiacol. Energy Fuels, 2021, 35 (7): 6022−6029.
7.Improving bio-oil stability by fractional condensation and solvent addition. Fuel, 2021, 290, 119929.
8.Production of furfural and levoglucosan from typical agricultural wastes via pyrolysis coupled with hydrothermal conversion: Influence of temperature and raw materials. Waste Management, 2020, 114: 43-52.
9.Hydrothermal treatment of high ash microalgae: Focusing on the physicochemical and combustion properties of hydrochars. Energy Fuels, 2020, 34 (2): 1929−1939.
10.Conversion of high-ash microalgae through hydrothermal liquefaction. Sustainable Energy & Fuels, 2020, 4 (6): 2782-2791.
11.Preparation of mesoporous ZSM-5 catalysts using green templates and their performance in biomass catalytic pyrolysis. Bioresource Technology, 2019, 289, 121729.
12.The effect of combined pretreatments on the pyrolysis of corn stalk. Bioresource Technology, 2019, 281: 309-317.
13.Influence of physicochemical properties of metal modified ZSM-5 catalyst on benzene, toluene and xylene production from biomass catalytic pyrolysis. Bioresource Technology, 2019, 278: 248-254.
14.Aromatics production with metal oxides and ZSM-5 as catalysts in catalytic pyrolysis of wood sawdust. Fuel Processing Technology, 2019, 188: 146-152.
15.Comparative study of wet and dry torrefaction of corn stalk and the effect on biomass pyrolysis polygeneration. Bioresource Technology, 2018, 258: 88-97.
16.Application of biomass pyrolytic polygeneration by a moving bed: Characteristics of products and energy efficiency analysis. Bioresource Technology, 2018, 254: 130-138.
17.一种CO2气氛下农林废弃物水热液化糠醛制备方法，ZL201811594824.0
18.一种稻壳分级联产能源化学品及硅炭材料的系统及方法，ZL201910060347.8
19.一种利用农林废弃物制备左旋葡聚糖的方法，ZL201910139055.3
20.一种自热式生物质气催化重整反应器、重整系统及方法，ZL202111510263.3

所获荣誉和奖励

1.湖北省自然科学奖一等奖，2020
2.湖北省高等学校教学成果奖二等奖，2018
3.第十七届中国专利奖优秀奖，2015
4.全球可再生能源领域最具投资价值的领先技术蓝天奖，2014