Bi Haobo, Ni Zhanshi, Tian Junjian, Wang Chengxin, Jiang Chunlong, Zhou Wenliang, Bao Lin, Sun Hao, Lin Qizhao, Influence of biomass on multi-component reaction model and combustion products of coal gangue, Combustion and Flame, v 240, June 2022, Article number: 111999,  Bi Haobo, Ni Zhanshi, Tian Junjian, Jiang Chunlong, Sun Hao, Lin Qizhao，Influence of lignin on coal gangue pyrolysis and gas emission based on multi-lump parallel reaction model and principal component analysis, Science of the Total Environment, v 820, May 10, 2022,  Liu Yu, Tian Junjian, Li Fengyu, Bao Lin, Han Kai, Lin Qizhao, Experiment and analysis on the spray characteristics of diesel/polyoxymethylene dimethyl ethers (PODE)/ethanol blends in non-reacting environment, Experimental Thermal and Fluid Science, v131, Article Number: 110528, February 1, 2022,  Liu Yu, Tian Junjian, Tian Junjian, Li Fengyu, Han Kai, Bao Lin, Zhou Wenliang, Lin Qizhao, Spray characteristics of biodiesel-polyoxymethylene dimethyl ethers (PODE) blends in a constant volume chamber, Combustion Science and Technology, 2022, DOI: 10.1080/00102202.2022.2056413,  Liu Yu, Tian Junjian, Song Zhihui, Li Fengyu, Zhou Wenliang, Lin Qizhao, Spray characteristics of diesel, biodiesel, polyoxymethylene dimethyl ethers blends and prediction of spray tip penetration using artificial neural network, Physics of Fluids, v 34, n 1, January 1, 2022, DOI: 10.1063/5.0077405, Article number: 015117,  Sun Hao, Bi Haobo, Jiang Chunlong, Ni, Zhanshi, Tian Junjian, Zhou Wenliang, Qiu Zhicong, Lin Qizhao, Experimental study of the co-pyrolysis of sewage sludge and wet waste via TG-FTIR-GC and artificial neural network model: Synergistic effect, pyrolysis kinetics and gas products, Renewable Energy, v 184, p 1-14, January 2022, DOI: https://doi.org/10.1016/j.renene.2021.11.049, 

低热值气体燃烧器 一种微油点火燃烧装置 一种单液滴微爆现象实验装置 一种单液滴微爆现象实验装置 一种催化氧化低浓度甲烷的催化剂及其制备方法以及应用 一种燃油加热器及横向射流雾化实验系统

森林火概论，林其钊，舒立福编著，2003年，中国科学技术大学出版社

Advanced Fuel Cell Technology，国际合作项目（Royal Institute of Technology，KTH, Sweden)，资助单位：Commission of the European Communities Research Directorate-General 基于空间反应的粉煤高效气化技术，安徽省“十一五”科技攻关重点项目 （07010202080） 新型无焰燃烧技术在工业锅炉中的应用，安徽省重点科研计划（6022017） 安徽省节能减排重大科技问题研究，安徽省软科学重大项目（08030503010 低浓度煤层气的燃烧技术与热能利用，国家863计划课题（2006AA05Z210） Advanced Fuel Cell Technology，国际合作项目（Royal Institute of Technology，KTH, Sweden)，资助单位：Commission of the European Communities Research Directorate-General