·Paper Publications
- [1] Zhang, Z., X. Hu, J. Li, G. Gao, D. Dong, R. Westerhof, S. Hu, J. Xiang, and Y. Wang, 2018, Steam reforming of acetic acid over Ni/Al<inf>2</inf>O<inf>3</inf>catalysts: Correlation of nickel loading with properties and catalytic behaviors of the catalysts: Fuel, v. 217, p. 389-403..
- [2] Zhang, L., X. Hu, K. Hu, C. Hu, Z. Zhang, Q. Liu, S. Hu, J. Xiang, Y. Wang, and S. Zhang, 2018, Progress in the reforming of bio-oil derived carboxylic acids for hydrogen generation: Journal of Power Sources, v. 403, p. 137-156..
- [3] Zhang, L., S. Hu, S. S. A. Syed-Hassan, Z. Xiong, Y. Xiao, L. Jiang, K. Xu, Y. Wang, S. Su, Y. Zhou, and J. Xiang, 2017, Mechanistic influences of different solvents on microwave-assisted extraction of Shenfu low-rank coal: Fuel Processing Technology, v. 166, p. 276-281..
- [4] Zhang, L., S. Hu, Q. Chen, L. Xiao, S. S. A. Syed-Hassan, L. Jiang, Y. Wang, S. Su, and J. Xiang, 2017, Molecular structure characterization of the tetrahydrofuran-microwave-extracted portions from three Chinese low-rank coals: Fuel, v. 189, p. 178-185..
- [5] Zhang, L., S. Hu, Q. Chen, H. Han, L. Xiao, J. Xu, L. Jiang, K. Xu, S. Su, Y. Wang, and J. Xiang, 2017, Identification of the structural characteristics of the asphaltenes in the tetrahydrofuran-microwave-extracted portions from two Chinese coals: Fuel Processing Technology, v. 160, p. 86-92..
- [6] Zhang, L., G. Hu, S. Hu, J. Xiang, X. Hu, Y. Wang, and D. Geng, 2018, Hydrogenation of fourteen biomass-derived phenolics in water and in methanol: their distinct reaction behaviours: Sustainable Energy & Fuels, v. 2, p. 751-758..
- [7] Zhang, C., X. Hu, H. Guo, T. Wei, D. Dong, G. Hu, S. Hu, J. Xiang, Q. Liu, and Y. Wang, 2018, Pyrolysis of poplar, cellulose and lignin: Effects of acidity and alkalinity of the metal oxide catalysts: Journal of Analytical and Applied Pyrolysis, v. 134, p. 590-605..
- [8] Xu, K., S. Hu, Y. Wang, L. Zhang, S. Su, L. Jiang, J. Xu, Z. Ouyang, and J. Xiang, 2018, Relation between char structures and formation of volatiles during the pyrolysis of Shenfu coal: Further understanding on the effects of mobile phase and fixed phase: Fuel Processing Technology, v. 178, p. 379-385..
- [9] Xiong, Z., Y. Wang, S. S. A. Syed-Hassan, X. Hu, H. Han, S. Su, K. Xu, L. Jiang, J. Guo, E. E. S. Berthold, S. Hu, and J. Xiang, 2018, Effects of heating rate on the evolution of bio-oil during its pyrolysis: Energy Conversion and Management, v. 163, p. 420-427..
- [10] Xiong, Z., S. S. A. Syed-Hassan, X. Hu, J. Guo, Y. Chen, Q. Liu, Y. Wang, S. Su, S. Hu, and J. Xiang, 2018, Effects of the component interaction on the formation of aromatic structures during the pyrolysis of bio-oil at various temperatures and heating rates: Fuel, v. 233, p. 461-468..