代表性论文专著
国际期刊:
[1] X. J. Wu, X. Zhang, K. Yan, et al. Ash Deposition and Slagging Behaviour of Chinese Xinjiang High-Alkali Coal in 3MWth Pilot-Scale Combustion Test[J]. Fuel, 181(2016): 1191-1202.
[2] X. J. Wu, H.S. Ji, B. Q. Dai, L. A. Zhang. Xinjiang lignite ash slagging and flowability under the weak reducing environment at 1300 °C – A new method to quantify slag flow velocity and its correlation with slag properties[J]. Fuel Processing Technology, 171 (2018):176-182.
[3] X. J. Wu,X. Zhang, B.Q. Dai, X. Y. Xu, J. W. Zhang, L.A. Zhang. Ash Deposition Behaviours upon the Combustion of Low-Rank Coal Blends in a 3 MWth Pilot-Scale Furnace [J]. Fuel Processing Technology, 152 (2016):176-182, IF:3.949.171 (2018):176-182.
[4] X. J. Wu, Z. X. Zhang, Y. S. Chen, et al. Quantum Chemistry Calculation and Experimental Studies on Fusibility of Blended Coal Ash[J]. Fuel Processing Technology. 91(2010): 1591-1600.
[5] X. J. Wu, Z. X. Zhang, G. Piao, et al. Behavior of Mineral Matters in Chinese Coal Ash Melting during char-CO2/H2O Gasification Reaction [J]. Energy & Fuels, 23(2009): 2420- 2428.
[6] X. J. Wu, Z. X. Zhang, T. Zhou, et al. Mineral Melting Behavior of Chinese Blended Coal Ash under Gasification Condition[J],Asia-Pacific Journal of Chemical Engineering. 6(2011): 220-230.
[7] X. J. Wu, Z. X. Zhang, Guilin Piao, et al. Experimental study on gasification characteristics and slagging behavior of Chinese typical high ash fusion temperature coal in lab scale down flow gasifier[J]. Asia-Pacific Journal of Chemical Engineering. 5(2010): 427-434.
[8] K. Yan, X. J. Wu, A. Hoadley et al. Sensitivity analysis of oxy-fuel power system [J]. Energy Conversion and Management. 98(2015), 138-150.
[9] Z. X. Zhang, X. J. Wu, T. Zhou, et al. The effect of iron-bearing mineral melting behavioron ash deposition during coal combustion [J]. Proceedings of the Combustion Institute, 33(2011), 2853-2861.
[10] B. Q. Dai, X. J. Wu, A. De Girolamo, et al. Inhibition of lignite ash slagging and fouling upon the use of a silica-based additive in an industrial pulverized coal-fired boiler.Part 1. Changes on the properties of ash deposits along the furnace [J]. Fuel. 139(2015), 720-732.
[11] B. Q. Dai, X. J. Wu, A. De Girolamo, et al. Inhibition of lignite ash slagging and fouling upon the use of a silica-based additive in an industrial pulverized coal-fired boiler.Part 2. Speciation of iron in ash deposits and separation of magnetite and ferrite [J]. Fuel. 139(2015), 733-745.
[12] B.Q. Dai, X. J. Wu, L. Zhang. Establishing a novel and yet simple methodology based on the use of modified inclined plane (M-IP) for high-temperature slag viscosity measurement Fuel. 233(2018), 299-308.
[13] H. S. Ji, X. J. Wu, B. Q. Dai, L. A. Zhang. Xinjiang lignite ash slagging and flow under the weak reducing environment at 1300°C – Release of sodium out of slag and its modelling from the mass transfer perspective[J]. Fuel Processing Technology. 170(2018): 32-43.
[14] F. Low, A. D. Girolamo, X. J. Wu, B.Q. Dai, L. A. Zhang. Inhibition of lignite ash slagging and fouling upon the use of a silica-based additive in an industrial pulverised coal-fired boiler:Part 3- Partitioning of trace elements[J]. Fuel. 139(2015), 746-756.
[15] J. Zhang, B. Q. Dai, Y. Meng, X. J. Wu, L. A. Zhang. Pilot-scale experimental and CFD modeling investigations of oxy-fuel combustion of Victorian brown coal[J]. Fuel. 144(2015):111-120.
[16] Iman Ja'baz, F. C. Jiao, X. J. Wu, D. X. Yu, Y. Ninomiya, L. A. Zhang. Influence of gaseous SO2 and sulphate-bearing ash deposits on the high-temperature corrosion of heat exchanger tube during oxy-fuel combustion[J]. Fuel Processing Technology. 167(2017): 193-204.
[17] M. Q. Li, Z. X. Zhang, X. J. Wu, J. J. Fan. Experiment and mechanism study on the effect of kaolin on melting characteristics of Zhundong coal ash [J]. Energy & Fuels, 30(2016): 7763- 7769.
[18] B. T. Zhao, Z. X. Zhang, X. J. Wu. Prediction of Coal Ash Fusion Temperature by Least- Squares Support Vector Machine Model [J]. Energy Fuels. 24(2010), 3066-3071.
[19] W. Prationo,J. Zhang,HAA Abbas,X.J. Wu,et al. Influence of External Clay and Inherent Minerals on Lignite Optical Ignition and Volatile Flame Propagation in Air-Firing and Oxy-Firing[J]. Industrial & Engineering Chemistry Research.2014, 53(7): 2594-2604.
[20] Y. C. Liu, W. D. Fan, X. Zhang, X. J. Wu, High-Temperature Corrosion Properties of Boiler Steels under a Simulated High-Chlorine Coal-Firing Atmosphere[J]. Energy Fuels, 2017, 31 (4), 4391–4399.
[21] B. Q. Dai, F. Low, A. D. Girolamo, X. J. Wu, L. A. Zhang. Characteristics of Ash Deposits in a Pulverized Lignite Coal-Fired Boiler and the Mass Flow of Major Ash-Forming Inorganic Elements[J]. Energy Fuels, 2013, 27 (10), 6198–6211.
[22] M. Q. Li, Z. X. Zhang, X. J. Wu, J. J. Fan. Quantum chemistry mechanism study on preventing slag bonding via modifying the material surface properties[J]. Asia-Pacific Journal of Chemical Engineering.2016, 11(6): . 874-883
国际会议:
[1] X. J. Wu, Y. G. Zhou, Y. Z. Sun et al. Ash Deposition and slagging behavior of Xinjiang High-alkali coal in a 20MWth Cyclone Combustion Test Facility[C].the 9th International Symposium on Coal Combustion (ISCC-9) , Qingdao, China, July 21-24, 2019
[2] X. J. Wu, J. W. Zhang, X. Zhang, C. Nan, K. Yan. Ash Melting Behavior of Blended Coal with Chinese Xinjiang High-Alkali Coal[C]. Proceedings of the 14th International Conference on Power Engineering, Charlotte, America. 2017.
[3] X. J. Wu, X. Zhang, K. Yan, et al. Ash Deposition and Slagging Behaviour of Chinese Xinjiang High-Alkali Coal in 3MWth Pilot-Scale Combustion Test [C]. the 8th ISCC, Beijing, 2015.
[4] X. J. Wu, J. Zhang, L. Zhang, et al. Investigation on the Oxy-fuel combustion of Victorian Brown Coal in a 3MW Pilot-scale Facility[C]. Proceedings of the Australian Combustion Symposium, the University of Western Australia, 2013.
[5] X. J. Wu, Z. X. Zhang, G. L. Piao et al. Experimental Study on Gasification Characteristics of Coal with High Ash Fusion Temperature in Lab-scale Down-flow Gasifier[C]. The 6th International Symposium on Coal Combustion Conference. Wu han, China, 2007.