Education

2006.09-2010.07   Shandong University, Bachelor Degree

2010.09-2015.07   Tsinghua University, Doctor Degree

2013.12-2014.06   University of Utah，Exchange Scholar

2015.07-2019.06   University of Science and Technology Beijing, lecturer

2019.08-2020.11   TU Bergakademie Freiberg，Humboldt Scholar

2019.07-now     University of Science and Technology Beijing, Associate Professor

Research Fields：

Coal gasification、coal slag transformation, thermal conversion  

Publications

[1] Xuan W, Wang H, Xia D. Deep structure analysis on coal slags with increasing silicon content and correlation with melt viscosity. Fuel, 2019, 242: 362～367

[2] Xuan W, Wang H, Xia D. Depolymerization mechanism of CaO on network structure of synthetic coal slags. Fuel Processing Technology, 2019, 187: 21～27

[3] Xuan W, Wang H, Xia D. In-situ observation of crystallization inside coal slags and influence of crystals on flow behavior. Fuel, 2019, 251: 242～248

[4] Xuan W, Zhang J, Xia D. The influence of MgO on the crystallization characteristics of synthetic coal slags. Fuel, 2018, 222: 523～528

[5] Xuan W, Xia D. In situ minerals transformation study of low-temperature ash. Energy & Fuels, 2018, 31(1): 336～341

[6] Xuan W, Zhang J, Xia D. Crystallization characteristics prediction of coal slags based on SiO2–Al2O3–CaO–Fe2O3–MgO components. Journal of Industrial and Engineering Chemistry, 2018, 59: 341～349

[7] Xuan W, Zhang J. Comparison of Axial and Radial Water Gas Shift Reactors Based on CFD Simulation. Journal of Chemical Engineering of Japan, 2018, 51(12): 937～944

[8] Xuan W, Wang Q, Zhang J, et al. Influence of silica and alumina (SiO2+Al2O3) on crystallization characteristics of synthetic coal slags. Fuel, 2017, 189: 39～45

[9] Yu W, Xia D, Xuan W. Modeling for particle size prediction and mechanism of silicon nitride nanoparticle synthesis by chemical vapor deposition. Aerosol Science & Technology, 2017, 51(7): 845～855

[10] Xuan W, Guan Q, Zhang J. Kinetic model and CFD simulation for an entrained flow coal hydrogasifier and influence of structural parameters. International Journal of Hydrogen Energy, 2016, 41(44): 20023～20035

[11] Xuan W, Zhang J, Xia D. Crystallization characteristics of a coal slag and influence of crystals on the sharp increase of viscosity. Fuel, 2016, 176: 102～109

[12] Xuan W, Whitty K J, Guan Q, et al. Influence of Fe2O3 and Atmosphere on Crystallization Characteristics of Synthetic Coal Slags. Energy & Fuels, 2015, 29(1): 405～412

[13] Xuan W, Whitty K J, Guan Q, et al. Influence of SiO2/Al2O3 on crystallization characteristics of synthetic coal slags. Fuel, 2015, 144: 103～110

[14] Bi D, Guan Q, Xuan W, et al. Numerical simulation of GSP gasifier under different swirl angles. Fuel, 2015, 155: 155～163

[15] Guan Q, Bi D, Xuan W, et al. Kinetic model of hydropyrolysis based on the CPD model. Fuel, 2015, 152: 74～79

[16] Bi D, Guan Q, Xuan W, et al. Combined slag flow model for entrained flow gasification. Fuel, 2015, 150: 565～572

[17] Xuan W, Whitty K J, Guan Q, et al. Influence of CaO on Crystallization Characteristics of Synthetic Coal Slags. Energy & Fuels, 2014, 28(10): 6627～6634

[18] Xuan W, Whitty K J, Guan Q, et al. Influence of isothermal temperature and cooling rates on crystallization characteristics of a synthetic coal slag. Fuel, 2014, 137: 193～199

[19] Xuan W, Zhang J*. The effect of cooling rates on crystallization characteristics[C]. 30th Annual International Pittsburgh Coal Conference, Beijing, China,September 15-18, 5：3529～3547，2013