BROCHURE
Xian de Fang  is a Professor,Nanjing University of Aeronautics and Astronautics,China

Xian de Fang

Professor

Organizing Committee

China

Nanjing University of Aeronautics and Astronautics

BIOGRAPHY

Xian de Fang is a distinguished professor at Nanjing University of Aeronautics and Astronautics (NUAA), China. He received his Ph.D. in Engineering Thermophysics from University of Science and Technology of China, M. Sci. in Thermal Engineering from Tsinghua University, China, and B. Eng. in Altitude Equipment from NUAA. He is currently an Associate Editor, Aerospace Science and Technology (SCI indexed top journal), the Editor-in-Chief, International Journal of Thermo fluid Science and Technology (Scopus Indexed Open Journal), and the Co-Editor, Current Chinese Science: Aerospace Sciences. In NUAA, he serves as Vice Chairman of Academic Committee, MIIT Key Laboratory of Aircraft Environment Control and Life Support, and Chairman of Professional Committee, Aircraft Environment Control and Life Support,and Building Environment and Energy Engineering. His research area is thermofluid science and technology and its applications to various industrial sectors. He has published over 200 papers and 4 books/book chapters. He teaches thermofluid-related courses to international undergraduate, postgraduate, and doctoral students in China.

PUBLICATIONS

Zufen Luo, Xiande Fang *, Yang Yang, Weiwei Chen, Lisheng Zhang. Prediction of “critical heat flux” for supercritical water and CO2 flowing upward in vertical heated tubes.International Journal of Heat and Mass Transfer 159 (2020) 120115. (SCI)

Fang X*, Xu L, Chen Y, Chen W. Correlations for friction factor of turbulent pipe flow under supercritical pressure: review and a new correlation. Progress in Nuclear Energy, 118: 103085, 2020. (SCI)

[Zhang H, Fang X*,Wang Y, Zhang L. Effect of vapor condensation on ascending performance of stratospheric airship. Advances in Space Research 65 (2020) 2062–2071.(SCI)

Fang X*, Tang D, Zheng L, Li G, Yuan Y. Experimental investigation of gravity and channel size effects on flow boiling heat transfer under hypergravity.Aerospace Science and Technology 94: 105372, 2019.(SCI)

[Fang X*, Zhuang F, Chen C, Wu Q, Chen Y, Chen Y, He Y. Saturated flow boiling heat transfer: review and assessment of prediction methods. Heat and Mass Transfer, 55:197–222, 2019. (SCI)

Fang X*, Zheng L, He Y, Li G, Bi M, Yang B, Wang X. Experimental study of pool boiling critical heat flux on thin wires under various gravities. Microgravity Science and Technology, 31:339–345, 2019.(SCI)

[Yng B, Fang X*, Zhang L, Zhuang F, Bi M, Chen C, Li G, Wang X. Applicability of empirical models of isentropic efficiency and mass flow rate of dynamic compressors to jet engines. Progress in Aerospace Sciences, 106: 32–42, 2019. (SCI)

Li G, Fang X*, Yuan Y, Chen Y, Wang L, Xu Y. An experimental study of flow boiling frictional pressure drop of R134a in a horizontal 1.002 mm tube under hypergravity. Int. J. Heat Mass Transfer, 118: 247–256, 2018.(SCI)

Fang X*, Chen C, Wu Q, Tian L. A method for developing correlations for subcooled flow boiling heat transfer and its application to water. Fusion Engineering and Design, 129: 286–290, 2018. (SCI)

Fa X*, Yuan Y, Xu A, Tian L, Wu Q. Review of correlations for subcooled flow boiling heat transfer and assessment of their applicability to water. Fusion Engineering and Design, 122:52–63, 2017. (SCI)

Fang X*, Dong A. A comparative study of correlations of critical heat flux of pool boiling. Journal of Nuclear Science and Technology, 54(1): 1–12, 2017. (SCI)

Fang X*, Wu Q, Yuan Y. A general correlation for saturated flow boiling heat transfer in channels of various sizes and flow directions. Int. J. Heat Mass Transfer, 107: 972–981,2017. (SCI)

Dai Q, Xing D, Fang X, Zhao Y. Numerical research on the thermal performance of high altitude scientific balloons. Applied Thermal Engineering, 114: 51–57, 2017. (SCI)

Fang X*, Chen Y, Zhang H, Chen W, Dong A, Wang R. Heat transfer and critical heat flux of nanofluid boiling: A comprehensive review. Renewable and Sustainable Energy Reviews, 62: 924–940, 2016. (SCI)

Fang X*, Sudarchikov AM, Chen Y, Dong A, Wang R.Experimental investigation of saturated flow boiling heat transfer of nitrogen in a macro-tube. Int. J. Heat Mass Transfer, 99: 681–690, 2016. (SCI)

Xu Y, Fang X*, Li D, Li G, Yuan Y, Xu A. An experimental study of flow boiling frictional pressure drop of R134a and evaluation of existing correlations. Int. J. Heat Mass Transfer,98: 150–163, 2016.(SCI)

Chen W, Fang X*. Modelling of convective heat transfer of RP-3 aviation kerosene in vertical miniature tubes under supercritical pressure. Int. J. Heat Mass Transfer, 95: 272–277, 2016.

Xu Y, Fang X*, Li G, Li D, Yuan Y. An experimental study of flow boiling heat transfer of R134a and evaluation of existing correlations. Int. J. Heat Mass Transfer, 92: 1143–1157, 2016.

Dai Q, Fang X*. Numerical study of forced convective heat transfer around airships. Advances in Space Research, 57: 776–781, 2016. (SCI)

Wang H, Fang X*. Evaluation analysis of correlations of flow boiling heat transfer coefficients applied to ammonia. Heat Transfer Engineering, 37(1):32–44, 2016. (SCI)

Dai Q, Fang X*, Zhao Y, Xing D. An empirical model for estimating the atmospheric transmittance of upward infrared radiation at different altitudes. Advances in Space Research, 58: 2453–2459, 2016. (SCI)

Liu P, Peng X, Song Y, Fang X, Huang SH, Mao X. Numerical simulation in subcooled water flow boiling for one-sided high heat flux in reactor divertor. Fusion Engineering and Design, 112: 587–593, 2016. (SCI)

Fang X, Wang R, Chen W,Zhang H, Ma C. A review of flow boiling heat transfer of nanofluids. Applied Thermal Engineering, 91: 1003–1017, 2015. (SCI)

Zhang H, Fang X*, Shang H, ChenW. Flow condensation heat transfer correlations in horizontal channels. International Journal of Refrigeration, 59: 102–114, 2015. (SCI)

Fang X, Li G, Li D, Xu Y. An experimental study of R134a flow boiling heat transfer in a 4.07 mm tube under Earth's gravity and hypergravity. Int. J. Heat Mass Transfer, 87:399–408, 2015. (SCI)

 Fang X, Zhou Z, Wang H. Heat transfer correlation for saturated flow boiling of water. Applied Thermal Engineering, 76(5): 147–156, 2015. (SCI).

Chen W, Fang X*, Xu Y, Su X. An assessment of correlations of forced convection heat transfer to water at supercritical pressure. Annals of Nuclear Energy, 76: 451–460, 2015. (SCI)

Xu Y, Fang X*, Li G, Li D. An experimental investigation of flow boiling heat transfer and pressure drop of R134a in a horizontal 2.168 mm tube under hypergravity. Part II: heat transfer coefficient. Int. J. Heat Mass Transfer, 80:597–604, 2015. (SCI)

Xu Y, Fang X*. Assessment of "comments on 'correlations of void fraction for two-phase refrigerant flow in pipes'" Applied Thermal Engineering, 75(22): 1156–1158, 2015. (SCI)

Wu J, Fang X*, Wang Z, Hou Z, Ma Z, Zhang H, Dai Q, Xu Y. Thermal modeling of stratospheric airships. Progress in Aerospace Sciences, 75:26–37, 2015. (SCI)

Upcoming Conferences