4LI Xianchang, WANG Ting. Simulation of film cooling enhancement with mist injection[C]//ASME Turbo Expo 2005. Power for Land, Sea and Air, June 6-9, 2005, Reno-Tahoe, Nevada, USA. New York: ASME, 2005:919-929.
5HOMAYOON K, MEHRZAD S. Numerical modeling of film cooling with and without mist injection[J]. Heat Mass Transfer, 2009, 45: 727-741.
6WANG Ting, LI Xianchang. Mist film cooling simulation at gas turbine operating conditions[J]. International J. Heat and Mass Transfer, 2008, 51 : 5305-5317.
7DHANASEKARAN T S, WANG Ting. CFD model validation and prediction of mist/steam cooling in a 180-degree bend tubes[C]//International Heat Transfer Conference 14-22833. August 8-13, 2010, Washington, DC, USA: 213-225.
8HYLTON L D, MILHEC M S, TURNER E R, et al. Analytical and experimental evaluation of the heat transfer distribution over the surface of turbine vanes[R]. NASA-CR-168015, 1983.
9LUO Mingcong, ZHENG Qun, SUN Lanxin, et al. The influence of inlet fogging for the stable range in a transonic compressor stage[J]. Journal of Engineering for Gas Turbines and Power, 2012, 134: 022002.1-022002.11.
10WILLIAM D Y, JAMES H L. Three-dimensional conjugate heat transfer simulation of an internally-cooled gas turbine vane[C]//ASME Turbo Expo2003. Power for Land, Sea, and Air, June 16-19, 2003, Atlanta, Georgia, USA. NewYork: ASME, 2003: 351-360.
