[1. Z. Q. Cao, 1991. The steam turbine operation mode features. China Water Power Press.]Search in Google Scholar
[2. J. G. Jin, T. L. Jiang, Y. Li, L. H. Cao, 2011. Large steam turbine rotor blades out of the late-stage research and analysis of the steam side erosion. Turbine Technology, 53 (3), 199-201.]Search in Google Scholar
[3. Q. Liu, 2007.End-stage blade of steam turbine erosion mechanism analysis and Stellite piece replacement study. Shanghai Jiaotong University.]Search in Google Scholar
[4. G. S. Xie, 2008.Turbine last stage blades Anti-erosion carbon nitride titanium nitride composite coating preparation and basic research. Central South University.]Search in Google Scholar
[5. W. L. Xu, J. D. Wang, D.R. Chen, F. B. Liu, 2010.Last stage of turbine blade erosion bench design.Journal of Tsinghua UniversityNatural Sciences, 50(8), 1201-1204.]Search in Google Scholar
[6. J. S. Rao, 1998. Application of fracture mechanics in the failure analysis of a last stage steam turbine blade. Mechanism and Machine Theory. 33, 599-609.]Search in Google Scholar
[7. Z. B. Zhang, Y. J. Tian, L. H. Cao, Y. Sun, 2013. Numerical analysis of flow field within the turbine stage small volume flow conditions. Chemical Machinery. 40 (1), 94-97.]Search in Google Scholar
[8. X. S. Cai, T. B. Ning, F. X. Niu, G. C. Wu, Y. Y. Song, Z. T. Sang, Z. L. Xu, C. S. Cen, Y. F. Guo, J. Zhang, G. Li, 2008. Low pressure turbine 300 MW Direct Air Flow Field in the last stage of blast and humidity measurement. Chinese Society for Electrical Engineering. 28 (26), 7-13.]Search in Google Scholar
[9. W. Gerschutz, M. Casey, F.Truckenmuller, 2005. Experimental investigations of rotating flow instabilities in the last stage of a low-pressure model steam turbine during windage. Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy. 219 (6), 499-510.10.1243/095765005X31379]Search in Google Scholar
[10. H. T. Wang, X. C. Zhu, H., D. Yang, W. Zhou, C. H. Du, 2009. Numerical Optimization Design of Turbine Low Pressure Exhaust Hood. Power Engineering. 29 (1), 40-45.]Search in Google Scholar
[11. W. L. Xie, H. T. Wang, X. C. Zhu, 2011. Analysis of the steam turbine low pressure cylinder exhaust diversion baffles affect its performance. Power Engineering. 31(5), 347-351.]Search in Google Scholar
[12. H. T. Wang, X. C. Zhu, Z. H. Du, 2010. Aerodynamic optimization for low pressure turbine exhaust hood using Kriging surrogate model. International Communications in Heat and Mass Transfer. 37(8), 998-1003.10.1016/j.icheatmasstransfer.2010.06.022]Search in Google Scholar
[13. W. Zhang, Paik, Bu.Geun, Jang, Young Gil, 2007. Particle image velocimetry measurements of the three-dimensional flow in an exhaust hood model of a low-pressure steam turbine. Journal of Engineering for Gas Turbines and Power. 129(2), 411-419.10.1115/1.2431387]Search in Google Scholar
[14. V. V. Ris, L. L. Simoyu, 2009. Numerical simulation of flow in a steam-turbine exhaust hood: Comparison results of calculations and data from a full-scale experiment. Thermal Engineering English translation of Teploenergetika. 56(4), 277-283.10.1134/S004060150904003X]Search in Google Scholar
[15. X. S. Cai, T. B. Ning, F. X. Niu, G. C. Wu, Y. Y. Song, Z. T. Sang, Z. L. Xu, C. S. Cen, Y. F. Guo, J. Zhang, G. Li, 2009. 300MW Direct Air Turbine last stage low pressure wet steam Measurement. Chinese Society for Electrical Engineering. 29(2), 1-7.]Search in Google Scholar
[16. L. Qi, Z. P. Zou, H. Z. Lu, E. L. Yu, D. Q. Tian, L. M. Shi, 2005. Numerical Simulation of Air Cooled Turbine Last Two Stages three-dimensional flow. Power Engineering. 25(5), 647-651.]Search in Google Scholar
[17. L. Qi, N. Zheng, H. G. Cheng, 2005. Numerical Simulation of the last stage turbine unsteady flow. Journal of Beijing University of Aeronautics and Astronautics. 31(2), 206-211. ]Search in Google Scholar
[18. J. L. Fu, J. J. Liu, 2008. Influences of inflow condition on non-axisymmetric flows in turbine exhaust hoods, Journal of Thermal Science. 17(4), 305-313.10.1007/s11630-008-0305-5]Open DOISearch in Google Scholar
[19. J. J. Liu, T. P. Hynes, 2003. The investigation of turbine and exhaust interactions in asymmetric flows-blade-row models applied. Transactions of the ASME. Journal of Turbomachinery. 125(1), 121-127.10.1115/1.1516812]Search in Google Scholar
[20. L. J. Huang, 1978. About streamline curvature, Computational Mathematics. Volume 1, Section 1. ]Search in Google Scholar
[21. S. Hao, Q. H. Deng, H. S. Shi, Z. P. Shi, K. Cheng, Z. Y. Peng, 2013. The end of the steam turbine Numerical study of three scheduled regular flow under different volumetric flow. Journal of Xi’an Jiaotong University. 47(1), 15-20. (In Chinese)]Search in Google Scholar
[22. L. J. Huang, 1978, about streamline curvature, Computational Mathematics. Volume 1, Section 1. ]Search in Google Scholar
[23. Y. L. Zhou, 2010. Multiphase flow parameters detection theory and its application. Science and Technology Press.]Search in Google Scholar