CUI Ying-jun, PAN Ruo-chi, MENG De-jun, LI Cong, LIANG Yu-yuan. Effects of Different Types of Patched-Grid on Simulated Results Related to Circumferential Grooves[J]. Journal of Propulsion Technology, 2021, 42(6): 1265-1275.
[1] Hartman M J, Benser W A, Hauser C H. Fan and Compressor Technology[R]. NASA SP-259, 1970.
[2] Engel Karl, Zscherp Carsten, Wolfrum Nina, et al. CFD Simulations of the TP400 IPC with Enhanced Casing Treatment in Off-Design Operating Conditions[R]. ASME GT 2009-60324.
[3] Emmrich R, Kunte R, H?nen H, et al. Time Resolved Investigations of an Axial Compressor with Casing Treatment, Part 2―Simulation[R]. ASME GT 2007-27582.
[4] Legras G, Gourdain N, Ottavy X, et al. Analysis of Unsteadiness on Casing Treatment Mechanisms in an Axial Compressor[R]. ASME GT 2011-45806.
[5] Walters Robert W, Tomas James L. Aspects and Application of Patched Grid Calculations[R]. AIAA 86-1063.
[6] Tomas James L, Walters Robert W, Reu Taekyu. A Patched-Grid Algorithm for Towards the FA18 Aircraft Complex Configurations Directed[R]. AIAA 89-01.
[7] Bohbot J, Grondin G. A Parallel Multigrid Conservative Patched/Sliding Mesh Algorithm for Turbulent Flow Computation of 3D Complex Aircraft Configurations[R]. AIAA 2001-1006.
[8] 张皓光, 安 康, 吴艳辉, 等. 周向槽轴向位置影响机匣处理扩稳能力的机理[J]. 推进技术, 2016, 37(12): 2298-2302.
[9] 邓敬亮, 楚武利, 张皓光. 轴流转子梯形周向槽处理机匣的扩稳分析[J]. 航空动力学报, 2015, 30(7): 1721-1730.
[10] 段真真, 柳阳威, 陆利蓬. 周向槽机匣处理对某跨音转子性能的影响[J]. 航空学报, 2014, 35(8): 2613-2713.
[11] Heinichen F, Gummer V, Schiffer H P. Numerical Investigation of a Single Circumferential Groove Casing Treatment on Three Different Compressor Rotors[R]. ASME GT 2011-45905.
[12] Hembera M, Danner F, Kau H P, et al. Development of Circumferential Grooves for Axial Compressors Based on Flow Mechanisms[R]. AIAA 2008-4988.
[13] Walters Robert W, Blacksburg, Thomas James L, et al. Aspects and Applications of Patched Grid Calculations[R]. AIAA 86-1063.
[14] Benkenida, Bohbot, Jouhaud, et al. Patched Grid and Adaptive Mesh Refinement Strategies for the Calculation of the Transport of Vortices[J]. International Journal for Numerical Methods in Fluids, 2002, 40(7): 855-873.
[15] Furukawa Masato, Yamasaki Masato, Inoue Masahiro. A Zonal Approach for Solving the Compressible Navier-Stokes Equations Using a TVD Finite Volume Method[J]. JSME Internal Journal, 1990, 33(4): 665-673.
[16] Rai M. A Conservative Treatment of Zonal Boundaries for Euler Calculations[R]. AIAA 84-0161.
[17] Klopfer G, Molvik G. Conservative Multizonal Interface Algorithm for the 3-D Navier-Stokes Equations[R]. AIAA 91-1601-CP.