Modelling of Buyancy-Induced Flow in Compressor Rotors - Surrey/RR

Engineering

1. Accurate Prediction 18%
2. Aero-Engines 47%
3. Aeroengine 44%
4. Aircraft Engine 12%
5. Axial Compressors 7%
6. Axial Throughflow 44%
7. Bayes Theorem 7%
8. Bayesian Model 14%
9. Biot Number 7%
10. Blade Tip 34%
11. Boundary Condition 16%
12. Buoyancy Effect 11%
13. Buoyancy Force 11%
14. Circumferential 10%
15. Closed Rotating Cavity 38%
16. Cold Fluid 9%
17. Collected Data 13%
18. Complex Conjugate 5%
19. Compressibility 52%
20. Compressor Blades 29%
21. Compressor Rotor 100%
22. Computational Fluid Dynamics 13%
23. Convective 19%
24. Cooling Air 13%
25. Core Fluid 23%
26. Core Temperature 33%
27. Disc Surface 9%
28. Ekman Layer 14%
29. Engine Design 16%
30. Engine Design Process 7%
31. Engine Designer 33%
32. Experimental Investigation 15%
33. Experimental Measurement 5%
34. Experimental Range 18%
35. Finite Element Analysis 6%
36. Fitting Curve 5%
37. Flow Characteristics 5%
38. Flow Configuration 5%
39. Flow Phenomenon 15%
40. Flow Structure 57%
41. Fluid Domain 5%
42. Fluid Dynamics 16%
43. Forced Convection 12%
44. Gas Turbine 33%
45. Gas Turbine Engine 7%
46. Good Agreement 17%
47. Grashof Number 64%
48. Heat And Mass Transfer 15%
49. Heat Exchange 15%
50. Heat Flux 59%
51. Heat Flux Gauge 7%
52. Heat Transfer Phenomenon 7%
53. High Pressure Ratio 5%
54. Hot Fluid 9%
55. Induced Convection 7%
56. Industrial Gas Turbine 9%
57. Isothermal 5%
58. Jet Engine 5%
59. Layer Flow 5%
60. Limitations 7%
61. Mainstream Flow 8%
62. Mass Exchange 19%
63. Mass Flowrate 12%
64. Measured Value 7%
65. Measuring Temperature 5%
66. Mechanical Design 10%
67. Mechanical Model 7%
68. Mixing Region 5%
69. Modeling Study 7%
70. Momentum Exchange 5%
71. Natural Convection 20%
72. Nusselt Number 46%
73. One Dimensional 11%
74. Open Cavity 5%
75. Pressure Compressor 10%
76. Pressure Difference 5%
77. Pressure Ratio 36%
78. Pressure Sensor 15%
79. Radial Clearance 11%
80. Radial Distribution 59%
81. Radial Expansion 7%
82. Radial Outflow 5%
83. Radial Temperature Gradient 5%
84. Reduced Order Model 9%
85. Relative Error 5%
86. Relative Slip 5%
87. Reynolds' Number 11%
88. Rossby Number 25%
89. Rotating Cavity 68%
90. Rotating Core 12%
91. Rotating Disk 72%
92. Rotating Flow 31%
93. Rotating Fluid 10%
94. Rotating Vortex 10%
95. Rotational 7%
96. Rotational Reynolds Number 22%
97. Rotational Speed 18%
98. Rotors 10%
99. Secondary Air 10%
100. Single Curve 7%
101. Smaller Core 5%
102. State Condition 5%
103. Temperature Distribution 42%
104. Temperature Gradients 15%
105. Temperature Increase 7%
106. Temperature Profile 5%
107. Temperature Rise 11%
108. Temperature Stress 5%
109. Thermal Gradient 15%
110. Thermal Inertia 5%
111. Thermal Stress 22%
112. Thermocouple 9%
113. Thermopile 7%
114. Throughflow 64%
115. Turbine 9%
116. Two Dimensional 14%
117. Unsteady Flow 14%
118. Vortex 51%