Page 390 - Process Modelling and Simulation With Finite Element Methods
P. 390
INDEX
0-D ...................... 23. 24. 25. 26. 36. 59 buoyant convection ........ 108. 109. 117.
2-D triangular element ...................... 90 130
cubic ................................. 90. 92. 93
linear ........ 65. 66. 69.73.74. 80. 8 1. Capacitance .... 144. 145. 152. 160.245.
84. 88.90. 94. 96. 105 246. 247. 248. 264.280.291. 313.
quadratic ... 66. 71. 72. 76. 80. 81. 90 349
Cell arrays and structures ............... 360
acoustics ................... cellular automata ..................... 174. 246
adiabatic tubular reator..................123 CFD ........................4,5,64,9292
Animate ............... CFX............................................................5
............. 75, 77. 78
animation...............................75,77,78 FLUENT ............................
anisotropic dispersion.....209,213,243 chaos theory...................................174
349 chemical waves .................
ANSYS........................................5,290 coalescence of drops ...
application modes coefficient form ......
conductive media.........................321 coeffiecient mode........................27,28
convection and diffusion .... 125. 129. Coefficient View ........................ 69. 73
152. 155. 194.299. 321 compaction front .... 227.228.229.230.
incompressible Navier-Stokes ... 117. 231. 233. 235. 236. 237. 238. 239.
129. 194.216. 221. 293. 294. 240. 241
296.304.315.321. 332 complex systems ....... 20. 173. 174. 175
Argyris elements ...... condensers ......................................... 75
Arnoldi iterative method...................212 conservation laws .............................. 63
ARPACK................198,209,212,213 continuum hypothesis ....................... 63
Aspen ....................... control..... 12. 137. 139. 151.211.241.
Aspen...................................................5
AspenPlus ........................... 247,248 .250.257. 3 13.333. 348
assemble......................................49,57 Convolution integrals ...................... 281
Automatic Scaling of Variables ...... 242 coupling variables ..... .12. 18. 137. 147.
148. 149. 150. 151. 165. 170. 245.
basin of attraction ............................ 1 13 246. 247. 253. 254. 255. 256. 257.
Benard convection .. 173. 177. 178. 215 265.266.267. 269. 270. 271. 273.
360 274. 277. 278. 284. 286. 290. 334.
Biot type boundary condition .......... 168 339.340.341. 347
bisection method ............................... 24 extrusion .... 247. 27 1. 273. 274.275.
blockage factor ........ 219. 222. 223. 225 277. 278. 280. 284. 285. 286.
boundary fluxes ...... 257. 314. 315. 317. 287. 288
318 projection ....... 58. 85. 246. 247. 249.
boundary integral method ............... 293 265. 266. 267. 269. 270. 271.
Boundary integration ...... 222. 245.253. 273.274.277.278. 284
269. 317 scalar .......................
boundary value problems ............ 33. 44 cubic splines ................
BVP .................................. 33. 44. 45 curvature analysis ... 293. 297. 305. 307.
Boussinesq approximation .............. 1 17 3 10
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