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Vector plot

Fig. 34. Snapshots of the bubble hold-up in the DBM model without bubble coalescence, and the time average vector plot of the emulsion phase after 100s of simulation (a) + (b) 0 = 0.1. Fig. 34. Snapshots of the bubble hold-up in the DBM model without bubble coalescence, and the time average vector plot of the emulsion phase after 100s of simulation (a) + (b) 0 = 0.1.
Principal vector plot (PC plot). The principle of the PC Figure 5. The plane that best approxi-set (in the sense of least squares) is coordinates in the plane of the projec-nt are calculated and the point plotted... [Pg.85]

Figure 5. Eigenvector Projection (Principal Vector Plot). A plane is least squares fitted to all the data. This plane constitutes a two-dimensional window into the multi—dimensional measurement space. The projections of the object points down to the plane are visualized in this plot. Figure 5. Eigenvector Projection (Principal Vector Plot). A plane is least squares fitted to all the data. This plane constitutes a two-dimensional window into the multi—dimensional measurement space. The projections of the object points down to the plane are visualized in this plot.
M 31] [P 28] Velocity vector plots show the separation of the boundary layer before and after approaching the static mixing element [71]. Backflow occurs in the separation region. By this unsteady reattachment of the flow, new interfaces are constantly generated, when the flow has to pass a series of such mixing elements. [Pg.89]

Pressure drop plots - intensity of segregation and velocity vector plots... [Pg.89]

The resulting contours of the stream lines, a close-up of a vector plot near the top cover plate and the profile of radial velocity at the inner edge of the catalyst bed (Profile C, Figure 10-15) all show us that these last-named proposed changes would have many benefits. The main ones are ... [Pg.824]

FIGURE 7,5 Predicted flow field with two equation turbulence model (standard k-s model), (a) Vector plot, (b) Contours of stream function (-0.01 [A] to 0.01 [J]), (c) Contours of turbulent kinetic energy (0 [A] to 0.01 [K]). [Pg.196]

FIGURE 9.3 Sample of simulation results for a two pitched blade turbine (legend not shown due to confidentiality constraints), (a) Grid (b) vector plot (c) contours of turbulent KE (white highest value black lowest value). Reproduced in colour plate section between pages 210 and 211,... [Pg.251]

FIGURE 11.17 Typical results obtained for double ring sparger (From Ranade and Tayalia, 2001). (a) Vector plot, (b) particle streak lines. [Pg.357]

FIGURE 9.21 Typical predicted results for the loop reactor (excluding vapor space), (a) Vector plots (liquid phase), (b) contours of gas volume fraction (red high blue low). (Legend not shown due to confidentiality constraints.)... [Pg.471]

The grid used in these MRRF stirred tank simulations is shown in Fig 7.22. The overall flow fields in a vertical layer between two baffles and in a horizontal layer at the disc axial level are shown as vector plots in Fig 7.23 and... [Pg.740]

Figure 5. Three-dimensionsal simulation for 800 /jm particles with a viscosity input model in the IIT slurry bubble column with a 5 cm width (a) instantaneous particle velocity vector plots and solid volume fractions (color bar) at 25 s, and (b) time-averaged particle velocity at the center (c) near the wall from 15 to 36 5. (Fi=2.02cm/s, VG=3,37cm/s)... Figure 5. Three-dimensionsal simulation for 800 /jm particles with a viscosity input model in the IIT slurry bubble column with a 5 cm width (a) instantaneous particle velocity vector plots and solid volume fractions (color bar) at 25 s, and (b) time-averaged particle velocity at the center (c) near the wall from 15 to 36 5. (Fi=2.02cm/s, VG=3,37cm/s)...
Fig. 6. (Top) Ramachandran plots for torsional variables < >1, FI and < >2, P2 for acetyl-l-Ala- F(CN4)-l-Ala-methylamide and acetyl-l-Ala-[c/s-amide]-l-Ala-methylamide (bottom) at 100 increments. Dots represent sterically allowed values. (,Bottontj Vector plots of a-carbon-p-carbon bond vectors (arrows) for acetyl-l-Ala- P (CAMJ-l-Ala-methylamide and acetyl-l-Ala-[c/s-amide]-l-Ala-methylamide (bottom) at 100 increments. Dashed area denotes fixed coordinates of methylamide portions used as common frame of reference. Fig. 6. (Top) Ramachandran plots for torsional variables < >1, FI and < >2, P2 for acetyl-l-Ala- F(CN4)-l-Ala-methylamide and acetyl-l-Ala-[c/s-amide]-l-Ala-methylamide (bottom) at 100 increments. Dots represent sterically allowed values. (,Bottontj Vector plots of a-carbon-p-carbon bond vectors (arrows) for acetyl-l-Ala- P (CAMJ-l-Ala-methylamide and acetyl-l-Ala-[c/s-amide]-l-Ala-methylamide (bottom) at 100 increments. Dashed area denotes fixed coordinates of methylamide portions used as common frame of reference.
Figure 15. Spherical bubble. The streamlines and the velocity vectors at steady-state in a coordinate system moving with the bubble centroid for (a) a clean bubble and (b) a contaminated bubble. Every third grid points are used in the velocity vector plots (Eo = 1 and Mo = 0.1). Figure 15. Spherical bubble. The streamlines and the velocity vectors at steady-state in a coordinate system moving with the bubble centroid for (a) a clean bubble and (b) a contaminated bubble. Every third grid points are used in the velocity vector plots (Eo = 1 and Mo = 0.1).
Fig. 1.24. Annual cycle of the Yellow Sea wind. Wind stress (heavy vectors, plotted at the spatial resolution (2.0°) of the data), model predicted vertically averaged residual velocity (thin vectors, interpolated to a 0.25° grid for display purposes in this and subsequent figmes), and the associated stream function (increasing from white to black in 0.05 Sv increments, circulation arormd local minima is anticyclonic). (a) January (b) March (c) May (d) July (e) September (f) November (Naimie et al., 2001) (With permission from Elsevier s Copyright Clearance Center)... Fig. 1.24. Annual cycle of the Yellow Sea wind. Wind stress (heavy vectors, plotted at the spatial resolution (2.0°) of the data), model predicted vertically averaged residual velocity (thin vectors, interpolated to a 0.25° grid for display purposes in this and subsequent figmes), and the associated stream function (increasing from white to black in 0.05 Sv increments, circulation arormd local minima is anticyclonic). (a) January (b) March (c) May (d) July (e) September (f) November (Naimie et al., 2001) (With permission from Elsevier s Copyright Clearance Center)...
Figure 13.28 Coarctate Mobius transition state of the coarctate biscyclization (Figure 13.27). (a) calculated geometry (B3LYP/6-31G ), (b) ACID plot, isosurface value 0.05, current density vectors plotted... Figure 13.28 Coarctate Mobius transition state of the coarctate biscyclization (Figure 13.27). (a) calculated geometry (B3LYP/6-31G ), (b) ACID plot, isosurface value 0.05, current density vectors plotted...
The corresponding rate vector plot is then shown in Figure 4.1(b). [Pg.68]

See other pages where Vector plot is mentioned: [Pg.785]    [Pg.117]    [Pg.29]    [Pg.187]    [Pg.187]    [Pg.323]    [Pg.96]    [Pg.13]    [Pg.165]    [Pg.785]    [Pg.123]    [Pg.247]    [Pg.1449]    [Pg.247]    [Pg.76]    [Pg.2584]    [Pg.186]    [Pg.239]    [Pg.253]    [Pg.296]    [Pg.302]    [Pg.413]    [Pg.252]    [Pg.138]    [Pg.375]    [Pg.397]   
See also in sourсe #XX -- [ Pg.29 ]

See also in sourсe #XX -- [ Pg.195 ]



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Velocity vector plot

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