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Calculating growth rates

Figure 2.10 Calculated growth rates for a spherical vapor bubble in a uniformly heated, large volume of sodium under highly superheated conditions. (From Dwyer, 1976. Copyright 1976 by American Nuclear Society, LaGrange Park, IL. Reprinted with permission.)... [Pg.64]

Fig. 9.17 Calculated growth rates of macropores for nv=2 and nv=4 (lines) and experimentally obtained initial macropore etch rates rp (squares) versus the HF concentration Chf of the electrolyte (J/JPS = 0.2S, 1015 crrT3 n-type, RT, square pattern). After [Le9],... Fig. 9.17 Calculated growth rates of macropores for nv=2 and nv=4 (lines) and experimentally obtained initial macropore etch rates rp (squares) versus the HF concentration Chf of the electrolyte (J/JPS = 0.2S, 1015 crrT3 n-type, RT, square pattern). After [Le9],...
For a fixed gas-phase CH3 mole fraction of 0.0005, calculate the steady-state Dia-mond(b) growth rate (in /xrn/hr) as a function of gas-phase H mole fraction over the range 0 to 0.001. Plot the calculated growth rates. [Pg.486]

Normalize the calculated growth rates at each temperature by the growth rate at 500 rpm. Plot the three sets of normalized growth rates versus spin rate, to illustrate the different trends observed for the three disk temperatures examined. [Pg.732]

FIGURE 1 Comparison between calculated growth rates and experimental growth rates [10,11]. [Pg.409]

The growth rate of fat crystals can be found by measuring the particle size distribution as a function of time, and calculating growth rate as the rate of increase of maximum crystal size (van Putte and Bakker, 1987). [Pg.749]

Related Calculations. Use this procedure to calculate the crystal size distribution from both class I and class II MSMPR crystallizers. This procedure cannot be used to calculate growth rates and nucleation with crystallizers having either lines destruction or product classification. [Pg.408]

Figure 6.24. The calculated growth rate in a pore at different Sherwood numbers. Figure 6.24. The calculated growth rate in a pore at different Sherwood numbers.
In general, results from these models are in agreement with operational experience. For example, both Bojarevics and Romerio [75] and Segatz and Droste [76] indicate that their calculated growth rates were less for deeper metal pools, larger anode-metal distances and lower currents, all consistent with industrial operations. [Pg.2885]

Figure 6.13 Construction of the costal habit using the calculated growth rates. The (relative) growth rates are plotted from the origin ofthe lattice as vectors with magnitudes proportional to the calculated relative rates and normal to the respective lattice planes. The smallest closed polygon joining the end points of the... Figure 6.13 Construction of the costal habit using the calculated growth rates. The (relative) growth rates are plotted from the origin ofthe lattice as vectors with magnitudes proportional to the calculated relative rates and normal to the respective lattice planes. The smallest closed polygon joining the end points of the...
It is clear that the surface roughness decreases with decreasing Oc/u ratio. Calculated growth rates as a function of thermodynamic driving force for various surfaces are shown in... [Pg.79]


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