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Glitsch rings

This was confirmed by studies using CMR Glitsch rings, where the effective form factor cpp,exp = 0.437 exceeded the calculated value (pp,calc = 0.223 approximately by a factor of 2 [34, 35]. [Pg.144]

Figure 3-32. Resistance coefficient i]/ as function of Reynolds number of vapour or gas Rev, valid for random CMR Glitsch rings made of metal and plastic, various sizes... Figure 3-32. Resistance coefficient i]/ as function of Reynolds number of vapour or gas Rev, valid for random CMR Glitsch rings made of metal and plastic, various sizes...
Figure 16. Plastic Pall Ring. Note Ballast Ring of Glitsch, Inc. is quite similar. (By permission Notion Chemical Process Products Corporation.)... Figure 16. Plastic Pall Ring. Note Ballast Ring of Glitsch, Inc. is quite similar. (By permission Notion Chemical Process Products Corporation.)...
Figure 9-6H. Plastic pall ring. Note Glitsch Ballast Ring and others are quite similar. Used by permission of Norton Chemical Process Products Corp., Bull. DC-11 and PTP-1 (11/87). Figure 9-6H. Plastic pall ring. Note Glitsch Ballast Ring and others are quite similar. Used by permission of Norton Chemical Process Products Corp., Bull. DC-11 and PTP-1 (11/87).
Figure 9-6T. (Top) Cascade Mini-Ring, (metal and plastic). Originally used by permission of Mass Transfer, Inc., now, Glitsch, Inc. (middle and bottom) Elevation and plan views of Ballast rings (right) and Cascade Mini-Rings (left). Note how high aspect ratio of former permits occlusion of interior surfaces. Low aspect ratio of Cascade Mini-Rings, on the other hand, favors orientation that exposes internal surfaces for excellent film formation, intimate mixing, and gas-liquid contact. Used by permission of Glitsch, Inc. Bull. 345. Figure 9-6T. (Top) Cascade Mini-Ring, (metal and plastic). Originally used by permission of Mass Transfer, Inc., now, Glitsch, Inc. (middle and bottom) Elevation and plan views of Ballast rings (right) and Cascade Mini-Rings (left). Note how high aspect ratio of former permits occlusion of interior surfaces. Low aspect ratio of Cascade Mini-Rings, on the other hand, favors orientation that exposes internal surfaces for excellent film formation, intimate mixing, and gas-liquid contact. Used by permission of Glitsch, Inc. Bull. 345.
Glitsch Packing Factors for Cascade Mini-Rings... [Pg.290]

Glitsch performance data for their Cascade Mini-Ring are shown in Figures 9-34A, B, and C for HETP with other published data and pressure drop for comparison with Pall rings and sieve trays. Note the abbreviation CMR stands for Cascade Mini-Rings. [Pg.307]

Figure 9-34B. Efficiency versus C-factor for metal rings. Data from Billet (Symposium Series 32, Institution of Chemical Engineers), London (1969). Used by permission of Glitsch, Inc., Bull. 345. Figure 9-34B. Efficiency versus C-factor for metal rings. Data from Billet (Symposium Series 32, Institution of Chemical Engineers), London (1969). Used by permission of Glitsch, Inc., Bull. 345.
Figure 9-61A. Pressure drop comparison of Glitsch Grid and Beii-last rings at 10 gpm/ft. Used by permission of Glitsch, inc. Bull. 9-72. Figure 9-61A. Pressure drop comparison of Glitsch Grid and Beii-last rings at 10 gpm/ft. Used by permission of Glitsch, inc. Bull. 9-72.
Figure 9-61B. Capacity perfonnance comparison for Glitsch-Grid and Ballast rings. Used by pennission of Glitsch, Inc. Bull. 9-72. Figure 9-61B. Capacity perfonnance comparison for Glitsch-Grid and Ballast rings. Used by pennission of Glitsch, Inc. Bull. 9-72.
Figure 13.38. Capacity and pressure drop in beds of pall ( ballast ) rings (Glitsch, Inc.), (a) Capacity chart for pall rings. Vs = vapor velocity (ft/sec). Example with 1 in. rings,... Figure 13.38. Capacity and pressure drop in beds of pall ( ballast ) rings (Glitsch, Inc.), (a) Capacity chart for pall rings. Vs = vapor velocity (ft/sec). Example with 1 in. rings,...
Figure 8.4 Third-generation plastic random packing , to) Cascade MiniRing (CMR ) (6) Hiflow ring. (Pori a, courtesy of Glitsch, Inc. port b, courtesy of Rauschert Industries, Inc.)... Figure 8.4 Third-generation plastic random packing , to) Cascade MiniRing (CMR ) (6) Hiflow ring. (Pori a, courtesy of Glitsch, Inc. port b, courtesy of Rauschert Industries, Inc.)...
See other pages where Glitsch rings is mentioned: [Pg.72]    [Pg.155]    [Pg.155]    [Pg.238]    [Pg.269]    [Pg.269]    [Pg.269]    [Pg.269]    [Pg.269]    [Pg.288]    [Pg.173]    [Pg.72]    [Pg.155]    [Pg.155]    [Pg.238]    [Pg.269]    [Pg.269]    [Pg.269]    [Pg.269]    [Pg.269]    [Pg.288]    [Pg.173]    [Pg.1389]    [Pg.218]    [Pg.79]    [Pg.435]    [Pg.454]    [Pg.54]    [Pg.55]    [Pg.60]    [Pg.61]    [Pg.79]    [Pg.144]    [Pg.427]    [Pg.427]    [Pg.468]    [Pg.500]    [Pg.218]    [Pg.1212]    [Pg.435]    [Pg.454]    [Pg.459]    [Pg.476]   
See also in sourсe #XX -- [ Pg.72 , Pg.144 , Pg.288 ]



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