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Plan view

Figure 3.21 Development of key seating (plan view of hole)... Figure 3.21 Development of key seating (plan view of hole)...
Fig. 10. Horizontal rotating pan filter (a) plan view (b) elevation. Fig. 10. Horizontal rotating pan filter (a) plan view (b) elevation.
Most furnace shells are short vertical cylinders but may also be triangular, elliptical, or rectangular in plan view. Single-phase furnaces may have one or two movable electrodes. Three-phase furnaces usually have three movable electrodes, but some have six (three paks, two electrodes for each phase). [Pg.123]

Fig. 3. Three-dimeiisioiial flow for stream recharge via a water table aquifer where (a) is the elevation view and (b) is the plan view. Fig. 3. Three-dimeiisioiial flow for stream recharge via a water table aquifer where (a) is the elevation view and (b) is the plan view.
FIG. 2 is a side plan view of one embodiment of the wheel cover of the present invention shown in FIG. 1 with the wheel cover applied to a spoke wheel rim. [Pg.28]

Fig. 12. Optimum belt feeder interface (a) elevation views, where (----------) is the belt feeder on its centerline, and (b) plan view. Fig. 12. Optimum belt feeder interface (a) elevation views, where (----------) is the belt feeder on its centerline, and (b) plan view.
FIG. 25-70 Dep ression method for landfilling solid wastes, a) Plan view canyon-site landfiU. (h) Section through landfill. [Pg.2254]

FIG. 26-22 Multireactor knockout (K-O) drum/catch tank a) plan view of reactors connected to horizontal containment vessel (h) back-to-back bursting disc assembly (c) elevation of self-supporting vessel (d) elevation of horizontal vessel on roof of building (e) elevation of horizontal vessel on side of building. [Pg.2297]

Fig. 23-14 Close proximity of a PE-coated DN 600 gas pipeline and a 380-kV high-voltage line, (a) Plan view, (b) comparison between measured and calculated pipeline potentials without connected grounds, and (c) comparison between measured and calculated pipeline potentials with connected grounds. Fig. 23-14 Close proximity of a PE-coated DN 600 gas pipeline and a 380-kV high-voltage line, (a) Plan view, (b) comparison between measured and calculated pipeline potentials without connected grounds, and (c) comparison between measured and calculated pipeline potentials with connected grounds.
Aerodynamic flow around a cube (a) side view, (b) plan view. Source After... [Pg.268]

In the early days of TEM, sample preparation was divided into two categories, one for thin films and one for bulk materials. Thin-films, particularly metal layers, were often deposited on substrates and later removed by some sort of technique involving dissolution of the substrate. Bulk materials were cut and polished into thin slabs, which were then either electropolished (metals) or ion-milled (ceramics). The latter technique uses a focused ion beam (typically Ar+) of high-energy, which sputters the surface of the thinned slab. These techniques produce so-called plan-view thin foils. [Pg.113]

Depending on the accessibility afforded by adjacent equipment, aged ladders and access platforms are often quoted as options by vendors. Square body configuration systems (plan view) have square body and plenum sections. Safety handrails surrounding the plenum are standard. Structural supports are usually optional, the height of which depends on system location. Figures 3 and 4 provide sketches of the two basic configurations. [Pg.338]

A typical plan view of a 4-loop PWR is shown in Figure 5.1-4, At first glance, the iurangement appears to be symmetrical about reference planes A and B, but the symmetry about plane B is less than it is about plane A. [Pg.191]

Plan view of nuclear steam supply system. [Pg.531]

Figure 10.29 shows a VS-Pritit illustrating a complete LVHV system (plan view) for a typical foundry application. This system connects five dustgenerating tools, each with its own exhaust nozzle. This figure also includes recommended nozzle volume flow rates and flexible hose inside diameters for several typical foundry-type operations. [Pg.863]

Figure 3-16. Plan views of air coolers with boys and bundles (From Gas Processors Suppliers Association, Engineering Data Book, 9th Edition.)... Figure 3-16. Plan views of air coolers with boys and bundles (From Gas Processors Suppliers Association, Engineering Data Book, 9th Edition.)...
Drass, m, dregs (of oil), drauf, adv. thereupon, thereon, afterward. Draufsicht,/. top view, plan view, plan, draussen, adv. without, out, abroad, drechseln, v.t. turn (on a lathe) elaborate. Dreck, m. dirt, dung, filth (Metal.) dross. Dreckseisen, n. pig iron. [Pg.107]

For example, the windage loss associated with the rotating wheels increases drag. Covering the wheel wells can reduce this adverse effect. Although suitable for rear wheels, a body-mounted cover over the front wheel wells interferes vdth steering because during sharp turns, the front wheels extend beyond the plan-view profile of the car body. [Pg.100]

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.
Figure 27.14 Discharge and return grilles on same wall (plan view)... Figure 27.14 Discharge and return grilles on same wall (plan view)...
Fig. 18—High resolution TEM plan-view image of TiN/Si3N4 nanocomposite coating with Si content of 10.8 at. % and hardness of 42 GPa. The coating was deposited on NaCI substrate for about 50 nm thick and then was floated off onto a mesh. The crystallites were confirmed to be TIN by the interplanar distance of 0.21 nm, which is the TIN (200) interplanar distance. The gain size of the TiN crystallites is less than 5 nm. Fig. 18—High resolution TEM plan-view image of TiN/Si3N4 nanocomposite coating with Si content of 10.8 at. % and hardness of 42 GPa. The coating was deposited on NaCI substrate for about 50 nm thick and then was floated off onto a mesh. The crystallites were confirmed to be TIN by the interplanar distance of 0.21 nm, which is the TIN (200) interplanar distance. The gain size of the TiN crystallites is less than 5 nm.
Rotate about Z-axis in one degree steps in the range -90. .. -p90 for better view. (Use the mouse pointer to grab and rotate the bold azimuth line in the plan view in the insert )... [Pg.386]

Fig. 2.13 Vomeronasal complex plan views and diagrams of VNO and adnexae (secretory and vascular). Left Bat — generalised (from Cooper and Bhatnagar, 1976) arrow = sensory epithelium. Right Slow Loris (from Hedewig, 1980a) scale bar 100 pm. Fig. 2.13 Vomeronasal complex plan views and diagrams of VNO and adnexae (secretory and vascular). Left Bat — generalised (from Cooper and Bhatnagar, 1976) arrow = sensory epithelium. Right Slow Loris (from Hedewig, 1980a) scale bar 100 pm.
Figure A.9. Blast wave and structure—plan view. Figure A.9. Blast wave and structure—plan view.
Linked octahedra in corundum (a-Al203) and in ilmenite (FeTi03) Fe light, Ti dark octahedra. Left Plan view of two layers (both layers are shown only in the central part). Right Side view of sections of three layers with facesharing octahedra... [Pg.179]

Top left Plan view of a slab consisting of cubes and double trigonal prisms in Gd5(Si,Ge)4 with (Si,Ge)2 dumbbells on top the gray square is part of the next slab and shows the mutual stacking of the slabs. Remaining images Side views parallel to the slabs... [Pg.239]

FIGURE 16.10 Containment using extraction wells (a) cross-sectional view (b) plan view. [Pg.616]

Figure 2.23 Instantaneous representation of nucleate boiling surface showing distribution of heat transfer mechanisms (a) plan view (b) profile view. (From Hsu and Graham, 1976. Copyright 1976 by Hemisphere Publishing Corp., New York. Reprinted with permission.)... Figure 2.23 Instantaneous representation of nucleate boiling surface showing distribution of heat transfer mechanisms (a) plan view (b) profile view. (From Hsu and Graham, 1976. Copyright 1976 by Hemisphere Publishing Corp., New York. Reprinted with permission.)...
Figure 5.9 Plan view of the (111) plane of the diamond structure. A—Normal structure with open circles in the plane of the paper, and crossed circles in the plane above. Each pair is connected by a covalent bond. B—Partial shear of the upper plane over the lower one on the right-hand side creating a screw dislocation line with a kink in it (dashed line). C—Upper plane sheared down-ward by the displacement, b. Figure 5.9 Plan view of the (111) plane of the diamond structure. A—Normal structure with open circles in the plane of the paper, and crossed circles in the plane above. Each pair is connected by a covalent bond. B—Partial shear of the upper plane over the lower one on the right-hand side creating a screw dislocation line with a kink in it (dashed line). C—Upper plane sheared down-ward by the displacement, b.
Figure 6. Plan view of a study house in Spokane County, WA. Probe locations with depths between 0.8 and 1 m are indicated by squares while those probes with depths between 0.5 and 0.7 m are shown as circles. The numbers indicate the in-situ air permeability measured at each probe location. Figure 6. Plan view of a study house in Spokane County, WA. Probe locations with depths between 0.8 and 1 m are indicated by squares while those probes with depths between 0.5 and 0.7 m are shown as circles. The numbers indicate the in-situ air permeability measured at each probe location.
Figure 7. Stages in the Diffraction of a Blast Wave by a Structure without Openings. (Plan View) (Ref. 7)... Figure 7. Stages in the Diffraction of a Blast Wave by a Structure without Openings. (Plan View) (Ref. 7)...
FIGU RE 7.8 Typical well-point installation layout shown in plan view (top) and cross-section (bottom). [Pg.220]

Perforated pores (a) different sizes in graded manner (b) different sizes in banded manner (c) different density of perforations in a graded manner (d) different density of perforations in a banded manner (e) perforations with different cross sections (f) plan view of perforations with extra passages and grooves. (From D. Knights et al. (2003) US Patent 2003039876.)... [Pg.217]

Fig. 6.13. Plan view of pilot Cr(VI) rig showing configuration of transducers. Fig. 6.13. Plan view of pilot Cr(VI) rig showing configuration of transducers.
See other pages where Plan view is mentioned: [Pg.80]    [Pg.217]    [Pg.128]    [Pg.1371]    [Pg.1648]    [Pg.337]    [Pg.271]    [Pg.366]    [Pg.197]    [Pg.608]    [Pg.610]    [Pg.616]    [Pg.74]    [Pg.415]    [Pg.294]    [Pg.243]   
See also in sourсe #XX -- [ Pg.115 ]



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