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Exploded views

Fig. 10. Exploded view of a monolithic multicomponent ceramic substrate. Layers (a) signal distribution (b) resistor (c) capacitor (d) circuit protection ... Fig. 10. Exploded view of a monolithic multicomponent ceramic substrate. Layers (a) signal distribution (b) resistor (c) capacitor (d) circuit protection ...
Fig. 13. Exploded view of an OxyTech MDC-55 ceU a, end plate b, rim screen c, side screens d, tube sheet e, full-cathode tube f, half-cathode or end tube g, side plate h, lifting lug i, punched and coined stiffener strap j, bosses k, end plate, operating aisle end 1, hydrogen outiet m, connector bar n,... Fig. 13. Exploded view of an OxyTech MDC-55 ceU a, end plate b, rim screen c, side screens d, tube sheet e, full-cathode tube f, half-cathode or end tube g, side plate h, lifting lug i, punched and coined stiffener strap j, bosses k, end plate, operating aisle end 1, hydrogen outiet m, connector bar n,...
Fig. 16. Exploded view of a smart transmitter based on variable capacitance sensor technology. Fig. 16. Exploded view of a smart transmitter based on variable capacitance sensor technology.
Fig. 9. Splicing connector for two wires (insulation piercing), (a) Exploded view (b) cross section after pressing on wires. Fig. 9. Splicing connector for two wires (insulation piercing), (a) Exploded view (b) cross section after pressing on wires.
Two-Dimensional Electrode Flow Cells. The simplest and least expensive cell design is the undivided parallel plate cell with electrolyte flow by some form of manifold. Electrical power is monopolar to the cell pack (72). An exploded view of the Foreman and Veatch cell is shown in Figure 7. Note that electrolyte flow is in series and that it is not easily adapted for divided cell operation. [Pg.90]

Operation and Service Manuais. To be of real value to the mechanic, an operation and service manual must be indexed to permit quick location of needed information. The manual must be written in simple, straightforward language, have illustrations, sketches, or exploded views adjacent to pertinent text, and have minimum references to another page or section. Major sections or chapters should be tabbed for quick location. [Pg.742]

Figure 3-10. An exploded view of a cushioned channel valve. Courtesy of Dresser-Rand)... Figure 3-10. An exploded view of a cushioned channel valve. Courtesy of Dresser-Rand)...
Figure 5-7. An exploded view of an integrally geared compressor. (Courtesy of Cooper Turbocompressoi)... Figure 5-7. An exploded view of an integrally geared compressor. (Courtesy of Cooper Turbocompressoi)...
Figure 6-46A. Exploded view of rotary lobe gas pump with mechanical seals and pressure lubrication for bearings. By permission, Roots Division Dresser Industries, Inc. Figure 6-46A. Exploded view of rotary lobe gas pump with mechanical seals and pressure lubrication for bearings. By permission, Roots Division Dresser Industries, Inc.
Figure 7-8J. Exploded view of double disk assembly. Usually burst pressure is same for each disk. Used for corrosive/toxic conditions to avoid premature loss of process and at remote locations. Note the use of tell-tale between disks. By permission, Fike Metal Products Div., Flke Corporation, Inc. Figure 7-8J. Exploded view of double disk assembly. Usually burst pressure is same for each disk. Used for corrosive/toxic conditions to avoid premature loss of process and at remote locations. Note the use of tell-tale between disks. By permission, Fike Metal Products Div., Flke Corporation, Inc.
Figure 10-1 OF. Flat plate extended surface used in low-temperature gas separation plants exploded view of brazed surfaces. (Used by permission The Trane Co., La Crosse, Wis.)... Figure 10-1 OF. Flat plate extended surface used in low-temperature gas separation plants exploded view of brazed surfaces. (Used by permission The Trane Co., La Crosse, Wis.)...
Figures 12-106, 12-107, and 12-107A show an exploded view of a typical positive displacement blower. The impeller lobes rotate in opposite directions on parallel mounted shafts. Figure 12-107. One shaft serves as the drive shaft and drives the other through the gears. A timing hub allows for adjusting the timing angle of the lobes. The rotation may be either for upward, downward, or side gas flow. When liquid is entrained in the gas, the downward flow is preferred to assist in case drainage. Figures 12-106, 12-107, and 12-107A show an exploded view of a typical positive displacement blower. The impeller lobes rotate in opposite directions on parallel mounted shafts. Figure 12-107. One shaft serves as the drive shaft and drives the other through the gears. A timing hub allows for adjusting the timing angle of the lobes. The rotation may be either for upward, downward, or side gas flow. When liquid is entrained in the gas, the downward flow is preferred to assist in case drainage.
Figure 12-110C. Exploded view of a screw compressor. (Used by permission Price, B. C. Chemical Engineering Progress, V. 87, No. 2, p. 51, 1991. American Institute of Chemical Engineers. All rights reserved.)... Figure 12-110C. Exploded view of a screw compressor. (Used by permission Price, B. C. Chemical Engineering Progress, V. 87, No. 2, p. 51, 1991. American Institute of Chemical Engineers. All rights reserved.)...
Figure 4-221. Servo-controlled single-axis Sunstrand accelerometer (a) accelerometer photograph (b) exploded view of the accelerometer. (Courtesy Sunstrand [102].)... Figure 4-221. Servo-controlled single-axis Sunstrand accelerometer (a) accelerometer photograph (b) exploded view of the accelerometer. (Courtesy Sunstrand [102].)...
Figure 36.9 is an exploded view of a typical finger valve. These valves are used for smaller, air-cooled compressors. One end of the finger is fixed and the opposite end lifts when the valve opens. [Pg.562]

Fig. 19.6 Exploded views of fixed-path-length cells. Reproduced by permission of Specac Ltd, Lagoon Road, Orpington, Kent BR5 3QX. Fig. 19.6 Exploded views of fixed-path-length cells. Reproduced by permission of Specac Ltd, Lagoon Road, Orpington, Kent BR5 3QX.
Composite orbital overlap view of the a and bonds of acetylene. The bonds are shown in an exploded view that makes the C—C a bond visible. [Pg.689]

Figure 3. Exploded view of the sample holder and catalyst disc. (Reproduced with permission from Ref. 7. Copyrifdit 198U, Academic Press.)... Figure 3. Exploded view of the sample holder and catalyst disc. (Reproduced with permission from Ref. 7. Copyrifdit 198U, Academic Press.)...
FIG. 20-83 Exploded view of a sheet-feed ED stack. Manifolds are built into the membranes and spacers as the practical way to maintain a narrow cell gap. Courtesy Elsevier.)... [Pg.69]

Figure 4.21 Exploded view of a nlcroaeBbrane suppressor and gradient elution separation of a aixture of inorgemic and organic anions by ion chromatography employing conductivity detection with a mlcromembrane suppressor. Figure 4.21 Exploded view of a nlcroaeBbrane suppressor and gradient elution separation of a aixture of inorgemic and organic anions by ion chromatography employing conductivity detection with a mlcromembrane suppressor.
Fig. 5. Exploded view of an ion-exchange membrane electrochemical oxygen separator. Oxygen removal characteristics of the flow-through type oxygen removal system are shown. Air cathode area = 100 cm2, water temperature = 40 °C. Fig. 5. Exploded view of an ion-exchange membrane electrochemical oxygen separator. Oxygen removal characteristics of the flow-through type oxygen removal system are shown. Air cathode area = 100 cm2, water temperature = 40 °C.
Figure 9-7 Exploded View of Lead less Socket... Figure 9-7 Exploded View of Lead less Socket...
Surface complexes between metal cations and siloxane ditrigonal cavities on 2 1 phyllosilicates, shown in exploded view. [Pg.63]

Figure 8.1 Exploded view of an electrophoresis cell. The components of the Bio-Rad Mini-PROTEAN 3 are shown. The inner chamber can hold one or two gels. It contains an electrode assembly and a clamping frame. The interior of the inner assembly constitutes the upper buffer compartment (usually the cathode compartment). The chamber is placed in the tank to which buffer is added. This constitutes the lower (anode) buffer compartment. Electrical contact is made through the lid. Figure 8.1 Exploded view of an electrophoresis cell. The components of the Bio-Rad Mini-PROTEAN 3 are shown. The inner chamber can hold one or two gels. It contains an electrode assembly and a clamping frame. The interior of the inner assembly constitutes the upper buffer compartment (usually the cathode compartment). The chamber is placed in the tank to which buffer is added. This constitutes the lower (anode) buffer compartment. Electrical contact is made through the lid.
Figure 8.12 Two types of electrotransfer apparatus. At the left a tank transfer cell is shown in an exploded view. The cassette (1) holds the gel (2) and transfer membrane (3) between buffer-saturated filter paper pads (4). The cassette is inserted vertically into the buffer-filled tank (5) between positive and negative electrodes (not shown). A lid with connectors and leads for applying electrical power is not shown. On the right side of the figure is shown an exploded view of a semidry transfer unit. The gel (5) and membrane (6) are sandwiched between buffer-saturated stacks of filter paper (4) and placed between the cathode assembly (3) and anode plate (7). A safety lid (1) attaches to the base (9). Power is applied through cables (8). Figure 8.12 Two types of electrotransfer apparatus. At the left a tank transfer cell is shown in an exploded view. The cassette (1) holds the gel (2) and transfer membrane (3) between buffer-saturated filter paper pads (4). The cassette is inserted vertically into the buffer-filled tank (5) between positive and negative electrodes (not shown). A lid with connectors and leads for applying electrical power is not shown. On the right side of the figure is shown an exploded view of a semidry transfer unit. The gel (5) and membrane (6) are sandwiched between buffer-saturated stacks of filter paper (4) and placed between the cathode assembly (3) and anode plate (7). A safety lid (1) attaches to the base (9). Power is applied through cables (8).
Figure 2.1 Exploded views showing the nonporous membrane size-exclusion phenomenon in the uptake and loss of organic compounds. Middle illustration shows the movement of contaminant molecules through transient pores in the membrane and retention (membrane exclusion) of much larger lipid molecules. Upper illustration shows similarly scaled space-filled molecular models of some organic contaminants and triolein, along with the hypothetical polymer pore (transient) size. Reprinted with permission from the American Petroleum Institute (Huckinset al., 2002). Figure 2.1 Exploded views showing the nonporous membrane size-exclusion phenomenon in the uptake and loss of organic compounds. Middle illustration shows the movement of contaminant molecules through transient pores in the membrane and retention (membrane exclusion) of much larger lipid molecules. Upper illustration shows similarly scaled space-filled molecular models of some organic contaminants and triolein, along with the hypothetical polymer pore (transient) size. Reprinted with permission from the American Petroleum Institute (Huckinset al., 2002).
The exploded view in Fig. 11 elucidates the function of this parallel-plate and... [Pg.67]

FIGURE 2.23 Exploded view of the complex formed between Ac2-L-Lys-D-Ala-D-Ala and vancomycin. Dotted lines indicate H-bonding interactions. [Pg.154]

FIGURE 2.24 (a) Polytube model and exploded view of the complex between VAG and... [Pg.156]

FIG U RE 2.25 Stereo views of the complexes between (a) TAG and iV-acetyl-D-phenylgly cine or (c) iV-acetyl-L-phenylglycine, generated by computer modeling, (b) Exploded view of the complex between TAG and N-acetyl-phenylglycine (unspecified stereochemistry at the ligand). The primary amino group of TAG is converted to a ureido function to model the TAG CSP. [Pg.160]

Experimental apparatus used to measure in-plane permeability (a) assembled view (b) exploded view (c) sectioned view. (Reprinted from J. T. Gostick et al. Journal of Power Sources 162 (2006) 228-238. With permission from Elsevier.)... [Pg.262]

Figure 7.3 Exploded view of the high pressure Figure 7.4 High pressure IR cell connected in situ NMR flow cell. (From J. A. Iggo, to an autoclave (constructed at ICCOM-CNR,... Figure 7.3 Exploded view of the high pressure Figure 7.4 High pressure IR cell connected in situ NMR flow cell. (From J. A. Iggo, to an autoclave (constructed at ICCOM-CNR,...
Figure 4.17 — (A) Exploded view of a tubular flow-cell integrated microconduit system. I Ag/AgCl inner reference electrode M sensitive membrane S internal reference solution. (B) Detail of the integrated microconduit shown within the dotted lines in C. (C) Integrated-microconduit FI manifold for potentiometric measurements C carrier stream R reference electrode solution P pump V injection valve I indicator electrode R reference electrode I pulse inhibitor G ground W waste. (Reproduced from [140] with permission of Pergamon Press). Figure 4.17 — (A) Exploded view of a tubular flow-cell integrated microconduit system. I Ag/AgCl inner reference electrode M sensitive membrane S internal reference solution. (B) Detail of the integrated microconduit shown within the dotted lines in C. (C) Integrated-microconduit FI manifold for potentiometric measurements C carrier stream R reference electrode solution P pump V injection valve I indicator electrode R reference electrode I pulse inhibitor G ground W waste. (Reproduced from [140] with permission of Pergamon Press).
Exploded view of the human immunodeficiency virus. It is an RNA (retrovirus) virus that contains surface proteins composed of a knoblike glycoprotein (gpl20) linked to a transmembrane stalk (gp41). These surface proteins are the infective mechanisms that allow the virus to bind to CD4 proteins of cells, such as T4 lymphocytes and monocytes. [Pg.585]

See other pages where Exploded views is mentioned: [Pg.314]    [Pg.126]    [Pg.224]    [Pg.638]    [Pg.137]    [Pg.352]    [Pg.168]    [Pg.563]    [Pg.18]    [Pg.373]    [Pg.214]    [Pg.156]    [Pg.911]    [Pg.945]   
See also in sourсe #XX -- [ Pg.8 ]



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