Schematic design

The forward-mode transformer stores no energy other than a small amount within the magnetization of the core material itself. There are only two major considerations which are important during the gross schematic design of the transformer ... [Pg.40]

Figure 5.6 Schematic design for recycling cliromatography in wliich the effluent is recycled tlirough the pump 1, eluent 2, pump 3, injector 4, chromatograpliic column 5, detector 6, three way valve 7, waste 8, T-connection.

Figure 4. Schematic design of a proton exchange membrane fuel.

Figure 2.39 Schematic design of a mixing tee (above) and CFD results for mixing of gases in a channel of500 jm width and 300 jm depth, taken from [134] (below).

Figure 2.48 The top shows the schematic design of a magneto-hydrodynamic mixer with equally spaced electrodes arranged In a micro channel and an external magnetic field oriented along the z-axis. On the bottom theoretical results for the evolution of two parallel liquid lamellae as a function of dimensionless time are shown [146].

Figure 2.49 The left side shows the schematic design of an annular magneto-hydrodynamic mixer. On the right, the evolution of the interface between two liquids, as described in [147], is depicted.

FIGURE 31.1 Schematic design of cells for studying electroosmosis (a) and streaming potentials (b), the velocity of electroosmotic transport can be measured in terms of the rate of displacement of the meniscus in the capillary tube (in the right-hand part of the cell). [Pg.596]

FIGURE 31.2 Schematic design of cells for studying electrophoresis (a) and sedimentation potentials (b). [Pg.596]

Figure 6.15 Schematic design of a reflectron time-of-flight mass spectrometer...

Fig. 2.10 Schematic design of a cell for the determination of transport numbers from measurements of the concentration decrease in electrode compartments (Hittorf s method)...

FIGURE 4.5 Schematic design of a microcoil NMR probe. (From Rehbein, J. et al., Characterization of Bixin by LC-MS and LC-NMR, John Wiley Sons Ltd., 2387, 2007. With permission.)... [Pg.64]

Figure 6.35. Schematic design of a full-scale fluorous biphasic reactor for the hydroformylation of 1-octene...

Figure 5.19. Schematic design of the NaBH4-reduction/flame photometric detection system for the determination of tin species in natural waters. Source Author s own files...

Figure 3. Schematic design of thermistor signal read-out circuit.

Figure 12. Schematic design of thermocouple or thermopile signal read-out.

Figure 13. Schematic design of Kelvin Probe circuit and its signal output.

Fig. 4.28. Schematic design of the above instrument. Horizontal (x) and vertical (y) trajectories are also shown. Quadmpole lenses are used to improve the transmission of the magnetic sector, thus resulting in a qqBqE geometry. Adapted from Ref. [80] with permission. Elsevier Science, 1985.

Fig.l. Schematic design of a fluorescence probe for the simultaneous detection of two different wavelengths. M mirror, L lamp,Ll-3 lenses,Fl-4 filters, FRl-4 fiber cables, Dl-3 photodetectors, H housing, MZ mixing zone of fiber, QP quartz plate, A amplifier, C cooling, MP microprocessor unit, PS power supply... [Pg.25]

Fig. 3. Schematic design of a two-vessel arrangement for a scale-up of the dialysis technique...

Fig. 31 (a) Schematic design of a dye-sensitized solar cell, (b) Energy band diagram of DSSC. (Reprinted with permission from [265])... [Pg.157]

Fig.l Schematic design of nanoparticie for bioimaging containing the fluorescent dye encapsuiated in an inorganic matrix Q surface modified with another sheii o and conjugated to biomoiecuies ... [Pg.192]

Fig. 6. Schematic design of a microbial sensor containing genetically manipulated yeast cell for detection of...

Fig. 2. A schematic design of a targetable polymeric conjugate. Drug and targeting moiety are bound to the soluble polymeric carrier via a spacer...

Fig. 90. (a) Schematic design of a stress-operated memory device, (b) The magnetic states of particles A, B and C (see (a)) as a function of a driving electric field. The magnetisation of the particle B is switched, whereas the final magnetic states of the particles A and C are not affected. After Novosad et al. (2000). [Pg.190]

Figure 20-14 Schematic design of photodiode array spectrophotometer.

Figure 14.11 Schematic design of a quadrupole magnet. The arrangement of the poles will provide x focusing in the usual right-handed coordinate system with the z axis emerging from the page. [From O. Chumberlin, Ann. Rev. Nucl. Sci. 10, 161 (I960).]...

Fig. 17.7. The MALDI schematic design of a MALDI ToF instrument (Micromass ToF Spec 2E, MMUK) showing ion generation via laser desorption (UV/IR), followed by ion acceleration through the field-free ToF-mass analyser, where the ions are reversed as they enter the reflector to end at the detectors.

Figure 12.1 Schematic design of polymeric drug targeting carrier.

Figure 12.2 Schematic design of colloidal drug targeting carrier.

Fig. 12 Schematic design and photograph of the nanoporous waveguide chip...

Figure 1.6 Schematic design of the electrohydrodYnamic (EHD) mixer (left) and cross-sectional view giving the electrode arrangement and sketching the flow motion induced by interfacial shear (right) [94] (by courtesy of Kluwer Academic Publishers).

Figure 1.120 Schematic design of the various mixing nozzles analyzed two-fluid droplet close contact (left) two-fluid droplet separated by annulus (middle) three-fluid droplet with separation layer (right) [135],...

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