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Measurement synchronous

Another technique consists of MC measurements during potential modulation. In this case the MC change is measured synchronously with the potential change at an electrode/electrolyte interface and recorded. To a first approximation this information is equivalent to a first derivative of the just-explained MC-potential curve. However, the signals obtained will depend on the frequency of modulation, since it will influence the charge carrier profiles in the space charge layer of the semiconductor. [Pg.455]

Figure 28.4 shows the computed cross-shore variations of Figure 28.4 shows the computed cross-shore variations of <lsx, fmd q for the spilling and plunging wave tests. The cross-shore bedload transport rate q x is positive (onshore), whereas the cross-shore suspended sand transport rate qsx is negative (offshore). The absolute values of q x and q x are larger in the breaker zone near a = 4 m and near the stiU water shoreline, especially for the plunging waves. The computed total sand transport rate q = [qbx+qsx) is positive (onshore) except in the zone near the shorehne where qx < 0. The absolute value of qx is less than about 0.05cm /s but = 0 is required on the equilibrium beach. Consequently, the profile evolution is computed using the measured quasi-equilibrium profile as the initial profile. The initial profile is exposed to the wave conditions listed in Table 28.1 for 10 horns. The computed profile is shown in Fig. 28.3. The computed change of the bottom elevation Zb is less than about 5 cm. The subtle profile change is difficult to predict and measme accurately. It is noted that the fluid velocity and suspended sand concentration were not measured synchronously in these tests, resulting in no measmement of qsx ...
In contrast to the isothermal reaction, pe(0 cannot be measured synchronously with Pa(0 however, it can be calculated supplementally on the basis of the effective heat... [Pg.32]

Photometric Moisture Analysis TTis analyzer reqiiires a light source, a filter wheel rotated by a synchronous motor, a sample cell, a detector to measure the light transmitted, and associated electronics. Water has two absorption bands in the near infrared region at 1400 and 1900 nm. This analyzer can measure moisture in liquid or gaseous samples at levels from 5 ppm up to 100 percent, depending on other chemical species in the sample. Response time is less than 1 s, and samples can be run up to 300°C and 400 psig. [Pg.766]

If the technical staff from the client company recognizes that a toller may be asked to perform new analyses and make operating decisions based upon the results, the client may help the toller develop the needed procedures and skills required to make these decisions. Typically a round robin laboratory qualification exercise will be performed. Samples of known standards and unknown concentrations of the materials to be analyzed for the toll will be prepared and sent to both laboratories. This can help ensure that equipment calibration is synchronized and that the toller is capable of performing accurate measurements. In some cases, the toller may be the party with the chemical, process, or synthesis specific expertise. [Pg.83]

For the range of load for which the efficiency is determined, the measurement of slip is very important. To determine slip by subtracting from the synchronous speed the value of speed, obtained through a tachometer is not recommended. The slip must be directly measured by one of the following methods ... [Pg.256]

If the projected pipeline is situated in an area with dc railway lines, rail/soil potential measurements should be carried out at crossing points and where the lines run parallel a short distance apart, particularly in the neighborhood of substations, in order to ascertain the influence of stray currents. Potential differences at the soil surface can give information on the magnitude of stray current effects in the vicinity of dc railway lines. It is recommended that with existing pipelines the measurements be recorded synchronously (see Section 15.5) and taken into account during design. [Pg.276]

Figure 15-8 shows synchronous recordings of the voltage between the pipeline and the rails, of the pipe/soil potential f/cu cuso4 drained current in the region of a tramway transformer substation with and without various protective measures. Figure 15-8a records values without protective measures. If the rails are negative with respect to the pipeline (f/R s > 0), the pipe/soil potential becomes more positive. Stray current exit exists. From time to time, however, < 0. [Pg.360]

Fig. 15-8 Synchronous current, voltage and potential recording with stray current interference from dc railways (a) Without protective measures, (b) direct stray current drainage to the rails, (c) rectified stray current drainage to the rails, (d) forced stray current drainage with uncontrolled protection rectifier, (e) forced stray current drainage with galvanostatically controlled protection rectifier (constant current), (f) forced stray current drainage with potentiostatically controlled protection rectifier (constant potential), (g) forced stray current drainage with potentiostatically controlled protection rectifier and superimposed constant current. Fig. 15-8 Synchronous current, voltage and potential recording with stray current interference from dc railways (a) Without protective measures, (b) direct stray current drainage to the rails, (c) rectified stray current drainage to the rails, (d) forced stray current drainage with uncontrolled protection rectifier, (e) forced stray current drainage with galvanostatically controlled protection rectifier (constant current), (f) forced stray current drainage with potentiostatically controlled protection rectifier (constant potential), (g) forced stray current drainage with potentiostatically controlled protection rectifier and superimposed constant current.
With interference filters two narrow wavelength bands are selected. These are the absorption (or measurement) and reference bands, within which the gas absorption is as high and as low as possible. The filters are mounted on a rotating disk, and the intensities are registered synchronously. The ratio of the intensities is used as the signal related to the gas concentration (Fig, 1... [Pg.1296]

In general, three to four samples are acceptable for good statistical averaging and keeping the time required per measurement point within reason. Exceptions to this include low-speed machinery, transient-event capture, and synchronous averaging. [Pg.717]

Several laser systems have been used in our time-resolved PM measurements. For the ultrafast measurements, a colliding pulse mode-locked (CPM) dye laser was employed [11]. Its characteristic pulsewidth is about 70 fs, however, its wavelength is fixed at 625 nin (or 2.0 cV). For ps measurements at various wavelengths two synchronously pumped dye lasers were used (12], Although their time resolution was not belter than 5 ps, they allowed us to probe in the probe photon energy range from 1.25 cV to 2.2 cV. In addition, a color center laser... [Pg.111]

The number 3-14 is a measure of the coefficient of the resonance integral for synchronous resonance. [Pg.375]

Fig. 9.9 Experimental set-up 1 test module, 2 heater, 3 electrical contact, 4 micro-channel, 5 Pyrex, 6 peristaltic pump, 7 and 8 pressure and temperature measurements, 9 cooler, 10 reservoir, 77 IR camera, 72 microscope, 13 high-speed video camera, 14 PC, 75 synchronizer, 16 video recorder. Reprinted from Peles et al. (2001) with permission... Fig. 9.9 Experimental set-up 1 test module, 2 heater, 3 electrical contact, 4 micro-channel, 5 Pyrex, 6 peristaltic pump, 7 and 8 pressure and temperature measurements, 9 cooler, 10 reservoir, 77 IR camera, 72 microscope, 13 high-speed video camera, 14 PC, 75 synchronizer, 16 video recorder. Reprinted from Peles et al. (2001) with permission...
The high sensitivity of atomic Sagnac interferometers to rotation rates will enable HYPER to measure the modulation of the precession due to the Lense-Thirring effect while the satellite orbits around the Earth. In a Sun-synchronous, circular orbit at 700 km altitude, HYPER will detect how the direction of the Earth s drag varies over the course of the near-polar orbit as a function of the latitudinal position 9 ... [Pg.364]

Several of the entries excitation-emission matrix, synchronous spectra, and time -resolved depolarization, are themselves widely used multidimensional measurements that may be combined further with other parameters. [Pg.12]

See other pages where Measurement synchronous is mentioned: [Pg.188]    [Pg.16]    [Pg.21]    [Pg.93]    [Pg.2220]    [Pg.34]    [Pg.188]    [Pg.16]    [Pg.21]    [Pg.93]    [Pg.2220]    [Pg.34]    [Pg.15]    [Pg.194]    [Pg.200]    [Pg.315]    [Pg.315]    [Pg.316]    [Pg.321]    [Pg.156]    [Pg.523]    [Pg.79]    [Pg.101]    [Pg.113]    [Pg.371]    [Pg.665]    [Pg.701]    [Pg.959]    [Pg.246]    [Pg.112]    [Pg.427]    [Pg.26]    [Pg.409]    [Pg.464]    [Pg.13]    [Pg.258]    [Pg.88]    [Pg.302]    [Pg.55]    [Pg.179]   
See also in sourсe #XX -- [ Pg.251 , Pg.256 , Pg.265 ]



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Synchronicity

Synchronizing

Synchronous

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