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High Intensity Systems

King (1926) discussing the highly intensive systems of farming in China, Japan and Korea repeatedly mentioned the importance of clover as a green manure before rice. The clover was cut, saturated in mud, allowed to ferment for 20 to 30 days and then put on the field. [Pg.22]

The former exhibits absorption tjrpical of an isolated keto group, whereas the latter shows a high intensity -band associated with the conjugated system HO—C=C—C=0. The proportions of the two forms under various conditions are readily determined from the ultraviolet spectra. The ultraviolet spectra in various solvents are shown in Fig. A, 7, 2. Since the absorption of the keto form is negligible, the percentage of enol present is 100(em/e ), where e is the observed extinction at 245 mp. and that of the pure enol. It was shown that in alcoholic solution is 1900 and the percentage of enol is 12. Thus e is ca. 16000, and use of this value permits the approximate evaluation of the enol content in different solvents. The results are collected in Table XII. [Pg.1148]

In the screw conveyor process, solutions of poly(vinyl acetate) and catalyst are mixed in a high intensity mixer and continuously introduced to a screw-type saponification and conveyor system (270). Downstream details are similar to those found in the belt process. [Pg.485]

The first step in the design of a lighting system is the determination of the various lighting levels required for the specific areas of the facility. Typically, the majority of the fixtures are high intensity discharge (HID) fixtures and fluorescent fixtures. Certain applications may require incandescent fixtures as well. [Pg.542]

Deuterium arc background correction. This system uses two lamps, a high-intensity deuterium arc lamp producing an emission continuum over a wide wavelength range and the hollow cathode lamp of the element to be determined. [Pg.795]

AS of this writing, 100% inspection by NAA of small arms primers in an actual production loading plant has not been implemented, nor is it contemplated in the near future. Technical problems exist related to coupling the present state-of-the-art nuclear components with the high production rates for the primers, namely, tens of units per sec per automatic loading line. The high intensity of the neutron source and the complexity of the detection system required detracts from the utility of the method in a plant environment where simplicity and safety of operation are of paramount importance. Nevertheless, the technical feasibility of the method has been demonstrated by the AMMRC study and future developments in nuclear activation hardware may ultimately make this non-destructive inspection for production primers more viable... [Pg.368]

Intensive methods are preferred for big size water reuse schemes, not only for their reduced footprint but also because high technology systems, when implemented by skilled staffs, are assumed to allow higher microbial performance predictability. Moreover, designers and engineers are confident in techniques that allow... [Pg.101]

Easy availability of ultrafast high intensity lasers has fuelled the dream of their use as molecular scissors to cleave selected bonds (1-3). Theoretical approaches to laser assisted control of chemical reactions have kept pace and demonstrated remarkable success (4,5) with experimental results (6-9) buttressing the theoretical claims. The different tablished theoretical approaches to control have been reviewed recently (10). While the focus of these theoretical approaches has been on field design, the photodissociation yield has also been found to be extremely sensitive to the initial vibrational state from which photolysis is induced and results for (11), HI (12,13), HCl (14) and HOD (2,3,15,16) reveal a crucial role for the initial state of the system in product selectivity and enhancement. This critical dependence on initial vibrational state indicates that a suitably optimized linear superposition of the field free vibrational states may be another route to selective control of photodissociation. [Pg.263]

W. Krebs, P. Flohr, B. Prade, and S. Hoffmann. Thermoacoustic stability chart for high intense gas turbine combustion systems. Combustion Science and Technology, 174 99-128, 2002. [Pg.79]

Laser illumination, which allows for significantly fiigher photon flux, has become widespread lately. An undesirable side effect of high intensities is heating of the solution layer next to the electrode. This effect can be reduced when intermittent (pulsed) fight is used. Light pulses offer the additional possibility to examine after effects of the illumination the relaxation processes that occur when the system returns to its original condition. [Pg.558]

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Ligand complexes, high-complexation intensity systems

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