Material activity

Aluminium oxide. The commercial material, activated alumina, is made from aluminium hydroxide it will absorb 15-20 per cent, of its weight of water, can be re-activated by heating at 175° for about seven hours, and does not appreciably deteriorate with repeated use. Its main application is as a drying agent for desiccators. [Pg.142]

Table 1 shows that the physicochemical properties of the support material were modified by the pre-treatment process. The particle sizes. Dp, which are summarized in the Table 1 were calculated from the X-ray diffraction patterns of prepared catalysts and a commercial catalyst(30 wt% Pt-Ru/C E-TEK) by using Scherrer s equation. To avoid the interference from other peaks, (220) peak was used. All the prepared catalysts show the particle sizes of the range from 2.0 to 2.8nm. It can be thought that these values are in the acceptable range for the proper electrode performance[7]. For the prepared catalysts, notable differences are inter-metal distances(X[nm]) compared to commercial one. Due to their larger surface areas of support materials, active metals are apart from each other more than 2 3 times distance than commercial catalyst. Pt-Ru/SRaw has the longest inter-metal distances. [Pg.638]

Catalyst material Activated carbon Post channels at outlet width 25 pm... [Pg.285]

Therefore, by using the sol technique different 1 % Au/ C catalysts have been prepared using the same supporting material (activated carbon) but var5nng the preparation method with the aim of changing the particle size. PVA/ NaBH4, THPC/NaOH and citrate methods were used (Table 3) obtaining sol of different mean size in the order citrate > PVA > TMPC. [Pg.358]

As it stands this method can hardly be applied to activities of the scale of interest. Indeed, regarding temperature, pressure and volume the thresholds used are far too critical. The distinction between continuous and discontinuous techniques does not seem of any use in this context. There are a lot of situations that often arise under smaller scale conditions which are missing for instance, glass materials, activities outside working hours or unsupervised handling, etc. [Pg.157]

Figure 16.8 shows an active perimeter gas extraction system. Active systems can be used at virtually any site where there is the capability to drill and excavate through the materials in the action area to the required depth. Limiting factors of active systems include the presence of freestanding leachate (i.e., saturation) or impenetrable materials. Active perimeter gas control systems are not sensitive to freezing or saturation of the surface or cover soils. [Pg.609]

The life cycle of some chemicals begins with extraction of raw materials. Activities such as coal and mineral mining, oil production, and forestry can either release chemicals directly or open the land for releases by natural processes that otherwise would be slower. [Pg.7]

More interesting data was found in the mixtures we have seen that carbon additives tend to reduce specific resistance of the mixture, while active material (activated carbon) increases resistance (54 10"3 ohm-m vs. 49 10"3 ohm-m). This phenomenon suggests that carbon-carbon component mixtures have better packing characteristics. [Pg.48]

Activity per gram dry plant material/activity per gram dry soil. [Pg.13]

Manufacturer Pore size (nm) Material support Material active layer... [Pg.80]

Validation can be defined as the act of proving that any procedure, process, equipment, material, activity or system leads to the expected results . Routine and adequate validation studies form a... [Pg.199]

Solid state lasers are those whose active medium consists of an insulating material activated by an optically active center. Three different types of active center have usually been used as active laser centers rare earth ions, transition metal ions, and color centers (see Chapter 6). [Pg.62]

Effects of Anode Materials activate the acetyl-type function [190]. [Pg.137]

In alkaline electrolyzers, Ni is the only elemental cathode that can be used. It is generally considered as a fairly good electrocatalyst, but in facts it exhibits two shortcomings (i) its activity decreases with time [cf. the AVtterm in Equation (7.16)] especially under conditions of intermittent electrolysis and (ii) shutdown of industrial cells (for maintenance) leads to Ni dissolution at the cathode since this electrode is driven to more positive potentials by short-circuit with the anode. These shortcomings can be alleviated if Ni cathodes are activated, that is, if they are coated with a thin layer of more active and more stable materials. Activation has been attempted with a variety of materials from sulfides to oxides, from alloys to intermetallic compounds. [Pg.251]

Just as the Cosmic Will manifests the Cosmic activities and forms, so nay the Individual Will materialize activities and forms on its own plane. There is but one difference between the Cosmic Will and the Individual Win—the difference in degree. All Will, front the Cosmic Win to the feeblest Individual Wilt it identical in nature, although widely... [Pg.74]

Hydrogen production and storage in nano-materials. Activity leader Consortium of Italian universities for the development of large inter-phase systems. Estimated activity cost 6.3 million. [Pg.142]

Polymer electrolyte membrane and solid oxide fuel cells demonstration of systems and development of new materials. Activity leader National Research Council (CNR). Estimated activity cost 14 million. [Pg.143]

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