Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Distribution constituent

Gas Solid Pretreatment required to get to liquid phase for chemical treatment or solid pheise for solidification/ stabilization Solidification/ Stabilization Solubility (in HjO, organic) Solvents, oils, etc. Size distribution Constituent analysis... [Pg.122]

By its very definition, the MaxEnt method is optimally suited to flexibly reconstruct distributions whose main features are well represented in the available data, that is either in the observations or in the prior structural knowledge. When this is the case, the missing structure can be reasonably approximated by a collection of randomly and independently distributed constituents (by missing structure here we mean all those structural details which are not completely defined by the prior knowledge). [Pg.16]

This amino acid was first obtained by F. Ehrlich in 1903 from the nitrogenous constituents of beet-sugar molasses, and was subsequently isolated by him from the decomposition products of fibrin and other proteins. Like leucine, to which it is very similar in properties, it thus appears to be a widely distributed constituent of the protein molecule. [Pg.35]

Many specific plant odors are achieved by combinations of widely distributed constituent components in specific ratios characteristic to particular plant species.46 Therefore, many insects that use general compounds as feeding attractants, such as L. decemlineata, are attracted to blends of several components, but not to the individual compounds. Fifteen compounds, (Z)-3-hexenal, ( )-2-hexenal, (Z)-3-hexen-l-ol, ( )-2-hexen-l-ol,... [Pg.571]

Sphingolipids such as cerebrosides and ceramides are minor but widely distributed constituents of fungi. Certain species contain characteristic sphingosine-containing lipids such as the inositol-containing phosphorylceramides of S. cerevisiae (cf. Weete, 1980). Other minor Upids include hydrocarbons while sterols (and sometimes carotenoids) are often major components. A full description of such lipids is outside the remit of this section and, for further details, the reader is directed to Weete (1980), Brennan etal. (1974) and Goodwin (1973). [Pg.154]

Fig. 33. Another training set with more evenly distributed constituent variations. There appears to be little to no collinearity in the values, which should lead to a better multivariate model. Fig. 33. Another training set with more evenly distributed constituent variations. There appears to be little to no collinearity in the values, which should lead to a better multivariate model.
In many regions, fluorine is a widely distributed constituent found in sedimentary porous aquifers, in porous aquifers formed by the overburdens of hard bedrock aquifers and in hard rock aquifers in concentrations beyond the WHO guideline value of 1.5 mg (Fawell et al, 2006). [Pg.59]

D-galactose, C HiiOe. Crystallizes in the pyranose form m.p. 1I8-120 C (monohydrate), 165-5" C (anhydrous). An isomer of glucose which is fairly widely distributed in plants. It is a constituent of raffinose and slachyose, of hemicelluloses, of pectin, of gums and mucilages, and of some glycosides. In animals it forms half the lactose molecule and is the sugar found in the brain. Chemically it is very similar to glucose. It has the structure... [Pg.185]

To the refiner, the question of octane numbers in future gasolines is of primary importance because it determines the course of operations, the development or on the contrary the stagnation of such and such a process. Table 5.12 thus gives an example of the typical composition by origin and concentration of different base constituents of three grades of the most common motor fuels distributed today in Europe conventional premium gasoline at 0.15 g Pb/1, Eurosuper and Superplus. [Pg.210]

Very clean sands are rare and normally variable amounts of c/ay will be contained in the reservoir pore system, the clays being the weathering products of rock constituents such as feldspars. The quantity of clay and its distribution within the reservoir exerts a major control on permeability and porosity. Figure 5.2 shows several types of clay distribution. [Pg.77]

Lamellar morphology variables in semicrystalline polymers can be estimated from the correlation and interface distribution fiinctions using a two-phase model. The analysis of a correlation function by the two-phase model has been demonstrated in detail before [30,11] The thicknesses of the two constituent phases (crystal and amorphous) can be extracted by several approaches described by Strobl and Schneider [32]. For example, one approach is based on the following relationship ... [Pg.1407]

Note that the sums of the squares of the coefficients in a given MO must equal 1 (e.g., 0.3717 + 0.6015 + 0.3717 + 0.6015 = 1.0 for Pi) because each of the AOs represents a probability distribution of finding the electron at a given point in space. The total probability of finding an electron in all space for an MO must be unity, exactly as for its constituent AOs. We now can see that the LCAO approximation is only one of many possibilities to describe the electron density (= probability) for MOs. We do not have to express the electron density as a linear combination of the electron densities of AOs centered at the atoms. We could also... [Pg.378]

In a plasma, the constituent atoms, ions, and electrons are made to move faster by an electromagnetic field and not by application of heat externally or through combustion processes. Nevertheless, the result is the same as if the plasma had been heated externally the constituent atoms, ions, and electrons are made to move faster and faster, eventually reaching a distribution of kinetic energies that would be characteristic of the Boltzmann equation applied to a gas that had been... [Pg.91]

Whereas the OVD, PCVD, and MCVD processes build a refractive index profile layer by layer, the VAD process uses gaseous constituents in the flame to control the shape and temperature distribution across the face of the growing soot boule. [Pg.256]

The physical properties of the principal constituents of natural gas are Hsted in Table 5. These gases are odorless, but for safety reasons, natural gas is odorized before distribution to provide a distinct odor to warn users of possible gas leaks in equipment. Sulfur-containing compounds such as organic mercaptans, aUphatic sulfides, and cycHc sulfur compounds are effective odorants at low concentrations and are added to natural gas at levels ranging from 4 to 24mg/m. ... [Pg.170]

Mechanical alloying is another method of producing dispersion-strengthened metals. In this process, the powdered constituents of the ahoy are treated in an attrition mih. A finely distributed layer of the dispersed phase is distributed on particles of the base metal. Subsequent pressing and sintering strengthens the dispersion (25). [Pg.191]

Relative values for the various TBP distribution coefficients of the feed constituents are as follows ... [Pg.205]

The potassium or calcium salt form of oxaUc acid is distributed widely ia the plant kingdom. Its name is derived from the Greek o>ys, meaning sharp or acidic, referring to the acidity common ia the foflage of certain plants (notably Oxalis and Mmex) from which it was first isolated. Other plants ia which oxahc acid is found are spinach, rhubarb, etc. Oxahc acid is a product of metabohsm of fungi or bacteria and also occurs ia human and animal urine the calcium salt is a principal constituent of kidney stones. [Pg.455]

Ternary Alloys. Almost ah commercial ahoys are of ternary or higher complexity. Ahoy type is defined by the nature of the principal ahoying additions, and phase reactions in several classes of ahoys can be described by reference to ternary phase diagrams. Minor ahoying additions may have a powerflil influence on properties of the product because of the influence on the morphology and distribution of constituents, dispersoids, and precipitates. Phase diagrams, which represent equhibrium, may not be indicative of these effects. [Pg.113]

Analytical methods aie utilised by all branches of the chemical iadustry. Sometimes the goal is the quaUtative deterniiaation of elemental and molecular constituents of a selected specimen of matter othertimes the goal is the quantitative measurement of the fractional distribution of those constituents and sometimes it is to monitor a process stream or a static system. Information concerning the various iadividual analytical methods may be found ia separate articles dispersed alphabetically throughout the Eniyclopedia. The articles ate iatroductions to topics each of which is the subject of numerous books and other pubhcations. [Pg.393]

The physical and mechanical properties of steel depend on its microstmcture, that is, the nature, distribution, and amounts of its metaHographic constituents as distinct from its chemical composition. The amount and distribution of iron and iron carbide determine most of the properties, although most plain carbon steels also contain manganese, siUcon, phosphoms, sulfur, oxygen, and traces of nitrogen, hydrogen, and other chemical elements such as aluminum and copper. These elements may modify, to a certain extent, the main effects of iron and iron carbide, but the influence of iron carbide always predominates. This is tme even of medium alloy steels, which may contain considerable amounts of nickel, chromium, and molybdenum. [Pg.384]

See other pages where Distribution constituent is mentioned: [Pg.100]    [Pg.283]    [Pg.192]    [Pg.161]    [Pg.570]    [Pg.489]    [Pg.100]    [Pg.283]    [Pg.192]    [Pg.161]    [Pg.570]    [Pg.489]    [Pg.217]    [Pg.242]    [Pg.688]    [Pg.2267]    [Pg.2554]    [Pg.184]    [Pg.21]    [Pg.91]    [Pg.417]    [Pg.206]    [Pg.434]    [Pg.388]    [Pg.220]    [Pg.389]    [Pg.424]    [Pg.442]    [Pg.508]    [Pg.27]    [Pg.31]    [Pg.126]    [Pg.220]    [Pg.498]   


SEARCH



Constituent oxides, distribution

© 2024 chempedia.info