Component distribution patterns

Other paper collectors that have been used to assess droplet size and distribution patterns include cards such as Kromekote. This was one of several types of collector that provided information on spray deposition in the held, a-Cellulose samplers are fibrous in nature, and include a vertical component to their aspect. This type of collector, along with Mylar cards and other types of card samplers, are often used to provide information on spray coverage as amount of material per unit surface area. 

As a result of machine learning a model is produced of the characteristic exhibition of a property (for instance, the formation of a particular type of chemical compound) which corresponds to a distribution pattern of this property in the multidimensional representative space of the properties of the elements. The subsequent pattern recognition corresponds to a criterion for the classification of the known compounds and for the prediction of those still unknown. Examples of this approach reported by Savitskii are the prediction of the formation of Laves phases, of CaCu5 type phases, of compounds XY2Z4 (X, Y any of the elements, Z = O, S, Se, Te), etc. (Data on the electronic structures of the components were selected as... 

AC s is few so that any elementary process occurs independently of the other processes and does not affect the distribution pattern of the remaining system s components. 

Flow is then instituted along the axis of the chamber and a differential flow pattern develops. This differential flow carries each component along in some uneven pattern. Different components distributed over the cross section with different concentration profiles will be carried downstream unequally because of the nonuniformity of flow. The net result is that the different components will be displaced at different average velocities in the tube and separation will be realized. 

Stupin and Lockhart (27) also noted that as reflux is lowered from total to minimum, the separation of nonkeys first worsens (curve 2, Fig, 2,21), then improves (curve 3, Fig. 2,21), The intermediate keys follow the converse pattern, At a reflux ratio of about 1,2 to 1,5 times the minimum, component distribution resembles that of the total reflux component distribution. Detailed discussion is elsewhere (7,27). Figure 2,16 demonstrates that light nonkey6 are fractionated out in the stripping section and heavy nonkeys in the rectifying section. The d/b plot depicts this behavior (Sec. 2,4,2). 

In the two samples In which Its presence was confirmed, HR and NB(0-3), HCP occurred only In HA fractions and was a major chlorinated component of these fractions. Figure 5 depicts this distribution pattern In sample HR. Note that the chlorinated phenols, HCP and PCP, were essentially the only chlorinated compounds In the HA fraction. HCP may have occurred In the HA fractions of samples LA and NB(29-31) but was not confirmed due to low concentrations. HCP was not detected In any blanks. 

Overall, more even distribution patterns of inorganic elements may be characteristic of elements associated with organic components and more pronounced or irregular patterns with elements related to concentrations of detrital and authigenic minerals. Distribution patterns are listed in Table III for the elements analyzed in this study. The distribution of elements in the seams may show characteristics of more than one pattern and are noted accordingly in Table III. Zubovic and others (10) described distribution patterns similar to ours for Ti, V, Cr, Co, Cu, Y and La in several North Dakota lignites. 

Most of the elements that have been considered in this study may be assigned to one or both of two major associations, inorganic and organic, each with characteristic distribution patterns, chemical fractionation behavior, occurrence with organic components, affinity determined by ash correlation and ionic potential category. 

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