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Calcium diagram

A broad comparison of the main types of processes, the strength and quaUty of phosphoric acid, and the form and quaUty of by-product calcium sulfate are summarized in Table 7. Because the dihydrate process is the most widely used, the quaUty of its acid and calcium sulfate and its P2O3 recovery are taken as reference for performance comparisons. Illustrative flow diagrams of the principal variations in process types have been pubUshed (39). Numerous other variations in process details ar also used (40—42). The majority of plants use a dihydrate process and some of these have production capacity up to 2100 of P2O3 per day. [Pg.225]

Fig. 6. A portion of the CIE color diagram where X and Y define the color. The shaded area shows the range of color of fluorescent lamps using calcium... Fig. 6. A portion of the CIE color diagram where X and Y define the color. The shaded area shows the range of color of fluorescent lamps using calcium...
A diagram for one implementation of this process (61,62) is shown in Eigure 11. Recovered potassium sulfate is converted to potassium formate [590-29 ] by reaction with calcium formate [544-17-2] which is made by reacting hydrated lime, Ca(OH)2, and carbon monoxide. The potassium formate (mp 167°C), in hquid form, is recycled to the combustor at about 170°C. Sulfur is removed as soHd calcium sulfate by filtration and then disposed of (see... [Pg.423]

Orthophosphate salts are generally prepared by the partial or total neutralization of orthophosphoric acid. Phase equiUbrium diagrams are particularly usehil in identifying conditions for the preparation of particular phosphate salts. The solution properties of orthophosphate salts of monovalent cations are distincdy different from those of the polyvalent cations, the latter exhibiting incongment solubiUty in most cases. The commercial phosphates include alkah metal, alkaline-earth, heavy metal, mixed metal, and ammonium salts of phosphoric acid. Sodium phosphates are the most important, followed by calcium, ammonium, and potassium salts. [Pg.331]

Fig. 12. Phase diagram of the CaO—H2O—P20 (calcium orthophosphate) system where the circle represents the variable hydroxylapatite composition and... Fig. 12. Phase diagram of the CaO—H2O—P20 (calcium orthophosphate) system where the circle represents the variable hydroxylapatite composition and...
The vanadium alloy is purified and consoHdated by one of two procedures, as shown in the flow diagram of the entire aluminothermic reduction process presented in Figure 1. In one procedure, the brittle alloy is cmshed and heated in a vacuum at 1790°C to sublime most of the aluminum, oxygen, and other impurities. The aluminum faciHtates removal of the oxygen, which is the feature that makes this process superior to the calcium process. Further purification and consoHdation of the metal is accompHshed by electron-beam melting of pressed compacts of the vanadium sponge. [Pg.383]

These three equations represent saturation with respect to the hexahydrate, tetrahydrate, and dihydrate in the temperature ranges indicated. The phase relationships among calcium chloride, its hydrates, and a saturated solution are illustrated in the diagram in Figure 1. [Pg.413]

Table 1 fists the more important physical properties of calcium carbide. Additional properties are given in the literature (1). Figure 1 gives the phase diagram calcium carbide—calcium oxide for pure and technical grades. [Pg.457]

Fig. 1. Calcium carbide—calcium oxide phase diagram using A, pure CaC2, and B, technical-grade... Fig. 1. Calcium carbide—calcium oxide phase diagram using A, pure CaC2, and B, technical-grade...
Fig. 3. Schematic process flow diagram for an imitation cheese product having the following formulation dry ingredients, calcium caseinate (or rennet casein), 24.5 wt % tapioca flour, 3.0 wt % salt, 2.16 wt % adipic acid, 0.6 wt % vitamins and minerals, 0.1 wt % sorbic acid (mold inhibitor), 0.5 wt % fat—color blend, soybean oil hydrogenated to a Wiley melting point of 36°C, 21.3 wt % lactylated monoglycerides, 0.05 wt % red-orange coloring, 0.01 wt... Fig. 3. Schematic process flow diagram for an imitation cheese product having the following formulation dry ingredients, calcium caseinate (or rennet casein), 24.5 wt % tapioca flour, 3.0 wt % salt, 2.16 wt % adipic acid, 0.6 wt % vitamins and minerals, 0.1 wt % sorbic acid (mold inhibitor), 0.5 wt % fat—color blend, soybean oil hydrogenated to a Wiley melting point of 36°C, 21.3 wt % lactylated monoglycerides, 0.05 wt % red-orange coloring, 0.01 wt...
Figure S.28 Schematic diagrams of the two-sheet P helix. Three complete coils of the helix are shown in (a). The two parallel P sheets ate colored gieen and red, the loop regions that connect the P strands ate yellow, (b) Each stmctuial unit Is composed of 18 residues forming a P-loop-P-loop structure. Each loop region contains six residues of sequence Gly-Gly-X-Gly-X-Asp where X is any residue. Calcium Ions are bound to both loop regions. (Adapted from F. Jumak et al., Ciirr. Opin. Struct. Biol. 4 802-806, 1994.)... Figure S.28 Schematic diagrams of the two-sheet P helix. Three complete coils of the helix are shown in (a). The two parallel P sheets ate colored gieen and red, the loop regions that connect the P strands ate yellow, (b) Each stmctuial unit Is composed of 18 residues forming a P-loop-P-loop structure. Each loop region contains six residues of sequence Gly-Gly-X-Gly-X-Asp where X is any residue. Calcium Ions are bound to both loop regions. (Adapted from F. Jumak et al., Ciirr. Opin. Struct. Biol. 4 802-806, 1994.)...
Figure 6.21 Schematic diagram of the conformational changes of calmodulin upon peptide binding, (a) In the free form the calmodulin molecule is dumhhell-shaped comprising two domains (red and green), each having two EF hands with bound calcium (yellow), (b) In the form with bound peptides (blue) the a helix linker has been broken, the two ends of the molecule are close together and they form a compact globular complex. The internal structure of each domain is essentially unchanged. The hound peptide binds as an a helix. Figure 6.21 Schematic diagram of the conformational changes of calmodulin upon peptide binding, (a) In the free form the calmodulin molecule is dumhhell-shaped comprising two domains (red and green), each having two EF hands with bound calcium (yellow), (b) In the form with bound peptides (blue) the a helix linker has been broken, the two ends of the molecule are close together and they form a compact globular complex. The internal structure of each domain is essentially unchanged. The hound peptide binds as an a helix.
Figure 12.7 Ribbon diagram of one subunit of potin from Rhodobacter capsulatus viewed from witbin tbe plane of tbe membrane. Sixteen p strands form an antiparallel p barrel tbat traverses tbe membrane. Tbe loops at tbe top of tbe picture are extracellular whereas tbe short turns at tbe bottom face the periplasm. The long loop between p strands 5 and 6 (red) constricts the channel of the barrel. Two calcium atoms are shown as orange circles. (Adapted from S.W. Cowan, Curr. Opin. Struct. Biol. 3 501-507, 1993.)... Figure 12.7 Ribbon diagram of one subunit of potin from Rhodobacter capsulatus viewed from witbin tbe plane of tbe membrane. Sixteen p strands form an antiparallel p barrel tbat traverses tbe membrane. Tbe loops at tbe top of tbe picture are extracellular whereas tbe short turns at tbe bottom face the periplasm. The long loop between p strands 5 and 6 (red) constricts the channel of the barrel. Two calcium atoms are shown as orange circles. (Adapted from S.W. Cowan, Curr. Opin. Struct. Biol. 3 501-507, 1993.)...
Fi re 12.8 Schematic diagram of the trimerlc porin molecule viewed from the extracellular space. Blue regions illustrate the walls of the three porin barrels, the loop regions that constrict the channel are red and the calcium atoms are orange. [Pg.231]

The actual figure is, however, of value only in relation to calcium carbonate content and for calculation of alkali additions for pH corrections. A graphical form is included in the Langelier diagram ... [Pg.353]

In accordance with the free energy diagram, silica is readily attacked by molten aluminium, lithium, magnesium and calcium. [Pg.892]

FIGURE 5-9 Schematic diagram of a calcium ion-selective electrode. [Pg.153]

LAS is moderately sensitive to water hardness such that at certain concentration levels governed by the solubility product (Ksp) and the CMC, Ca(LAS)2 will precipitate out of solution [26]. The precipitation boundary diagram provides a useful method to study the interaction of LAS with calcium ions. From this diagram, approximate values of the CMC and Ksp for LAS and Ca2+ can be approximated [27]. [Pg.121]

Fujiwara et al. studied the precipitation phase boundary diagrams of the sodium salts of a-sulfonated myristic and palmitic acid methyl esters in the presence of calcium ions [61]. The time dependency of the precipitation showed that the calcium salts have an extremely slow crystallization rate at room temperatures. This is the reason for the good hardness tolerance of the a-sulfonated fatty acid methyl esters. [Pg.481]

Fig. 24. (continued)—(b) An axial projection of the unit cell contents. The double helix at each corner can be either up- or down-pointing," in terms of the X-ray data. All are, however, up in this diagram so that a calcium ion (crossed circle) is connected to the sulfate groups in three surrounding... [Pg.368]

Phase Diagrams, Intermetallic Phases and Compounds 7.3.3.1.3. Calcium Systems. [Pg.441]

The rheological behaviour in the range of LM pectin was analyzed and the sol-gel diagram established [59] for different stoichiometric ratios. In their paper, these authors determined the gel times for sodium pectate during calcium-induced gelation and the variation of the gel time with polymer concentration, stoichrometric ratio and temperature. [Pg.29]

See other pages where Calcium diagram is mentioned: [Pg.337]    [Pg.172]    [Pg.418]    [Pg.57]    [Pg.58]    [Pg.288]    [Pg.513]    [Pg.506]    [Pg.25]    [Pg.32]    [Pg.491]    [Pg.523]    [Pg.308]    [Pg.7]    [Pg.528]    [Pg.382]    [Pg.130]    [Pg.1029]    [Pg.382]    [Pg.289]    [Pg.407]    [Pg.82]    [Pg.516]    [Pg.23]    [Pg.29]    [Pg.35]   
See also in sourсe #XX -- [ Pg.468 ]



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