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Vanadium molten, density

The second type of solution polymerization concept uses mixtures of supercritical ethylene and molten PE as the medium for ethylene polymerization. Some reactors previously used for free-radical ethylene polymerization in supercritical ethylene at high pressure (see Olefin POLYMERS,LOW DENSITY polyethylene) were converted for the catalytic synthesis of LLDPE. Both stirred and tubular autoclaves operating at 30—200 MPa (4,500—30,000 psig) and 170—350°C can also be used for this purpose. Residence times in these reactors are short, from 1 to 5 minutes. Three types of catalysts are used in these processes. The first type includes pseudo-homogeneous Ziegler catalysts. In this case, all catalyst components are introduced into a reactor as hquids or solutions but form soHd catalysts when combined in the reactor. Examples of such catalysts include titanium tetrachloride as well as its mixtures with vanadium oxytrichloride and a trialkyl aluminum compound (53,54). The second type of catalysts are soHd Ziegler catalysts (55). Both of these catalysts produce compositionaHy nonuniform LLDPE resins. Exxon Chemical Company uses a third type of catalysts, metallocene catalysts, in a similar solution process to produce uniformly branched ethylene copolymers with 1-butene and 1-hexene called Exact resins (56). [Pg.400]

The electrolyte is made by in situ chlorination of vanadium to vanadium dichloride in a molten salt bath. Higher valent chlorides are difficult to retain in the bath and thus are not preferred. The molten bath, which is formed by sodium chloride or an equimolar mixture of potassium chloride-sodium chloride or of potassium chloride-lithium chloride or of sodium chloride-calcium chloride, is contained in a graphite crucible. The crucible also serves as an anode. Electrolysis is conducted at a temperature about 50 °C above the melting point of the salt bath, using an iron or a molybdenum cathode and a cathode current density of 25 to 75 A dnT2. The overall electrochemical deposition reaction involves the formation and the discharge of the divalent ionic species, V2+ ... [Pg.720]

Figure 4.5.7 The relationship between the potential of vanadium anode and current density in molten NaCI-KCI-VCl2 mixture (cOy = 5.6 0.3wt%). Temperature (°C) 1-700, 2-764, 3-840. n 1-2.03, 2-2.11, 3-1.90... Figure 4.5.7 The relationship between the potential of vanadium anode and current density in molten NaCI-KCI-VCl2 mixture (cOy = 5.6 0.3wt%). Temperature (°C) 1-700, 2-764, 3-840. n 1-2.03, 2-2.11, 3-1.90...
Figure 4.5.17 The relationship between vanadium cathode potential and current density in molten NaCI-KCI-VCl2 mixture at different temperatures 1 -0.26wt%V, n = 1.98, 701 °C 2-0.34wt%V, ny = 2.05, 773°C 3-0.41 wt%V, ny = 2.03, 846°C... Figure 4.5.17 The relationship between vanadium cathode potential and current density in molten NaCI-KCI-VCl2 mixture at different temperatures 1 -0.26wt%V, n = 1.98, 701 °C 2-0.34wt%V, ny = 2.05, 773°C 3-0.41 wt%V, ny = 2.03, 846°C...
See other pages where Vanadium molten, density is mentioned: [Pg.158]    [Pg.1666]    [Pg.170]    [Pg.251]    [Pg.309]   
See also in sourсe #XX -- [ Pg.141 ]

See also in sourсe #XX -- [ Pg.141 ]

See also in sourсe #XX -- [ Pg.130 ]



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Vanadium densities

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