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Bismuth manufacture

The factor limiting LBC use in large-scale future NP depends on deficiency of today s bismuth manufacturing which has been determined by its consumption level. [Pg.137]

In 1957 Standard Oil of Ohio (Sohio) discovered bismuth molybdate catalysts capable of producing high yields of acrolein at high propylene conversions (>90%) and at low pressures (12). Over the next 30 years much industrial and academic research and development was devoted to improving these catalysts, which are used in the production processes for acrolein, acryUc acid, and acrylonitrile. AH commercial acrolein manufacturing processes known today are based on propylene oxidation and use bismuth molybdate based catalysts. [Pg.123]

Although acrylonitrile manufacture from propylene and ammonia was first patented in 1949 (30), it was not until 1959, when Sohio developed a catalyst capable of producing acrylonitrile with high selectivity, that commercial manufacture from propylene became economically viable (1). Production improvements over the past 30 years have stemmed largely from development of several generations of increasingly more efficient catalysts. These catalysts are multicomponent mixed metal oxides mostly based on bismuth—molybdenum oxide. Other types of catalysts that have been used commercially are based on iron—antimony oxide, uranium—antimony oxide, and tellurium-molybdenum oxide. [Pg.182]

Other Octoate Uses. Metal octoates are also used as driers in printing inks. Another appHcation of octoates includes the use of the aluminum salt to gel paint. Stannous, dibutyltin, and bismuth carboxylates find appHcation as catalysts in polyurethane foam appHcations in order to obtain a reaction efficiency suitable for industrial production. In polyurethane foam manufacture the relative rate of polymeriza tion and gas foaming reactions must be controlled so that the setting of the polymer coincides with the maximum expansion of the foam. [Pg.222]

Tittes K, Plieth W (2007) Electrochemical deposition of ternary and binary systems from an alkaline electrolyte—a demanding way for manufacturing p-doped bismuth and antimony teUurides for the use in thermoelectric elements. J Solid State Electrochem 11 155-164... [Pg.149]

All of the organohalogen compounds studied were commercial products obtained from various manufacturers and used as received. Only the DBDPO was purified further by recrystallization for some of the chromatography and thermal analysis experiments. Samples of antimony trioxide and antimony pentoxide were also obtained from commercial sources. The ultrapure antimony trioxide, bismuth trioxide, bismuth metal, antimony metal, dibenzofuran and diphenyl ether were all obtained from Aldrich Chemicals. The poly(propylene) (PP) resin was 0.7 mfi, food grade from Novamont and the poly(ethylene) was unstabilized, high molecular weight, HDPE from American Hoechst. [Pg.113]

Bis(monofluoro)-triazine dyes, 9 473 Bismuth (Bi) 4 1-16. See also Bismuth alloys Bismuth compounds analysis, 4 10 barium alloys with, 3 344 catalyst poison, 5 257t economic aspects, 4 6-9 environmental concerns, 4 10-11 fabrication, 4 4-5 health and safety factors, 4 10-11 manufacture and processing, 4 3-6 mine and refinery production by country, 4 8t... [Pg.106]

Acrolein and Acrylic Acid. Acrolein and acrylic acid are manufactured by the direct catalytic air oxidation of propylene. In a related process called ammoxida-tion, heterogeneous oxidation of propylene by oxygen in the presence of ammonia yields acrylonitrile (see Section 9.5.3). Similar catalysts based mainly on metal oxides of Mo and Sb are used in all three transformations. A wide array of single-phase systems such as bismuth molybdate or uranyl antimonate and multicomponent catalysts, such as iron oxide-antimony oxide or bismuth oxide-molybdenum oxide with other metal ions (Ce, Co, Ni), may be employed.939 The first commercial process to produce acrolein through the oxidation of propylene, however, was developed by Shell applying cuprous oxide on Si-C catalyst in the presence of I2 promoter. [Pg.510]

Impubities.—rhosphorus is rarely adulterated, and the only impurities contained in it are those derived from the acid used in its preparation. Dumas considers flexibility as a characteristic of good phosphorus. Occasionally arsenic, antimony, bismuth, and some other metals have boon found in it. If the acid used contained arsenioua acid, or an oxide of antimony, these are reduced in the process of manufacture of phosphorus, and are found in it in the metallic state. A solution of phosphorus in dilute nitrio acid should give no precipitate with sulphide of hydrogen, and the precipitate procured by a barytic salt should be entirely soluble in excess of nitric acid, proving the absence of sulphur. If arsenic is present, the solution in nitrio acid deposits a black precipitate of metallic arsenic when submitted to evaporation. [Pg.688]

Bismuth vanadate pigments are used in the manufacture of lead-free, weather resistant, brilliant yellow colors for automobile finishes and industrial paints. They are suitable for the pigmentation of solvent-containing paints, water-based paints, powder coatings, and coil-coating systems. It can be mixed with other pigments... [Pg.115]

SPERRY PROCESS. An electrolytic process for the manufacture of lead carbonate, basic (white lead) from desilivenzed lead containing, some bismuth, The impure lead forms the anode. A diaphragm separates anode and cathode compartments, and carbon dioxide is passed into the solution. Impurities, including bismuth, remain on the anode as a slime blanket,... [Pg.1532]

At first, George Merck merely ran the American branch of dad s export business. However, in that era of high tariffs, he figured it would make sense to start manufacturing his own supply. In 1900 he bought some 120 acres of swamps and woodland in Rahway, New Jersey, for a manufacturing plant, followed by a factory in St. Louis. Among his products were iodides, bismuths, morphine, and cocaine—the last two considered medicines at the turn of the century. [Pg.21]

In the past, acrolein was produced by the gas phase condensation of acetaldehyde with formaldehyde on sodium silicate, until it was supplanted by the catalytic oxidation of propylene. Early catalysts based on cuprous oxide were only sufficiently selective at low conversions of propylene. The real breakthrough came with the discovery made by Sohio of bismuth molybdate catalysts, developed into formulations specifically optimized for the manufacture of acrylonitrile, acrolein, and methacrolein. [Pg.52]

See other pages where Bismuth manufacture is mentioned: [Pg.202]    [Pg.124]    [Pg.129]    [Pg.590]    [Pg.273]    [Pg.99]    [Pg.1087]    [Pg.636]    [Pg.157]    [Pg.1014]    [Pg.209]    [Pg.60]    [Pg.343]    [Pg.107]    [Pg.98]    [Pg.227]    [Pg.45]    [Pg.229]    [Pg.287]    [Pg.383]    [Pg.567]    [Pg.722]    [Pg.1212]    [Pg.124]    [Pg.129]    [Pg.113]    [Pg.86]    [Pg.21]    [Pg.238]    [Pg.439]    [Pg.825]    [Pg.339]    [Pg.682]    [Pg.114]    [Pg.84]   
See also in sourсe #XX -- [ Pg.1023 ]

See also in sourсe #XX -- [ Pg.8 ]



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