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Copper hydrogen arsenate

Copper sulfate, in small amounts, activates the zinc dust by forming zinc—copper couples. Arsenic(III) and antimony(TTT) oxides are used to remove cobalt and nickel they activate the zinc and form intermetaUic compounds such as CoAs (49). Antimony is less toxic than arsenic and its hydride, stibine, is less stable than arsine and does not form as readily. Hydrogen, formed in the purification tanks, may give these hydrides and venting and surveillance is mandatory. The reverse antimony procedure gives a good separation of cadmium and cobalt. [Pg.403]

Solutions containing compounds of copper, tin, arsenic, antimony, and other reducible metals must never be used. These must be removed before the reduction by treatment with hydrogen sulphide. [Pg.412]

Copper Thioarsenates.—Cupric Orthothioarsenate, Cu3(AsS4)2, is formed as a dark brown precipitate when sodium orthothioarsenate is added to a solution of a cupric salt.2 The reaction, however, is complex, sulphides of copper and arsenic also being formed.3 A similar precipitate is formed when ammonium hydrosulphide or hydrogen sulphide is added to a solution of arsenic acid and a copper salt,4 and the proportion of sulphide and thio-salt in the precipitate varies with the concentration of the reactants. Copper hydroxide reacts with alkali thioarsenates to form copper sulphide and alkali arsenate, but some copper orthothioarsenate is formed and remains in solution in excess of alkali thioarsenate.5... [Pg.276]

Materials Solutions of sodium chloride, calcium chloride, zinc sulphate, ferrous ammonium sulphate, copper sulphate, arsenic chloride, hydrogen sulphide, ammonium sulphide. [Pg.136]

Acetylene works Acrylates works Aldehyde works Aluminum works Amines works Ammonia works Anhydride works Arsenic works Asbestos works Benzene works Beryllium works Bisulfate works Bromine works Cadmium works Carbon disulfide works Carbonyl works Caustic soda works Cement works Ceramic works Chemical fertilizer works Chlorine works Chromium works Copper works Di-isocyanate works Electricity works Fiber works Fluorine works Gas liquor works Gas and coke works Hydrochloric acid works Hydrofluoric acid works Hydrogen cyanide works Incineration works Iron works and steel works... [Pg.755]

Yamamoto et al. [33] applied this technique to the determination of arsenic (III), arsenic (V), antimony (III), and antimony (V) in Hiroshima Bay Water. These workers used a HGA-A spectrometric method with hydrogen-nitrogen flame using sodium borohydride solution as a reductant. For the determination of arsenic (III) and antimony (III) most of the elements, other than silver (I), copper (II), tin (II), selenium (IV), and tellurium (IV), do not interfere in at least 30 000-fold excess with respect to arsenic (III) or antimony (III). This method was applied to the determination of these species in sea water and it was found that a sample size of only 100 ml is enough to determine them with a precision of 1.5-2.5%. Analytical results for surface sea water of Hiroshima Bay were 0.72 xg/l, 0.27 xg/l, and 0.22 xg/l, for arsenic (total), arsenic (III), and antimony (total), respectively, but antimony (III) was not detected. The effect of acidification on storage was also examined. [Pg.339]

Arsine is incompatible with strong oxidizers and various metals including aluminum, copper, brass, and nickel. It may be decompose on exposure to light to produce hydrogen gas and arsenic metal. [Pg.249]

Hydrogen sulfide forms precipitates of several metal sulfides when passed through an aqueous solution of metal salts. Under acid conditions, several metals including arsenic, antimony, bismuth, cadmium, copper, lead, mercury, and tin are precipitated as their sulfide e.g. ... [Pg.380]

Iron and aluminum precipitate out when treated with ammonia and are removed by filtration. Other metals, such as copper, zinc, lead and arsenic are precipitated and removed as sulfides upon passing hydrogen sufide through the solution. Colloidal particles of metaUic sulfides and sulfur are removed by treatment with iron(ll) sulfide. The purified solution of manganese(ll) sulfate is then electrolyzed in an electrolytic cell using lead anode and HasteUoy or Type 316 stainless steel cathode, both of which are resistant to acid. Manganese is deposited on the cathode as a thin film. [Pg.541]

Metals such as arsenic, copper, and lead are severe reformer catalyst poisons. Only a few parts/billion are needed to poison the platinum reformer catalyst. Water in the feed will promote hydrocracking reactions and lower reformer and produced hydrogen yield. [Pg.21]

See other pages where Copper hydrogen arsenate is mentioned: [Pg.282]    [Pg.310]    [Pg.589]    [Pg.1176]    [Pg.301]    [Pg.307]    [Pg.176]    [Pg.310]    [Pg.4386]    [Pg.37]    [Pg.961]    [Pg.257]    [Pg.855]    [Pg.934]    [Pg.46]    [Pg.128]    [Pg.184]    [Pg.2084]    [Pg.1018]    [Pg.241]    [Pg.273]    [Pg.446]    [Pg.481]    [Pg.495]    [Pg.164]    [Pg.334]    [Pg.48]    [Pg.143]    [Pg.823]    [Pg.825]    [Pg.81]    [Pg.725]    [Pg.542]    [Pg.516]    [Pg.241]    [Pg.92]    [Pg.38]    [Pg.119]   
See also in sourсe #XX -- [ Pg.257 ]



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Copper arsenate

Hydrogen arsenate

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