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Barium analysis

Barium. Before the routine use of AAS, Ba was analyzed by emission spectrograph or a KMnO spot test (13). Alkali and alkaline earth metals are analyzed in nitrous oxide/acetylene flames with ionization suppressants such as 1000 ppm Cs. For barium analysis by P CAM 173, background correction must be used whenever greater than 1000 ppm calcium is in the analyte solution. There are strong Ca(0H)2 absorptions and emission at 553.6 nm, which is the barium analytical line. [Pg.246]

INSTRUMENT PARAMETERS FOR BARIUM ANALYSIS OF GUNSHOT RESIDUES (HEATED GRAPHITE FURNACE)... [Pg.393]

Barium. The results of the barium analyses [Tables I-VI and (3)] show that the range of the barium content of sea water, analyzed in this work, ranges from 0.8 to 37.0 p.p.b. in the equatorial region and from <0.04 to 22.8 p.p.b. in the North Atlantic, with average values of 6.5 p.p.b. and 7.6 p.p.b., respectively. In the North Atlantic, the station at 41°33 N 50°03 W has a maximum barium content of 281 meters, minimum values at 489 meters and 1006 meters, and the barium concentration increasing below this depth to the next to highest value in the profile at 2098 meters. This distribution is similar to a North Atlantic profile constructed from the results of the barium analysis of sea water from 21 unfiltered samples collected at various locations, dates and depths reported recently (22) and a profile near Bermuda (9). There is little correlation with the profile of the barium distribution at the indicated locations with that of a station at 41°33 N 29°43 W. In the former station a maximum barium concentration was observed at 93 meters with no detectable amounts below 683 meters to 1579 meters. [Pg.303]

Barium ISEs find little application in terms of barium analysis but they are useful for the indirect titration of sulphate (60,61) and especially for analysis of non-ionic surfactants and measuring of their critical micelle concentrations from the inflexions in emf v. log [surfactant] plots (62). [Pg.106]

In similar circumstances, silver salts leave a residue of metallic silver lead and copper salts usually leave a residue of the corresponding oxide calcium and barium salts leave a resirlne of the carbonate or oxide. Identify the metal in all such cases by the usual tests of qualitative inorganic analysis. Metals other than the above are seldom encountered in elementan qualitative analysis. [Pg.319]

The most stable protected alcohol derivatives are the methyl ethers. These are often employed in carbohydrate chemistry and can be made with dimethyl sulfate in the presence of aqueous sodium or barium hydroxides in DMF or DMSO. Simple ethers may be cleaved by treatment with BCI3 or BBr, but generally methyl ethers are too stable to be used for routine protection of alcohols. They are more useful as volatile derivatives in gas-chromatographic and mass-spectrometric analyses. So the most labile (trimethylsilyl ether) and the most stable (methyl ether) alcohol derivatives are useful in analysis, but in synthesis they can be used only in exceptional cases. In synthesis, easily accessible intermediates of medium stability are most helpful. [Pg.161]

The following table lists the molar absorptivities for the Arsenazo complexes of copper and barium at selected wavelengths. " Determine the optimum wavelengths for the analysis of a mixture of copper and barium. [Pg.453]

X-ray crystallographic analysis of the sodium thiosulfate pentahydrate [10102-17-7] crystal indicates a tetrahedral stmcture for the thiosulfate ion. The S—S bond distance is 197 pm the S—O bond distance is 148 pm (5). Neutron diffraction of a barium thiosulfate monohydrate [7787-40-8] crystal confirms the tetrahedral stmcture and bond distances for the thiosulfate ion (6). [Pg.26]

Barium can also be deterruined by x-ray fluorescence (XRF) spectroscopy, atomic absorption spectroscopy, and flame emission spectroscopy. Prior separation is not necessary. XRF can be appHed directly to samples of ore or products to yield analysis for barium and contaminants. AH crystalline barium compounds can be analy2ed by x-ray diffraction. [Pg.484]

This method is used for the determination of total chromium (Cr), cadmium (Cd), arsenic (As), nickel (Ni), manganese (Mn), beiylhum (Be), copper (Cu), zinc (Zn), lead (Pb), selenium (Se), phosphorus (P), thalhum (Tl), silver (Ag), antimony (Sb), barium (Ba), and mer-cuiy (Hg) stack emissions from stationaiy sources. This method may also be used for the determination of particulate emissions fohowing the procedures and precautions described. However, modifications to the sample recoveiy and analysis procedures described in the method for the purpose of determining particulate emissions may potentially impacl the front-half mercury determination. [Pg.2206]

Sulphate in Waters, Effluents and Solids (2nd Edition) [including Sulphate in Waters, Effluents and Some Solids by Barium Sulphate Gravimetry, Sulphate in waters and effluents by direct Barium Titrimetry, Sulphate in waters by Inductively Coupled Plasma Emission Spectrometry, Sulphate in waters and effluents by a Continuous Elow Indirect Spectrophotometric Method Using 2-Aminoperimidine, Sulphate in waters by Elow Injection Analysis Using a Turbidimetric Method, Sulphate in waters by Ion Chromatography, Sulphate in waters by Air-Segmented Continuous Elow Colorimetry using Methylthymol Blue], 1988... [Pg.315]

Components in the invading water-based filtrate and in the formation waters may react to form insoluble precipitates which can block the pores and give rise to skin damage. The scale can be formed by interaction of calcium-based brines with carbon dioxide or sulfate ions in the formation water. Alternatively sulfate ions in the invading fluid may react with calcium or barium ions in the formation water. Analysis of the formation water can identify whether such a problem may arise. [Pg.705]

The solubility of the precipitates encountered in quantitative analysis increases with rise of temperature. With some substances the influence of temperature is small, but with others it is quite appreciable. Thus the solubility of silver chloride at 10 and 100 °C is 1.72 and 21.1mgL 1 respectively, whilst that of barium sulphate at these two temperatures is 2.2 and 3.9 mg L 1 respectively. In many instances, the common ion effect reduces the solubility to so.small a value that the temperature effect, which is otherwise appreciable, becomes very small. Wherever possible it is advantageous to filter while the solution is hot the rate of filtration is increased, as is also the solubility of foreign substances, thus rendering their removal from the precipitate more complete. The double phosphates of ammonium with magnesium, manganese or zinc, as well as lead sulphate and silver chloride, are usually filtered at the laboratory temperature to avoid solubility losses. [Pg.30]

Crucibles fitted with permanent porous plates are cleaned by shaking out as much of the solid as possible, and then dissolving out the remainder of the solid with a suitable solvent. A hot 0.1 M solution of the tetrasodium salt of the ethylenediaminetetra-acetic acid is an excellent solvent for many of the precipitates [except metallic sulphides and hexacyanoferrates(III)] encountered in analysis. These include barium sulphate, calcium oxalate, calcium phosphate, calcium oxide, lead carbonate, lead iodate, lead oxalate, and ammonium magnesium phosphate. The crucible may either be completely immersed in the hot reagent or the latter may be drawn by suction through the crucible. [Pg.118]

Both carbonates decompose to their oxides with the evolution of carbon dioxide. The decomposition temperature for calcium carbonate is in the temperature range 650-850 °C, whilst strontium carbonate decomposes between 950 and 1150°C. Hence the amount of calcium and strontium present in a mixture may be calculated from the weight losses due to the evolution of carbon dioxide at the lower and higher temperature ranges respectively. This method could be extended to the analysis of a three-component mixture, as barium carbonate is reported to decompose at an even higher temperature ( 1300 °C) than strontium carbonate. [Pg.433]

Calcium, D. of - continued in limestone or dolomite, (fl) 813 in presence of barium, (ti) 333 with CDTA, (ti) 333 with lead by EDTA, (ti) 333 with magnesium by EDTA, 328 by EGTA, (ti) 331 by flame emission, (aa) 804 Calcium oxalate, thermal analysis 498 Calcon 318 Calculators 133 Calibration of apparatus, 87 of burettes, 88 of graduated flasks, 88 of pipettes, 88 of weights, 74... [Pg.858]

Gravimetric and volumetric methods are practicable for the quantitative determination of the a-sulfo fatty acid esters. Using gravimetric methods the surfactant is precipitated with p-toluidine or barium chloride [105]. The volumetric determination method is two-phase titration. In this technique different titrants and indicators are used. For the analysis of a-sulfo fatty acid esters the quaternary ammonium surfactant hyamine 1622 (p,f-octylphenoxyethyldimethyl-ammonium chloride) is used as the titrant [106]. The indicator depends on the pH value of the titration solution. Titration with a phenol red indicator is carried out at a pH of 9, methylene blue is used in acid medium [106], and a mixed indicator of a cationic (dimidium bromide) and an anionic (disulfine blue VN150) dye can be used in an acid and basic medium [105]. [Pg.492]

Students usually identify the existence of anions such as carbonate, iodide and sul-fate(VI) by adding a barium/silver(I)/lead(II) solution to the unknown, followed by a dilute acid or vice-versa in qualitative analysis practical work sessions and examinations. Mat r students had difficulty understanding the roles of the bar-ium/silver(I)/lead(II) solution and the dilute acid in the tests for anions. For example, 20% believed that the addition of aqueous barium nitrate(V) followed by dilute nitric(V) acid was to test for sulfate(VI) only. Another 25% believed that to test for a carbonate, acid had to be added directly to the unknown sample, while 20% believed that the addition of barium nitrate(V) invalidated the test for carbonates. When the students were asked the purpose of adding dilute nitric(V) acid following die addition of silver nitrate(V) solution (in one question) and lead(II) nitrate(V in another question) to the unknown solutions, 22% and 35%, respectively, indicated... [Pg.141]

Fanson, P.T., Horton, M.R., Delgass, W.N. et al. (2003) FTIR Analysis of Storage Behavior and Sulfur Tolerance in Barium-Based NOx Storage and Reduction (NSR) Catalysts, Appl. Catal. B Environ., 46, 393. [Pg.207]

If the ratio of the calcium chelate salt to the trihydrated barium salt in a mixture is above 2 1, the thermal decomposition during DTA/TG analysis may be explosive. See other metal perchlorates... [Pg.92]

See other pages where Barium analysis is mentioned: [Pg.628]    [Pg.628]    [Pg.52]    [Pg.1704]    [Pg.487]    [Pg.378]    [Pg.231]    [Pg.482]    [Pg.141]    [Pg.291]    [Pg.297]    [Pg.422]    [Pg.423]    [Pg.493]    [Pg.875]    [Pg.97]    [Pg.341]    [Pg.452]    [Pg.285]    [Pg.287]    [Pg.155]    [Pg.166]    [Pg.214]    [Pg.132]    [Pg.327]    [Pg.328]    [Pg.164]    [Pg.448]   
See also in sourсe #XX -- [ Pg.147 ]



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