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Potassium carbonate dioxide

Ion Selective Electrodes Technique. Ion selective (ISE) methods, based on a direct potentiometric technique (7) (see Electroanalytical techniques), are routinely used in clinical chemistry to measure pH, sodium, potassium, carbon dioxide, calcium, lithium, and chloride levels in biological fluids. [Pg.395]

No or very little fiquid is used in the analytical process on dry reagent systems such as the Vitros and Reflotron Plus. For color reactions, the Vitros uses a multilayered, 16-mm square slide (Figure 11-3) in which reagents dispersed in emulsions are activated by diffusion of the specimen fluid into the layers. From three to seven layers containing reagents are used for each of the different tests available. The Vitros also uses slides for electrometric assays that incorporate miniature ion-selective electrodes. On these, a reference solution and patient specimen provide fluid that turns the electrodes into electrochemical half-cells (see Chapter 4). Slides of this type that measure sodium, potassium, carbon dioxide, and chloride are currently in use. [Pg.273]

Benfield process Removal of carbon dioxide from fuel gases, such as those obtained by gasifying coal in the Lurgi process, by countercurrent scrubbing of the gases by hot potassium carbonate solution. [Pg.54]

Catacarb process An extraction process used to remove carbon dioxide from process gases by scrubbing the hot gases with potassium carbonate solution containing additives which increase the hydration rate of the gas in the solution. The Vetrocoke process is similar. See Benfield process. [Pg.85]

Why is potassium aluminium sulphate not soluble in benzene A compound M has the composition C = 50.0% H=12.5%o A1 = 37.5%. 0.360 g of M reacts with an excess of water to evolve 0.336 1 of gas N and leave a white gelatinous precipitate R. R dissolves in aqueous sodium hydroxide and in hydrochloric acid. 20 cm of N require 40 cm of oxygen for complete combustion, carbon dioxide and water being the only products. Identify compounds N and R, suggest a structural formula for M, and write an equation for the reaction of M with water. (All gas volumes were measured at s.t.p.)... [Pg.159]

In one process the carbon dioxide is removed using potassium carbonate solution, potassium hydrogencarbonate being produced ... [Pg.181]

This reaction can be reversed by heat and the potassium carbonate and carbon dioxide recovered. (Other compounds which absorb carbon dioxide and evolve it again at a lower temperature are also in common usage" ). [Pg.181]

Prepare a mixture of 30 ml, of aniline, 8 g. of o-chloro-benzoic acid, 8 g. of anhydrous potassium carbonate and 0 4 g. of copper oxide in a 500 ml. round-bottomed flask fitted with an air-condenser, and then boil the mixture under reflux for 1 5 hours the mixture tends to foam during the earlier part of the heating owing to the evolution of carbon dioxide, and hence the large flask is used. When the heating has been completed, fit the flask with a steam-distillation head, and stcam-distil the crude product until all the excess of aniline has been removed. The residual solution now contains the potassium. V-phenylanthrani-late add ca. 2 g. of animal charcoal to this solution, boil for about 5 minutes, and filter hot. Add dilute hydrochloric acid (1 1 by volume) to the filtrate until no further precipitation occurs, and then cool in ice-water with stirring. Filter otT the. V-phcnylanthranilic acid at the pump, wash with water, drain and dry. Yield, 9-9 5 g. I he acid may be recrystallised from aqueous ethanol, or methylated spirit, with addition of charcoal if necessary, and is obtained as colourless crystals, m.p. 185-186°. [Pg.217]

Oxidation of 10-undecynoic acid to sebacic acid. Dissolve 2 00 g. of the acid, m.p. 41-42°, in 50 ml. of water containing 0 -585 g. of pure anhydrous sodium carbonate. Saturate the solution with carbon dioxide and add O IN potassium permanganate solution (about 1500 ml.) slowly and with constant stirring until the pink colour remains for half an hour the addition occupies about 3 hours. Decolourise the solution with a httle sulphur dioxide and filter off the precipitated acid through a... [Pg.469]

The reaction is particularly facile with di- and tri-hydric phenols. Thus P-resorcyllc acid is readily obtained by passing carbon dioxide through a boiling aqueous solution of the potassium or sodium salt of resorcinol ... [Pg.754]

Potassium sodium alloy Air, carbon dioxide, carbon disulflde, halocarbons, metal oxides... [Pg.1211]

Titanium Aluminum, boron trifluoride, carbon dioxide, CuO, halocarbons, halogens, PbO, nitric acid, potassium chlorate, potassium nitrate, potassium permanganate, steam at high temperatures, water... [Pg.1212]

Phenols as a compound class are readily oxidi2ed by potassium permanganate and, if sufficient oxidant is added, phenol (qv) can be completely oxidi2ed into carbon dioxide and water. [Pg.522]

The second important component is the cooling agent or reactor coolant which extracts the heat of fission for some usefiil purpose and prevents melting of the reactor materials. The most common coolant is ordinary water at high temperature and high pressure to limit the extent of boiling. Other coolants that have been used are Hquid sodium, sodium—potassium alloy, helium, air, and carbon dioxide (qv). Surface cooling by air is limited to unreflected test reactors or experimental reactors operated at very low power. [Pg.210]

The common treatment methods are acidification, neutralization, and incineration. When oxahc acid is heated slightly in sulfuric acid, it is converted to carbon monoxide, carbon dioxide, and water. Reaction with acid potassium permanganate converts it to carbon dioxide. Neutralization with alkahes, such as caustic soda, yields soluble oxalates. Neutralization with lime gives practically insoluble calcium oxalate, which can be safely disposed of, for instance, by incineration. [Pg.461]

Henkel Rearrangement of Benzoic Acid and Phthalic Anhydride. Henkel technology is based on the conversion of benzenecarboxyhc acids to their potassium salts. The salts are rearranged in the presence of carbon dioxide and a catalyst such as cadmium or zinc oxide to form dipotassium terephthalate, which is converted to terephthahc acid (59—61). Henkel technology is obsolete and is no longer practiced, but it was once commercialized by Teijin Hercules Chemical Co. and Kawasaki Kasei Chemicals Ltd. Both processes foUowed a route starting with oxidation of napthalene to phthahc anhydride. In the Teijin process, the phthaHc anhydride was converted sequentially to monopotassium and then dipotassium o-phthalate by aqueous recycle of monopotassium and dipotassium terephthalate (62). The dipotassium o-phthalate was recovered and isomerized in carbon dioxide at a pressure of 1000—5000 kPa ( 10 50 atm) and at 350—450°C. The product dipotassium terephthalate was dissolved in water and recycled as noted above. Production of monopotassium o-phthalate released terephthahc acid, which was filtered, dried, and stored (63,64). [Pg.488]

See other pages where Potassium carbonate dioxide is mentioned: [Pg.1302]    [Pg.991]    [Pg.1302]    [Pg.991]    [Pg.184]    [Pg.206]    [Pg.123]    [Pg.130]    [Pg.273]    [Pg.320]    [Pg.482]    [Pg.485]    [Pg.172]    [Pg.185]    [Pg.487]    [Pg.517]    [Pg.712]    [Pg.775]    [Pg.858]    [Pg.890]    [Pg.892]    [Pg.932]    [Pg.949]    [Pg.274]    [Pg.358]    [Pg.308]    [Pg.17]    [Pg.26]    [Pg.172]    [Pg.202]    [Pg.419]    [Pg.272]    [Pg.515]    [Pg.522]    [Pg.448]    [Pg.457]   
See also in sourсe #XX -- [ Pg.358 ]



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