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Carbon dioxide, thermal

Carbon dioxide acid -1- carbonate/hydrogencarbonate salt -i-water -i- carbon dioxide Thermal decomposition of carbonate/ hyd rogenca rbonate... [Pg.298]

Changes in thermal conductivity, e.g. carbon dioxide in flue gas. [Pg.186]

Group II hydrogencarbonates have insufficient thermal stability for them to be isolated as solids. However, in areas where natural deposits of calcium and magnesium carbonates are found a reaction between the carbonate, water and carbon dioxide occurs ... [Pg.132]

Compounds that readily undergo thermal decarboxylation include those related to malonic acid On being heated above its melting point malonic acid is converted to acetic acid and carbon dioxide... [Pg.817]

Section 19 17 11 Dicarboxylic acids (malonic acids) and p keto acids undergo thermal decarboxylation by a mechanism m which a p carbonyl group assists the departure of carbon dioxide... [Pg.824]

Chemistry. In direct combustion coal is burned to convert the chemical energy of the coal into thermal energy, ie, the carbon and hydrogen in the coal are oxidized into carbon dioxide and water. [Pg.72]

There are three essential factors in the thermal decomposition of limestone (/) the stone must be heated to the dissociation temperature of the carbonates (2) this minimum temperature (but in practice a higher temperature) must be maintained for a certain duration and (J) the carbon dioxide evolved must be removed rapidly. [Pg.170]

Lithium Oxide. Lithium oxide [12057-24-8], Li20, can be prepared by heating very pure lithium hydroxide to about 800°C under vacuum or by thermal decomposition of the peroxide (67). Lithium oxide is very reactive with carbon dioxide or water. It has been considered as a potential high temperature neutron target for tritium production (68). [Pg.226]

Decomposition and Decarboxylation. Maleic anhydride undergoes anaerobic thermal decomposition in the gas phase in a homogeneous unimolecular reaction to give carbon monoxide, carbon dioxide, and acetylene [74-86-2] in equimolar amounts. The endothermic... [Pg.451]

Thermal decomposition of hydroxyalkyl hydroperoxyalkyl peroxides produces mixtures of starting carbonyl compounds, mono- and dicarboxyHc acids, cycHc diperoxides, carbon dioxide, and water. One specific hydroxyalkyl hydroperoxyalkyl peroxide from cyclohexanone (2, X = OH, Y = OOH) is a soHd that is produced commercially as a free-radical initiator and bleaching agent (see Table 5). On controlled decomposition, it forms 1,12-dodecanedioic acid (150). [Pg.116]

Detector cooling often is accompHshed by providing good thermal conductivity to a suitable cryogen (2). The most readily available coolants are sohd carbon dioxide [124-38-9] [124-38-9] at 195 K, Hquid nitrogen, N2, at 77 K, andhquid hehum. He, at 4.2 K (see Carbon dioxide Helium group ... [Pg.423]

BiaxiaHy orieated PPS film is transpareat and nearly colorless. It has low permeability to water vapor, carbon dioxide, and oxygen. PPS film has a low coefficient of hygroscopic expansion and a low dissipation factor, making it a candidate material for information storage devices and for thin-film capacitors. Chemical and thermal stability of PPS film derives from inherent resia properties. PPS films exposed to tolueae or chloroform for 8 weeks retaia 75% of theh original streagth. The UL temperature iadex rating of PPS film is 160°C for mechanical appHcatioas and 180°C for electrical appHcations. Table 9 summarizes the properties of PPS film. [Pg.450]

FoodApphca.tlons, Carbon dioxide, a nontoxic material, can be used to extract thermally labde food components at near-ambient temperatures. The food product is thus not contaminated with residual solvent, as is potentially the case when usiag coaveatioaal Hquid solveats such as methylene chloride or hexane. In the food iadustry, CO2 is not recorded as a foreign substance or additive. Supercritical solvents not only can remove oils, caffeiae, or cholesterol from food substrates, but can also be used to fractionate mixtures such as glycerides and vegetable oils iato aumerous compoaeats. [Pg.226]

Pure talc is thermally stable up to 930°C, and loses its crystalline bound water (4.8%) between 930 and 970°C, leaving an enstatite (dehydrated magnesium siUcate) residue. Most commercial talc products have thermal loss below 930°C on account of the presence of carbonates, which lose carbon dioxide at 600°C, and chlorite, which loses water at 800°C. Talc is an insulator for both heat and electricity. [Pg.301]

Linalool can be converted to geranyl acetone (63) by the CarroU reaction (34). By transesterification with ethyl acetoacetate, the intermediate ester thermally rearranges with loss of carbon dioxide. Linalool can also be converted to geranyl acetone by reaction with methyl isopropenyl ether. The linalyl isopropenyl ether rearranges to give the geranyl acetone. [Pg.421]

See other pages where Carbon dioxide, thermal is mentioned: [Pg.535]    [Pg.535]    [Pg.123]    [Pg.4]    [Pg.7]    [Pg.222]    [Pg.397]    [Pg.449]    [Pg.10]    [Pg.22]    [Pg.64]    [Pg.265]    [Pg.269]    [Pg.505]    [Pg.16]    [Pg.547]    [Pg.13]    [Pg.13]    [Pg.546]    [Pg.25]    [Pg.115]    [Pg.164]    [Pg.175]    [Pg.141]    [Pg.240]    [Pg.249]    [Pg.270]    [Pg.100]    [Pg.3]    [Pg.514]    [Pg.54]    [Pg.238]    [Pg.481]    [Pg.226]    [Pg.341]    [Pg.344]   
See also in sourсe #XX -- [ Pg.389 ]



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Carbon dioxide thermal conductivity

Carbon dioxide thermal decomposition

Carbon dioxide, thermal with amides

Carbon dioxide, thermal with aromatic compounds

Thermal conductivity carbon dioxide + ethane

Thermal diffusivity carbon dioxide

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