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Methanol boiling point

For analytical purposes, e.g., for thin-layer chromatography, the O-silyl groups are most rapidly removed by addition of TBAF (72JA6I90). For preparative workup, the crude reaction mixture is transsilylated by boiling with excess methanol for several hours. These transsilylations are accelerated by continuous removal of the trimethylsilylated methanol (boiling point = 55°C) formed using a distillation column. [Pg.149]

In general, the heat of adsorption increases as the boiling point of the liquid becomes higher, but exceptions are found. Thus, when adsorbed on carbon, methanol (boiling point 64° C) liberates 2400 less calories per mole than does diethyl ether (boiling point 34° C). [Pg.235]

Solubility Insoluble in water soluble in N,N-dimethylformamide, dimethyl sulfoxide, methanol Boiling Point (Calcd.) 845.9 65.0 °C, pressure 760Torr... [Pg.132]

Many liquid mixtures exhibit a minimum boiling point (e.g. methanol and chloroform -propanol and water) whilst others show a... [Pg.47]

Nitromethane is a very common material. Just go down to your local drag strip and pick up a gallon or two for doping your high performance cars fuel. It s also available up to 40% pure in RC model fuels. Simply fractionally distill the nitromethane (bp 101°C) out of the model fuel mixture and you re ready to go. If methanol Is present in the fuel formulation, some will azeotropically distill over with the nitromethane lowering its boiling point slightly, but this does not present a problem. [Pg.105]

The solvents used for liquid chromatography are the commoner ones such as water, acetonitrile, and methanol. For the reasons just stated, it is not possible to put them straight into the ion source without problems arising. On the other hand, the very viscous solvents that qualify as matrix material are of no use in liquid chromatography. Before the low-boiling-point eluant from the LC column is introduced into the ion source, it must be admixed with a high-boiling-point matrix... [Pg.82]

Alcoholysis (ester interchange) is performed at atmospheric pressure near the boiling point of methanol in carbon steel equipment. Sodium methoxide [124-41 -4] CH ONa, the catalyst, can be prepared in the same reactor by reaction of methanol and metallic sodium, or it can be purchased in methanol solution. Usage is approximately 0.3—1.0 wt % of the triglyceride. [Pg.446]

Stannous Oxide. Stannous oxide, SnO ((tin(II) oxide), mol wt 134.70, sp gr 6.5) is a stable, blue-black, crystalline product that decomposes at above 385°C. It is insoluble in water or methanol, but is readily soluble in acids and concentrated alkaHes. It is generally prepared from the precipitation of a stannous oxide hydrate from a solution of stannous chloride with alkaH. Treatment at controUed pH in water near the boiling point converts the hydrate to the oxide. Stannous oxide reacts readily with organic acids and mineral acids, which accounts and for its primary use as an intermediate in the manufacture of other tin compounds. Minor uses of stannous oxide are in the preparation of gold—tin and copper—tin mby glass. [Pg.65]

Like brines, alcohols were readily available and widely used as antifreeze Hquids in the early 1900s. Both methanol and ethanol offer exceUent heat transfer and efficient freeze point depression. However, the alcohols have the distinct disadvantage of their low boiling points. During the summer months when the engines operate hot, significant amounts of the alcohols are lost because of evaporation. These evaporative losses result in cosdy make-up requirements. Additionally, the alcohols have very low flash points and potentially flammable vapors. These safety concerns have, particularly in recent years, caused the use of alcohols to be completely discontinued for most heat-transfer systems. [Pg.186]

A representative technical grade of methyl chloride contains not more than the following indicated quantities in ppm of impurities water, 100 acid, such as HCl, 10 methyl ether, 20 methanol, 50 acetone, 50 residue, 100. No free chlorine should be detectable. Traces of higher chlorides are generally present in methyl chloride produced by chlorination of methane. The boiling point should be between —24 and —23° C, and 5—95% should distill within a range of about 0.2°C. It should be clear, colorless, and free from visible impurities. [Pg.516]

Applications. Transesterifications via alcoholysis play a significant role in industry as well as in laboratory and in analytical chemistry. The reaction can be used to reduce the boiling point of esters by exchanging a long-chain alcohol group with a short one, eg, methanol, in the analysis of fats, oils, and waxes. For more details see References 7 and 68. A few examples are given below. [Pg.383]

Formaldehyde is a gas with a boiling point of -21 °C. It is usually supplied as a stabilised aqueous solution ( 40% formaldehyde) known as formalin. When formalin is used as the source of the aldehyde, impurities present generally include water, methanol, formic acid, methylal, methyl formate and carbon dioxide. The first three of these impurities interfere with polymerisation reactions and need to be removed as much as possible. In commercial polymerisation the low polymers trioxane and paraformaldehyde are convenient sources of formaldehyde since they can be obtained in a greater state of purity. [Pg.532]

Sodium methylete is mede by dropping 11.7 g of sodium strips into 199 ml of absolute methanol in a 1-liter three-necked flask. 93.9 g of o-benzylphenol ere dissolved in 200 ml of dry toluene end added to the sodium methylete solution. The solution is distilled until the boiling point of toluene is reached. At the end of the distillation, enough toluene is added to restore the original volume of solvent. [Pg.1223]

Ethyl-2-methyl-3-(10,11) -dihydro-5H-dibenzo [a,d] cycloheptene-5-ylidene)-1 -pyrrolinium iodide (4.7 g) was dissolved in 7 cc of methanol. To this solution there were added 1.4 g of sodium boron hydride within about 80 minutes with stirring and stirring of the solution was continued for two hours to complete the reaction. The reaction mixture was acidified with 10% aqueous hydrochloric acid solution and then the methanol was distilled off. The residual solution was alkalized with 20% aqueous sodium hydroxide solution and extracted with ether. The ether layer was dried over magnesium sulfate and the ether was distilled off. The resulting residue was further distilled under reduced pressure to yield 2.0 g of 1-ethyl-2-methyl-3-(10,11 ) dihydro-5H-dibenzo[a,d]cycloheptene-5-ylidene)pyrrolidine (boiling point 167°C/4 mm Hg.). [Pg.1256]

See other pages where Methanol boiling point is mentioned: [Pg.253]    [Pg.73]    [Pg.23]    [Pg.92]    [Pg.250]    [Pg.253]    [Pg.73]    [Pg.23]    [Pg.92]    [Pg.250]    [Pg.7]    [Pg.106]    [Pg.49]    [Pg.239]    [Pg.440]    [Pg.366]    [Pg.259]    [Pg.188]    [Pg.186]    [Pg.376]    [Pg.19]    [Pg.624]    [Pg.142]    [Pg.485]    [Pg.408]    [Pg.435]    [Pg.442]    [Pg.527]    [Pg.1293]    [Pg.1449]    [Pg.1452]    [Pg.1488]    [Pg.1528]    [Pg.1549]    [Pg.795]    [Pg.12]   
See also in sourсe #XX -- [ Pg.440 ]

See also in sourсe #XX -- [ Pg.3 , Pg.24 ]

See also in sourсe #XX -- [ Pg.436 ]

See also in sourсe #XX -- [ Pg.456 , Pg.1038 ]

See also in sourсe #XX -- [ Pg.440 ]

See also in sourсe #XX -- [ Pg.429 ]



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Methanol boiling

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