Distillation destructive

C4H8O, CH3COCH2CH3. Colourless liquid with a pleasant odour, b.p. 80°C. It occurs with propanone in the products of the destructive distillation of wood. Manufactured by the liquid or vapour phase dehydrogenation of 2-butanol over a catalyst. Used as a solvent, particularly for vinyl and acrylic resins, and for nitrocellulose and cellulose acetate, also for the dewaxing of lubricating oils. U.S. production 1978 300 000 tonnes. 

Historical. Pyridines were first isolated by destructive distillation of animal bones in the mid-nineteenth century (2). A more plentifiil source was found in coal tar, the condensate from coking ovens, which served the steel industry. Coal tar contains roughly 0.01% pyridine bases by weight. Although present in minute quantities, any basic organics can be easily extracted as an acid-soluble fraction in water and separated from the acid-insoluble tar. The acidic, aqueous phase can then be neutrali2ed with base to Hberate the pyridines, and distilled into separate compounds. Only a small percentage of worldwide production of pyridine bases can be accounted for by isolation from coal tar. Almost all pyridine bases are made by synthesis. 

Charcoal Charcoal is the residue from the destructive distillation of wood. It absorbs moisture readily, often containing as much as 10 to 15 percent water. In addition, it usually contains about 2 to 3 percent ash and 0.5 to I.O percent hydrogen. The heating value of charcoal is about 27,912 to 30,238 kj/kg (12,000 to 13,000 Btu/lb). 

Until the mid-1950s the main raw material source for the European plastics industry was coal. On destructive distillation coal yields four products coal tar, coke, coal gas and ammonia. Coal tar was an important source of aromatic chemicals such as benzene, toluene, phenol, naphthalene and related products. From these materials other chemicals such as adipic acid, hexamethylenedia-mine, caprolactam and phthalic anhydride could be produced, leading to such important plastics as the phenolic resins, polystyrene and the nylons. 

Combustion is the rapid exothermic oxidation of combustible elements in fuel. Incineration is complete combustion. Classical pyrolysis is the destructive distillation, reduction, or thermal cracking and condensation of organic matter under heat and/or pressure in the absence of oxygen. Partial pyrolysis, or starved-air combustion, is incomplete combustion and occurs when insufficient oxygen is provided to satisfy the combustion requirements. The basic elements of each process are shown on Figure 27. Combustion of wastewater solids, a two-step process, involves drying followed by burning. 

Timko and Cram were the first to prepare true crown ethers containing the furanyl subcyclic unit ° . Destructive distillation of sucrose yielded 2-hydroxymethyl-5-formyl-furan 7 in 41% yield. This could be reduced to the corresponding diol in 91% yield by treatment with sodium borohydride. Reaction of the diol with tetraethylene glycol dito-sylate, and potassium t-butoxide in THE solution afforded the crown in 36% yield. The approach is illustrated below as Eq. (3.26). 

The assumption of these conjugated double bonds makes possible a tetracyclic nucleus which accords with the suggestion previously made by the authors that these alkaloids might be structurally related to the diterpenes. It may also be noted that one of the nitric acid oxidation products of pseudaconitine has been recorded as unexpectedly giving a pyrrole reaction on destructive distillation. ... 

Commercial acetic acid is manufactured fiom pyroligneous acid obtained in the destructive distillation of wood. The latter is neutralised with lime, and separated by distillation from wood-spirit and acetone. The crude calcium acetate, which has a dark colour, is then distilled with the requisite quantity of concentrated hydrochloric acid. Anhydrous or glacial acetic acid is obtained by distilling fused sodium acetate with concentrated sulphuric acid. 

Cadinene owes its name to its occuiTence in considerable quantity in oil of cade—which, of course, is not a true essential oil, but the product of destructive distillation. It is found in numerous essential oils, including those of patchouli, savin, galbanum, camphor, cedar wood. West Indian santal, juniper, and many others. Cadinene is best prepared as follows —... 

Vergasung, /. gasification vaporization destructive distillation carburetion gassing. Vergasungs-gas, n. manufactured gas. -mittel,... 

Zersetzungs-destilUtion, /. destructive distillation. -erschemung, /, phenomenon of decomposition or disintegration, -erzeugnis, /. decomposition product. 

Methanol was originally produced by the destructive distillation of wood (wood alcohol) for charcoal production. Currently, it is mainly produced from synthesis gas. 

The Conradson test (ASTM D-189) measures carbon residue by evaporative and destructive distillation. The sample is placed in a preweighed sample dish. The sample is heated, using a gas burner, until vapor ceases to burn and no blue smoke is observed. After cooling, the sample dish is reweighed to calculate the percent carbon residue. The test, though popular, is not a good measure of the cokeforming tendency of FCC feed because it indicates thermal, rather than catalytic, coke. In addition, the test is labor intensive and is usually not reproducible, and the procedure tends to be subjective. 

Prevalence of the head-to-tail arrangement in vinyl polymers is abundantly confirmed by determinations of polymer structures. Staudinger and Steinhofer found that destructive distillation of polystyrene at about 300° yielded 1,3-diphenylpropane, 1,3,5-triphenyl-pentane, and 1,3,5-triphenylbenzene... 

Coal gas for illumination—and later for heating— was produced by the destructive distillation of coal and resulted in the production of large volumes of tar. This is used in the form of creosote for wood preservation, so that both gasworks sites and impregnation facilities became heavily contaminated with coal tar products. The range of compounds involved is enormous, but attention... 

The production of coke involves the heating of coal in the absence of air, called the carbonization or destructive distillation of coal. Carbonization, besides its main purpose of production of coke, also results in a coproduct called coke oven gas from which various liquid products such as tar, benzol, naphthalene, phenol, and anthracene are separated. There are two main types of carbonization based on the temperature to which the coal is heated in the absence of air. One type is low-temperature carbonization (LTC) the other is high-temperature carbonisation (HTC). Some features of LTC and HTC are listed in Table 1.28. The LTC Process is mainly carried out to manufacture domestic smokeless fuel. This presentation, however, concentrates on the HTC process by which metallurgical coke is produced. 

At one time, most methanol was produced by the destructive distillation of wood (i.e., heating wood to a high temperature in the absence of air) => wood alcohol . 1) Today, most methanol is prepared by the catalytic hydrogenation of carbon monoxide. 

Methyl alcohol, CH2OH, also called wood alcohol or wood spirit, since it was formerly obtained from the destructive distillation of wood. It has also been synthesised from carbon monoxide and hydrogen or by fermentation of various sugar containing crops. Used as a part replacement for petrol in Gasohol to deliver a more environmentally friendly fuel, i.e., from renewable resources. 

D [Discriminatory destructive distillation] A thermal deasphalting process which uses the same short contact time concept as the MSCC process and a circulating solid for heat transfer between reactor and generator. It is claimed to be most effective on heavy contaminated whole crude oils or residues. Developed by Bar-Co and now offered by UOP. 

They are not found to any extent in natural products, but are produced in the destructive distillation of complex natural substances, such as coal, and are formed in large amounts in petroleum refining, particularly in the cracking process. The first member of the series is ethylene, C2H4. The dienes contain two double bonds between pairs of carbon atoms in the molecule. They are related to the complex hydrocarbons in natural rubber and are important in the manufacture of synthetic rubber and plastics. The most important members of this series are butadiene, C4H5 and isoprene, CsHg. 

It was well known at the turn of the century that rubber has the empirical composition, C5H9. Michael Faraday elucidated its composition in 1826 by careful elementary analysis. His work, an effort of extreme complexity, has been diminished by the years, but it regains its stature when you recall that over thirty years passed before the next major step was performed. In those thirty years rubber was blended, dissolved, and even vulcanized (by Charles Goodyear in 1839), but it was in 1860 that its major chemical component was discovered. This important finding was made by Greville Williams. He named the product of the destructive distillation of rubber, isoprene. 

Animal fats and oilseeds (soybean, cottonseed, coconut, palm) are important feedstocks for plasticizers and cosmetics. Destructive distillation of biomass yields methanol ( wood alcohol ), acetic acid, tar and charcoal, and was the backbone of the chemical industry in former centuries. 

Petroleum coke is the residue left by the destructive distillation (thermal cracking or coking) of petroleum residua. The coke formed in catalytic cracking operations is usually nonrecoverable because of adherence to the catalyst, as it is often employed as fuel for the process. The composition of coke varies with the source of the crude oil, but in general, is insoluble on organic solvents and has a honeycomb-type appearance. 

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