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Ethanol economics

High-solids corn fiber hydrolysis is more likely to be commercially feasible than dilute corn fiber hydrolysis. This method keeps the concentration of sugars at high concentrations, which will increase the ethanol concentration, which is necessary for an economical ethanol distillation. [Pg.95]

CEPEA, Center for Advanced Studies in Apphed Economics. Ethanol marEef prices. 2013. Available from http //cepea.esalq.usp.br/etanol/. [cited 20.12.13]. [Pg.246]

Brazil had been a large producer of ethanol, but has abandoned subsidizing it. Without the subsidy, economic ethanol production is impossible. [Pg.8]

Liquefaction. Siace the 1970s attempts have been made to commercialize biomass pyrolysis for combiaed waste disposal—Hquid fuels production. None of these plants were ia use ia 1992 because of operating difficulties and economic factors only one type of biomass Hquefaction process, alcohohc fermentation for ethanol, is used commercially for the production of Hquid fuels. [Pg.42]

Ethanol can also be produced from cellulose (qv) or biomass such as wood (qv), com stover, and municipal soHd wastes (see Euels frombiomass Euels FROMWASTe). Each of these resources has inherent technical or economic problems. The Tennessee Valley Authority (TVA) is operating a 2 t/d pilot plant on converting cellulose to ethanol. [Pg.88]

H. L. MuUer and S. P. Ho, "Economics and Energy Balance of Ethanol as Motor Fuel," paper presented at 1986 SpringAIChE Mational Meeting, New Orleans, La., Apr. 1986. [Pg.98]

Ethers, such as MTBE and methyl / fZ-amyl ether (TAME) are made by a catalytic process from methanol (qv) and the corresponding isomeric olefin. These ethers have excellent octane values and compete on an economic basis with alkylation for inclusion in gasoline. Another ether, ethyl tert-huty ether (ETBE) is made from ethanol (qv) and isobutylene (see Butylenes). The cost and economic driving forces to use ETBE vs MTBE or TAME ate a function of the raw material costs and any tax incentives that may be provided because of the ethanol that is used to produce it. [Pg.185]

Other L-amino acids are manufactured much more economically ia thousands of tons per year ia Japan by simplified fermentations direcdy from glucose, ethanol, acetic acid, glycerol, or / -paraffin, by means of selected auxotrophic, regulatory, and analogue-resistant bacterial mutants (94,95). [Pg.314]

Although the hydrolysis of wood to produce simple sugars has not proved to be economically feasible, by-product sugars from sulfite pulping are used to produce ethanol and to feed yeast (107). Furthermore, a hemiceUulose molasses, obtained as a by-product in hardboard manufacture, can be used in catde feeds instead of blackstrap molasses (108). Furfural can be produced from a variety of wood processing byproducts, such as spent sulfite Hquor, bquors from the prehydrolysis of wood for kraft pulping, hardboard plants, and hardwood wastes (109). [Pg.332]

Ethylene. Where ethylene is ia short supply and fermentation ethanol is made economically feasible, such as ia India and Bra2il, ethylene is manufactured by the vapor-phase dehydration of ethanol. The production of ethylene [74-85-1] from ethanol usiag naturally renewable resources is an active and useful alternative to the pyrolysis process based on nonrenewable petroleum. This route may make ethanol a significant raw material source for produciag other chemicals. [Pg.415]

Ethyl Tertiary-Butyl Ether. Similar to methanol in the MTBE reaction, ethanol can react with isobutylene to produce ETBE. Which alcohol is used to make the ether is highly dependent on the relative cost of the alcohols. To make ethanol more economically competitive with methanol, the federal tax credit for biomass-based ethanol used in fuel also appHes to ethanol used to make ETBE in the United States (24). [Pg.429]

Ethanol to Ethylene. The economics of this process depend on the availabiUty and price of ethanol. High volume production of ethylene... [Pg.443]

Silica gel, per se, is not so frequently used in LC as the reversed phases or the bonded phases, because silica separates substances largely by polar interactions with the silanol groups on the silica surface. In contrast, the reversed and bonded phases separate material largely by interactions with the dispersive components of the solute. As the dispersive character of substances, in general, vary more subtly than does their polar character, the reversed and bonded phases are usually preferred. In addition, silica has a significant solubility in many solvents, particularly aqueous solvents and, thus, silica columns can be less stable than those packed with bonded phases. The analytical procedure can be a little more complex and costly with silica gel columns as, in general, a wider variety of more expensive solvents are required. Reversed and bonded phases utilize blended solvents such as hexane/ethanol, methanol/water or acetonitrile/water mixtures as the mobile phase and, consequently, are considerably more economical. Nevertheless, silica gel has certain areas of application for which it is particularly useful and is very effective for separating polarizable substances such as the polynuclear aromatic hydrocarbons and substances... [Pg.93]


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See also in sourсe #XX -- [ Pg.437 ]

See also in sourсe #XX -- [ Pg.220 , Pg.221 ]




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