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As feedstock or fuel

Kvaerner Process Technology Ethyl acetate Ethanol Ethanol only process—no acetic acid required byproduct hydrogen can be used as feedstock or fuel 1 1998... [Pg.135]

Electrical and electronic devices are made utilizing several various types of plastic materials, thus when discarded their waste is difficult to recycle. The plastics employed in housing and other appliances are more or less homogeneous materials (among others PP, PVC, PS, HIPS, ABS, SAN, Nylon 6,6, the pyrolysis liquids of which have been discussed above). However, metals are embedded in printed circuit boards, switches, junctions and insulated wires, moreover these parts contain fire retardants in addition to support and filler materials. Pyrolysis is a suitable way to remove plastics smoothly from embedded metals in electrical and electronic waste (EEW), in addition the thermal decomposition products of the plastics may serve as feedstock or fuel. PVC, PBT, Nylon 6,6, polycarbonate (PC), polyphenylene ether (PPO), epoxy and phenolic resins occur in these metal-containing parts of EEW. [Pg.337]

Inspection of the Table and comparison of the OPEN and CLOSED cases demonstrates the loss in profitability as valuable byproducts are downgraded to feedstock or fuel value. This is particularly evident for hydrogen, whose by-product credit makes a significant contribution to profit. [Pg.134]

Many industrial processes where hydrocarbons are used generate off gases containing vapors of hydrocarbons such as gasoline, naphtha, fuel, and solvents. If they are separated from the generated mixtures, these products constitute valuable chemical feedstock or fuel. However, if they are not separated, they become a source of environmental contamination. [Pg.262]

Studies of catalyzed reactions of CO and CO2 with hydrogen to produce hydrocarbons have had a profound effect on the chemical research and chemical technology (1,2,3). As a result of coal gasification (coal + H2O CO + H2), CO and H2 are produced and may be used as feedstock or as a fuel (water gas). Through the use of the water shift reaction (CO + H2O CO2 + H2), the CO-H2 mixture can be en-... [Pg.65]

Recycling as feedstock or as fuel both thermoplastics and thermosets can be broken down by chemical and thermal means to produce basic chemicals, for reuse in polymerization or other chemical... [Pg.180]

Aromatic and Nonaromatic Hydrocarbon Separation. Aromatics are partially removed from kerosines and jet fuels to improve smoke point and burning characteristics. This removal is commonly accompHshed by hydroprocessing, but can also be achieved by Hquid-Hquid extraction with solvents, such as furfural, or by adsorptive separation. Table 7 shows the results of a simulated moving-bed pilot-plant test using siHca gel adsorbent and feedstock components mainly in the C q—range. The extent of extraction does not vary gready for each of the various species of aromatics present. SiHca gel tends to extract all aromatics from nonaromatics (89). [Pg.300]

Relatively small amounts of methane, ethane, and propane also are produced as by-products from petroleum processes, but these usually are consumed as process or chemical feedstock fuel within the refineries. Some propane is recovered and marketed as LPG. [Pg.399]

In 1987 nonmotor fuel uses of butanes represented ca 16% of the total consumption. Liquid petroleum gas (LPG) is a mixture of butane and propane, typically in a ratio of 60 40 butane—propane however, the butane content can vary from 100 to 50% and less (see Liquefied petroleum gas). LPG is consumed as fuel in engines and in home, commercial, and industrial appHcations. Increasing amounts of LPG and butanes are used as feedstocks for substitute natural gas (SNG) plants (see Fuels, synthetic). / -Butane, propane, and isobutane are used alone or in mixture as hydrocarbon propellents in aerosols (qv). [Pg.403]

Petroleum refining, also called petroleum processing, is the recovery and/or generation of usable or salable fractions and products from cmde oil, either by distillation or by chemical reaction of the cmde oil constituents under the effects of heat and pressure. Synthetic cmde oil, produced from tar sand (oil sand) bitumen, and heavier oils are also used as feedstocks in some refineries. Heavy oil conversion (1), as practiced in many refineries, does not fall into the category of synthetic fuels (syncmde) production. In terms of Hquid fuels from coal and other carbonaceous feedstocks, such as oil shale (qv), the concept of a synthetic fuels industry has diminished over the past several years as being uneconomical in light of current petroleum prices. [Pg.200]

The uses of propylene may be loosely categorized as refinery or chemical purpose. In the refinery, propylene occurs in varying concentrations in fuel-gas streams. As a refinery feedstock, propylene is alkylated by isobutane or dimerized to produce polymer gasoHne for gasoHne blending. Commercial chemical derivatives include polypropylene, acrylonitrile, propylene oxide, isopropyl alcohol, and others. In 1992, ca 64% of U.S. propylene suppHes were consumed in the production of chemicals (74). Polypropylene has been the largest consumer of propylene since the early 1970s and is likely to dominate propylene utilization for some time. [Pg.128]

Manufacture. Titanium chloride is manufactured by the chlorination of titanium compounds (1,134—138). The feedstocks usually used are mineral or synthetic mtile, beneficiated ilmenite, and leucoxenes. Because these are all oxygen-containing, it is necessary to add carbon as well as coke from either coal or fuel oil during chlorination to act as a reducing agent. The reaction is normally carried out as a continuous process in a fluid-bed reactor (139). The bed consists of a mixture of the feedstock and coke. These are fluidized by a stream of chlorine iatroduced at the base (see Fluidization). The amount of heat generated in the chlorination process depends on the relative proportions of CO2 or CO that are formed (eqs. 1 and 2), and the mechanism that... [Pg.131]

Normally, crude oils are not used directly as fuels or as feedstocks for the production of chemicals. This is due to the complex nature of the crude oil mixture and the presence of some impurities that are corrosive or poisonous to processing catalysts. [Pg.12]

Proponents of a technology that converts plastics into chemical feedstocks for use as new resin or fuel, are optimistic that it will eventually be accepted as recycling. The technologies and targets vary, but, according to representatives, the conversion of plastics into feedstocks is a feasible recycling technology for wastes that do not... [Pg.108]

See other pages where As feedstock or fuel is mentioned: [Pg.143]    [Pg.79]    [Pg.143]    [Pg.79]    [Pg.87]    [Pg.411]    [Pg.175]    [Pg.115]    [Pg.8]    [Pg.187]    [Pg.17]    [Pg.39]    [Pg.399]    [Pg.537]    [Pg.253]    [Pg.206]    [Pg.361]    [Pg.419]    [Pg.201]    [Pg.224]    [Pg.451]    [Pg.302]    [Pg.978]    [Pg.983]    [Pg.983]    [Pg.984]    [Pg.985]    [Pg.332]    [Pg.347]    [Pg.25]    [Pg.53]    [Pg.172]    [Pg.205]    [Pg.741]    [Pg.48]    [Pg.3]    [Pg.10]   


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A feedstock

As a fuel

Fuel feedstock

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