Technological development

Technology developments are revolutionizing the spectroscopic capabilities at THz frequencies. While no one teclmique is ideal for all applications, both CW and pulsed spectrometers operating at or near the fiindamental limits imposed by quantum mechanics are now within reach. Compact, all-solid-state implementations will soon allow such spectrometers to move out of the laboratory and into a wealth of field and remote-sensing applications. From the study of the rotational motions of light molecules to the large-amplitude vibrations of... 

D. M. Husband, "A Review of Technology Developments in Continuous Processing of Sohd Propellants (1960—1987)," in Proceedings of 1987 JANNAFPropellant Charactericyition Subcommittee, CPIA Pubhcations, Johns Hopkins University, Laurel, Md., Oct. 1987. 

The Eastman acetic anhydride [108-24-7] process provides an extension of carbonylation chemistry to carboxyUc acid esters. The process is based on technology developed independendy in the 1970s by Eastman and Halcon SD. The Eastman acetic anhydride process involves carbonylation of methyl acetate [79-20-9] produced from coal-derived methanol and acetic acid [64-19-7]. 

Based on the technology developed for using PVA fiber as a replacement for asbestos in cement products, Kuraray has been developing thick fibers for reinforcing concrete (42). Super-thick fibers with a thickness of 39 tex (350 den) (200 p.m in diameter) to 444 tex (4000 den) (660 p.m in diameter) are now available the 39 tex material is used for reinforcing various mortar-based cement products and the 444 tex material for reinforcing concrete in civil engineering works such as tuimels, roads, harbors, and bays. 

Most bulk food ingredients, eg, flour, fats and oils, and nutritive sweeteners (qv) such as sugar (qv), are excluded from the food additive category. In a few cases, substances that are used in relatively large quantities, eg, dietary fiber (qv) and bulking agents, are included herein because these have been the focus of market and technology developments. 

S. Torrey, ed.. Membrane and Ultrafiltration Technology, Developments Since 1981, Noyes Data Corp., Park Ridge, N.J., 1984. 

G-9 Aromatic Petroleum Resins. Feedstocks typically used for aromatic petroleum resin synthesis boil in the approximate range of 100—300°C at atmospheric pressure, with most boiling in the 130—200°C range. The C-9 designation actually includes styrene (C-8) through C-10 hydrocarbons (eg, methylindene). Many of the polymerizable monomers identified in Table 1 for coumarone—indene type cmdes from coal tar are also present in aromatic fractions from cracked petroleum distillates. Therefore, the technology developed for the polymerization of coal-tar cmdes is also appHcable to petroleum-derived aromatic feedstocks. In addition to availabiHty, aromatic petroleum resins offer several advantages over coumarone—indene resins. These include improved color and odor, as weU as uv and thermal stabiHty (46). 

The U.S. government, a primary sponsor of scientific and technological developments that fostered the computer and communications technologies needed by the on-line database industry, also sponsored database development projects, information usage studies, and combined computer database development—usage projects. The successors of some of these projects continue to be prominent and include DIALOG, MEDLINE, BRS, LEXIS, and the Chemical Abstracts Registry System. 

Secondary Lead. The emphasis in technological development for the lead industry in the 1990s is on secondary or recycled lead. Recovery from scrap is an important source for the lead demands of the United States and the test of the world. In the United States, over 70% of the lead requirements are satisfied by recycled lead products. The ratio of secondary to primary lead increases with increasing lead consumption for batteries. WeU-organized collecting channels are requited for a stable future for lead (see BATTERIES, SECONDARY CELLS Recycling NONFERROUS METALS). 

Heat Recovery and Seed Recovery System. Although much technology developed for conventional steam plants is appHcable to heat recovery and seed recovery (HRSR) design, the HRSRhas several differences arising from MHD-specific requirements (135,136). First, the MHD diffuser, which has no counterpart ia a conventional steam plant, is iacluded as part of the steam generation system. The diffuser experiences high 30 50 W/cm heat transfer rates. Thus, it is necessary to allow for thermal expansion of the order of 10 cm (137) ia both the horizontal and vertical directions at the connection between the diffuser and the radiant furnace section of the HRSR. 

The minerals processing industry has made contributions to all areas of technology, both in terms of products and processing. Technologies developed in the mineral industry are used extensively in the chemicals industry as well as in municipal and industrial waste treatment and recycling industry, eg, scrap recycling, processing of domestic refuse, automobiles, electronic scrap, battery scrap, and decontamination of soils. 

A patent is intended to further the development of science and technology by providing a pubHshed record of technological developments for all to read, consider, and discuss. At the same time, a patent provides a delineation or definition of the rights which the patent owner considers its own through the claims appended to the patent. The pubHcation of a description of the invention in conjunction with the claimed limits of the invention provides the pubHc with notice of the patent owner s affirmative rights to the invention. 

The disclosure requirement provides that the patent be a teaching document, and enhance the breadth of knowledge held by the pubHc. By increasing the breadth of knowledge within the pubHc sector, a given patent faciHtates further technological development and growth, which in turn results in the issuance of additional patents. 

In cases of all but intravenous adininistration, dosage forms must make the active moiety available for absorption, ie, for dmg release. This influences the bioavailabiUty and the dmg s pharmacokinetic profile. Ideally the dmg is made available to the blood for distribution and elimination at a rate equal to those processes. Through technological developments dmg product design can achieve release, absorption, and elimination rates resulting in durations of activity of 8—12 hours, ie, prolonged action/controlled release dmg products (21,22). Such products improve the compliance rate of dmg usage by patients. 

The most innovative photohalogenation technology developed in the latter twentieth century is that for purposes of photochlorination of poly(vinyl chloride) (PVC). More highly chlorinated products of improved thermal stabiUty, fire resistance, and rigidity are obtained. In production, the stepwise chlorination may be effected in Hquid chlorine which serves both as solvent for the polymer and reagent (46). A soHd-state process has also been devised in which a bed of microparticulate PVC is fluidized with CI2 gas and simultaneously irradiated (47). In both cases the reaction proceeds, counterintuitively, to introduce Cl exclusively at unchlorinated carbon atoms on the polymer backbone. 

The former Soviet Union constmcted a 262-km, 508-mm dia experimental coal slurry line between the Belovo open-pit coal mine in Siberia s Kuznets basin to an electric power plant at Novosibirsk, using technology developed by Snamprogetti. Testing began in late 1989 and tentative plans call for constmction of two much larger slurry pipelines, each 3000-km long, with capacity to move a total of 33 x 10 t/yr to industrialized areas near the Ural Mountains (27,33). 

This article covers important industrial technologies and the direction of future technological development. The description of alkylation chemistry and conventional alkylation technologies covered in the eadier editions of this Eniyclopedia and other references is minimized (1,2) (see also Eriedel-Crafts reactions). 

Future technology developments in paraffin alkylation will be greatly influenced by environmental considerations. The demand for alkylate product will continue to increase because alkylate is one of the most desirable components in modern low emission gasoline formulations. Increased attention will be focused on improving process safety, reducing waste disposal requirements, and limiting the environmental consequences of any process emissions. 

In addition, new technology developments, such as on-line Raman spectroscopy, x-ray diffraction and gc/lc are under commercialization for the 1990s. 

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