industry-wide basis

industry-wide basis

Экономика: общеотраслевая основа

industry-wide basis

общеотраслевая основа

basis

1) базис; основа; база; основание

2) бирж. разница между ценой по сделке на наличный товар и ценой по сделке на срок

3) бирж. базисный сорт, базис

4) опорный план (в задаче линейного программирования)

- on a basinwide basis

- on a commission basis

- on a delivered basis

- on a firm fixed price basis

- on a fiscal basis

- on an ex-works basis

- on a nonrecourse basis

- on a toll basis

- on clean basis

- on dry basis

- on edible weight basis

- on gross basis

- on milk fat basis

- on parity basis

- on scoured basis

- sell on "open book" basis

- accrued-expenditures basis

- annual basis

- cash basis

- contract basis

- cost basis of accounting

- cost-of service basis

- direct labor cost basis

- direct labor hours basis

- direct materials cost basis

- dollar basis of apportionment

- employment basis

- group basis

- industry-wide basis

- job basis

- monthly salary basis

- most favored nation basis

- paper basis

- piece-rate basis

- plant-food basis

- production-type basis

- pro rata ton and ton-mile basis

- rate basis

- sample basis

- tax basis

- time-rate basis

- total basis of all assets

- unit basis

общеотраслевая основа

industry-wide basis, industrywide basis

e-marketplace

E-com

an Internet-based environment that brings together businessto-business buyers and sellers so that they can trade more efficiently online.

     The key benefits for users of an emarketplace are reduced purchasing costs, greater flexibility, saved time, better information, and better collaboration. However, the drawbacks include costs in changing procurement processes, cost of applications, setup, and integration with internal systems, and transaction/subscription fees.

     There are three distinct types of emarketplace: independent, in which public environments seek simply to attract buyers and sellers to trade together; consortiumbased, in which sites are set up on an industry-wide basis, typically when a number of key buyers in a particular industry get together; and private, in which emarketplaces are established by a particular organization to manage its purchasing alone.

Song Yingxing (Sung Ying-Hsing)

SUBJECT AREA: Agricultural and food technology, Metallurgy, Paper and printing, Textiles

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b. 1600 China

d. c. 1650

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Chinese writer on technology and industry.

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Song was an outstanding encyclopedist in the field of technology and industrial processes. He produced the Tian Gong Kai Wu (The Exploitation of the Works of Nature) of 1637, China's greatest technological classic, which dealt with agriculture and industry rather than engineering. It covered a wide range of subjects, including hydraulic devices and irrigation, silk and other textiles, salt and sugar technology, ceramics, pearls and jade, papermaking and ink, metallurgy of iron, bronze, silver, tin and lead, and transport. The work incorporated the finest Chinese illustrations on these subjects. Strangely, it fell into obscurity and it was a copy preserved in Japan that became the basis for later editions.

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Bibliography

1637, Tian Gong Kai Wu.

Further Reading

J.Needham, Science and Civilisation in China, Cambridge: Cambridge University Press, 1965–86, Vols IV.2, pp. 171–2, 559; IV.3, many scattered references for it is an essential source of information about Chinese technology.

LRD

Dow, Herbert Henry

SUBJECT AREA: Metallurgy

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b. 26 February 1866 Belleville, Ontario, Canada

d. 15 October 1930 Rochester, Minnesota, USA

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American industrial chemist, pioneer manufacturer of magnesium alloys.

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Of New England ancestry, his family returned there soon after his birth and later moved to Cleveland, Ohio. In 1884, Dow entered the Case School of Applied Science, graduating in science four years later. His thesis dealt partly with the brines of Ohio, and he was persuaded to present a paper on brine to the meeting of the American Association for he Advancement of Science being held in Cleveland the same year. That entailed visits to collect samples of brines from various localities, and led to the observation that their composition varied, one having a higher lithium content while another was richer in bromine. This study of brines proved to be the basis for his career in industrial chemistry. In 1888 Dow was appointed Professor of Chemistry at the Homeopathic Hospital College in Cleveland, but he continued to work on brine, obtaining a patent in the same year for extracting bromine by blowing air through slightly electrolysed brine. He set up a small company to exploit the process, but it failed; the process was taken up and successfully worked by the Midland Chemical Company in Midland, Michigan. The electrolysis required a direct-current generator which, when it was installed in 1892, was probably the first of its kind in America. Dow next set up a company to produce chlorine by the electrolysis of brine. It moved to Midland in 1896, and the Dow Central Company purchased the Midland Chemical Company in 1900. Its main concern was the manufacture of bleaching powder, but the company continued to grow, based on Dow's steady development of chemical compounds that could be derived from brines. His search for further applications of chlorine led to the making of insecticides and an interest in horticulture. Meanwhile, his experience at the Homeopathic Hospital doubtless fired an interest in pharmaceuticals. One of the substances found in brine was magnesium chloride, and by 1918 magnesium metal was being produced on a small scale by electrolysis. An intensive study of its alloys followed, leading to the large-scale production of these important light-metal alloys, under the name of Dowmetals. Two other "firsts" achieved by the company were the synthetic indigo process and the production of the element iodine in the USA. The Dow company became one of the leading chemical manufacturers in the USA, and at the same time Dow played an active part in public life, serving on many public and education boards.

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Principal Honours and Distinctions

Society of Chemical Industry Perkin Medal 1930.

Bibliography

Dow was granted 65 patents for a wide range of chemical processes.

Further Reading

Obituary, 1930, Ind. Eng. Chem. (October).

"The Dow Chemical Company", 1925, Ind. Eng. Chem. (September)

LRD

Tesla, Nikola

SUBJECT AREA: Electricity

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b. 9 July 1856 Smiljan, Croatia

d. 7 January 1943 New York, USA

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Serbian (naturalized American) engineer and inventor of polyphase electrical power systems.

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While at the technical institute in Graz, Austria, Tesla's attention was drawn to the desirability of constructing a motor without a commutator. He considered the sparking between the commutator and brushes of the Gramme machine when run as a motor a serious defect. In 1881 he went to Budapest to work on the telegraph system and while there conceived the principle of the rotating magnetic field, upon which all polyphase induction motors are based. In 1882 Tesla moved to Paris and joined the Continental Edison Company. After building a prototype of his motor he emigrated to the United States in 1884, becoming an American citizen in 1889. He left Edison and founded an independent concern, the Tesla Electric Company, to develop his inventions.

The importance of Tesla's first patents, granted in 1888 for alternating-current machines, cannot be over-emphasized. They covered a complete polyphase system including an alternator and induction motor. Other patents included the polyphase transformer, synchronous motor and the star connection of three-phase machines. These were to become the basis of the whole of the modern electric power industry. The Westinghouse company purchased the patents and marketed Tesla motors, obtaining in 1893 the contract for the Niagara Falls two-phase alternators driven by 5,000 hp (3,700 kW) water turbines.

After a short period with Westinghouse, Tesla resigned to continue his research into high-frequency and high-voltage phenomena using the Tesla coil, an air-cored transformer. He lectured in America and Europe on his high-frequency devices, enjoying a considerable international reputation. The name "tesla" has been given to the SI unit of magnetic-flux density. The induction motor became one of the greatest advances in the industrial application of electricity. A claim for priority of invention of the induction motor was made by protagonists of Galileo Ferraris (1847–1897), whose discovery of rotating magnetic fields produced by alternating currents was made independently of Tesla's. Ferraris demonstrated the phenomenon but neglected its exploitation to produce a practical motor. Tesla himself failed to reap more than a small return on his work and later became more interested in scientific achievement than commercial success, with his patents being infringed on a wide scale.

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Principal Honours and Distinctions

American Institute of Electrical Engineers Edison Medal 1917. Tesla received doctorates from fourteen universities.

Bibliography

1 May 1888, American patent no. 381,968 (initial patent for the three-phase induction motor).

1956, Nikola Tesla, 1856–1943, Lectures, Patents, Articles, ed. L.I.Anderson, Belgrade (selected works, in English).

1977, My Inventions, repub. Zagreb (autobiography).

Further Reading

M.Cheney, 1981, Tesla: Man Out of Time, New Jersey (a full biography). C.Mackechnie Jarvis, 1969, in IEE Electronics and Power 15:436–40 (a brief treatment).

T.C.Martin, 1894, The Inventions, Researches and Writings of Nikola Tesla, New York (covers his early work on polyphase systems).

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