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1 кпд печи
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2 кпд печи
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3 мощность печи
Русско-английский новый политехнический словарь > мощность печи
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4 КПД топки котла
Русско-английский словарь нормативно-технической терминологии > КПД топки котла
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5 кпд печи
кпд печи
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[Я.Н.Лугинский, М.С.Фези-Жилинская, Ю.С.Кабиров. Англо-русский словарь по электротехнике и электроэнергетике, Москва, 1999 г.]Тематики
- электротехника, основные понятия
EN
Русско-английский словарь нормативно-технической терминологии > кпд печи
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6 производительность печи
1) Engineering: furnace performance, furnace throughput, furnaces performance, kiln output2) Construction: kiln efficiency3) Metallurgy: furnace (output) capacity, furnace capacity, furnace effervescive, furnace output, furnace production rate, tonnage of furnace4) Silicates: furnace efficiency, kiln capacity, pullУниверсальный русско-английский словарь > производительность печи
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7 мощность печи
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8 коэффициент полезного действия печи
Engineering: furnace efficiencyУниверсальный русско-английский словарь > коэффициент полезного действия печи
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9 кпд печи
Engineering: furnace efficiency -
10 производительность
bandwidth, (насосной станции, компрессора) discharge, capability, ( насосной станции) dicharge capacity, capacity, delivery, duty, efficiency, actual output, output, performance, power, production, productivity, operating rate, output rate, production rate, throughput rate, rating, throughput, yield* * *производи́тельность ж.
( интенсивность труда) productivity; ( объём производства) output, production; (возможности, потенциал, особенно в процессах, не связанных с изготовлением) capacityпроизводи́тельность вагоноопроки́дывателя — (hourly) car capacity of a car dumperпроизводи́тельность вентиля́тора — capacity [duty] of a fanгодова́я производи́тельность — annual production rateпроизводи́тельность землеро́йного обору́дования — (hourly) output of earth-moving equipmentпроизводи́тельность исто́чника информа́ции — source rateпроизводи́тельность комба́йна по зерну́ — grain output of a harvesterпроизводи́тельность котлоагрега́та — rating of a boiler unitпроизводи́тельность ме́льницы — grinding capacityпроизводи́тельность насо́са — pump capacity, pump delivery; ( за один ход поршня) pump displacementномина́льная производи́тельность — rated capacityосновна́я производи́тельность — basic capacityпроизводи́тельность пе́чи — furnace capacity, furnace output, furnace throughputпроизводи́тельность подъё́ма горн. — hoisting capacityпрое́ктная производи́тельность — design outputсме́нная производи́тельность — output per shiftсре́дняя производи́тельность — average output; average productivityсу́точная производи́тельность — daily output; daily capacityпроизводи́тельность труда́ — labour productivityчасова́я производи́тельность — output per hour, hourly outputРусско-английский политехнический словарь > производительность
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11 продуктивність
жproductivity; productiveness; outpu; efficiencyпродуктивність компресора — compressor discharge, compressor output
продуктивність насоса — pump delivery, discharge rate
продуктивність праці — labour productivity, efficiency of labour
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12 вступать в эксплуатацию
•The system was put into service (or operation) in 1981.
•Mechanical-draft cooling towers first came into use about 55 years ago.
* * *Вступать в строй / эксплуатацию -- to go into operation; to go on stream, to come on stream (обычно о химико-технологическом оборудовании); to come into service; to enter serviceBefore the system can go into operation, it must be authorized by the California Public Utilities Commission.The furnace has operated smoothly since it first went on stream Nov. 6, 1978.The experimental installations entered service in 1974 and performed satisfactorily.Русско-английский научно-технический словарь переводчика > вступать в эксплуатацию
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13 выше
•Efficiency is better than 96% at full load.
•If the pressure is above (or higher than, or over) 3 mm,...
•When heating is continued beyond 1403°C the gamma iron changes to delta iron.
••Temperatures upwards of 50 million degrees are required.
II•In the reactions described above (or in the above-described reactions)...
•The coefficients DAB and DAM employed in the foregoing (or above, or previously) are the common mutual diffusion coefficients.
•Water production above a given point on the river...
* * *Выше -- above, beyond, higher, in excess of, plus, upwardsCooling fans and thermocouple reader were timed to switch on and remain so as long as the furnace temperature was above 100oC.As the heat flux increased beyond this value, additional sites became active.The water-cooled combustor operating with preheated air produces combustion gas products at temperatures in excess of 4600° F.We would like to know if you have done or have contemplated doing any higher speed work (e.g. 10,000 plus rpm). (... например, выше 10 000 об/мин)There is no reason why this type of apparatus should not work at 10,000 rpm and upwards.Выше на (15-25%)-- The measured torque of all the arched bearings was 15 to 25 percent higher in every case than that of the conventional bearing.—выше наРусско-английский научно-технический словарь переводчика > выше
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14 теплотворная способность
1) General subject: calorific capacity, calorific effect, heating value, calorific value (АД)2) Geology: heating capacity3) Medicine: calorific antiserum4) Military: calorific valve, heat of combustion, heat power, heat valve5) Engineering: btu content, caloric power, caloric value, caloricity, calorific efficiency (топлива), calorific power, thermal power6) Construction: heat output, heating power, net calorific power7) Automobile industry: heating effect8) Mining: heat content (горючего)9) Metallurgy: calorific effervescive, heat-producing value10) Oil: calorie power, heat value11) Astronautics: calorimetric value, combustion value12) Mechanics: thermal value13) Cellulose: Furnace Heat Release (теплотворная способность различных типов отходов при их сжигании)14) Power engineering: calorific capacitance15) Makarov: combustion value (топлива)16) Cement: heat absorption capacity, heat capacity, heat storage capacity, heating outputУниверсальный русско-английский словарь > теплотворная способность
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15 удельный съём
1) Engineering: area efficiency (стекломассы)2) Silicates: furnace performance (стекломассы), pull rate (стекломассы) -
16 шахта
1. ж. горн. mine, pit; colliery2. ж. shaft, stack3. ж. trunk4. ж. well5. ж. жарг., радио tubular conductor -
17 экономичность
ж. efficiency, economy; economical operation -
18 Curr, John
[br]b. 1756 Kyo, near Lanchester, or in Greenside, near Ryton-on-Tyne, Durham, Englandd. 27 January 1823 Sheffield, England[br]English coal-mine manager and engineer, inventor of flanged, cast-iron plate rails.[br]The son of a "coal viewer", Curr was brought up in the West Durham colliery district. In 1777 he went to the Duke of Norfolk's collieries at Sheffield, where in 1880 he was appointed Superintendent. There coal was conveyed underground in baskets on sledges: Curr replaced the wicker sledges with wheeled corves, i.e. small four-wheeled wooden wagons, running on "rail-roads" with cast-iron rails and hauled from the coal-face to the shaft bottom by horses. The rails employed hitherto had usually consisted of plates of iron, the flange being on the wheels of the wagon. Curr's new design involved flanges on the rails which guided the vehicles, the wheels of which were unflanged and could run on any hard surface. He appears to have left no precise record of the date that he did this, and surviving records have been interpreted as implying various dates between 1776 and 1787. In 1787 John Buddle paid tribute to the efficiency of the rails of Curr's type, which were first used for surface transport by Joseph Butler in 1788 at his iron furnace at Wingerworth near Chesterfield: their use was then promoted widely by Benjamin Outram, and they were adopted in many other English mines. They proved serviceable until the advent of locomotives demanded different rails.In 1788 Curr also developed a system for drawing a full corve up a mine shaft while lowering an empty one, with guides to separate them. At the surface the corves were automatically emptied by tipplers. Four years later he was awarded a patent for using double ropes for lifting heavier loads. As the weight of the rope itself became a considerable problem with the increasing depth of the shafts, Curr invented the flat hemp rope, patented in 1798, which consisted of several small round ropes stitched together and lapped upon itself in winding. It acted as a counterbalance and led to a reduction in the time and cost of hoisting: at the beginning of a run the loaded rope began to coil upon a small diameter, gradually increasing, while the unloaded rope began to coil off a large diameter, gradually decreasing.Curr's book The Coal Viewer (1797) is the earliest-known engineering work on railway track and it also contains the most elaborate description of a Newcomen pumping engine, at the highest state of its development. He became an acknowledged expert on construction of Newcomen-type atmospheric engines, and in 1792 he established a foundry to make parts for railways and engines.Because of the poor financial results of the Duke of Norfolk's collieries at the end of the century, Curr was dismissed in 1801 despite numerous inventions and improvements which he had introduced. After his dismissal, six more of his patents were concerned with rope-making: the one he gained in 1813 referred to the application of flat ropes to horse-gins and perpendicular drum-shafts of steam engines. Curr also introduced the use of inclined planes, where a descending train of full corves pulled up an empty one, and he was one of the pioneers employing fixed steam engines for hauling. He may have resided in France for some time before his death.[br]Bibliography1788. British patent no. 1,660 (guides in mine shafts).1789. An Account of tin Improved Method of Drawing Coals and Extracting Ores, etc., from Mines, Newcastle upon Tyne.1797. The Coal Viewer and Engine Builder's Practical Companion; reprinted with five plates and an introduction by Charles E.Lee, 1970, London: Frank Cass, and New York: Augustus M.Kelley.1798. British patent no. 2,270 (flat hemp ropes).Further ReadingF.Bland, 1930–1, "John Curr, originator of iron tram roads", Transactions of the Newcomen Society 11:121–30.R.A.Mott, 1969, Tramroads of the eighteenth century and their originator: John Curr', Transactions of the Newcomen Society 42:1–23 (includes corrections to Fred Bland's earlier paper).Charles E.Lee, 1970, introduction to John Curr, The Coal Viewer and Engine Builder's Practical Companion, London: Frank Cass, pp. 1–4; orig. pub. 1797, Sheffield (contains the most comprehensive biographical information).R.Galloway, 1898, Annals of Coalmining, Vol. I, London; reprinted 1971, London (provides a detailed account of Curr's technological alterations).WK / PJGR
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