-
1 flooded condenser
- flooded condenser
- n
Англо-русский строительный словарь. — М.: Русский Язык. С.Н.Корчемкина, С.К.Кашкина, С.В.Курбатова. 1995.
Англо-русский словарь строительных терминов > flooded condenser
-
2 flooded condenser
Большой англо-русский и русско-английский словарь > flooded condenser
-
3 flooded condenser
Англо-русский словарь технических терминов > flooded condenser
-
4 flooded condenser
Техника: затопленный конденсатор -
5 flooded condenser
skraplacz zanurzony -
6 flooded condenser
-
7 flooded condenser
-
8 condenser
- condenser
- nконденсатор
- air-cooled condenser
- atmospheric condenser
- bleeder-type condenser
- cascade condenser
- double-bundle condenser
- double-pipe condenser
- evaporative condenser
- flooded condenser
- forced draught condenser
- natural convection air-cooled condenser
- plate-type condenser
- remote condenser
- shell-and-coil condenser
- shell-and-tube condenser
- sprayed coil condenser
- submerged coil condenser
- surface condenser
- tube-in-tube condenser
- water cooled condenser
Англо-русский строительный словарь. — М.: Русский Язык. С.Н.Корчемкина, С.К.Кашкина, С.В.Курбатова. 1995.
-
9 condenser
1) конденсатор, хим. тж. холодильник2) эл. конденсатор (см. тж.
capacitor)4) хол. испаритель5) компрессор•-
aerial condenser
-
air-and-water condenser
-
air-cooled condenser
-
antiinterference condenser
-
atmospheric condenser
-
backflow condenser
-
barometric jet condenser
-
bleeder-type condenser
-
bubbler condenser
-
cascade condenser
-
closed shell-and-tube condenser
-
co-current condenser
-
coil condenser
-
coil-in-box condenser
-
contact condenser
-
countercurrent condenser
-
direct-contact condenser
-
double-circuit condenser
-
double-pipe condenser
-
dry condenser
-
dump condenser
-
economizer condenser
-
electrolytic condenser
-
elevated jet condenser
-
evaporative condenser
-
evaporative surface condenser
-
exhaust-steam condenser
-
feedback condenser
-
final condenser
-
finned-conduit condenser
-
flooded condenser
-
gland steam condenser
-
gravity air-circulation condenser
-
heat sink condenser
-
hot reflux condenser
-
ice condenser
-
immersed condenser
-
indirect condenser
-
injector condenser
-
inner-fin condenser
-
in-tube condenser
-
jet condenser
-
low level jet condenser
-
low-temperature condenser
-
main condenser
-
marine condenser
-
mesh condenser
-
mica condenser
-
mixing condenser
-
multicircuit condenser
-
multipass condenser
-
multitube condenser
-
nuclear steam condenser
-
open shell-and-tube condenser
-
overhead condenser
-
parallel-flow condenser
-
partial condenser
-
plate fin condenser
-
power condenser
-
recombiner condenser
-
reflux condenser
-
refrigeration condenser
-
roll condenser
-
rotary condenser
-
scrap condenser
-
sea-water cooled condenser
-
shell-and-coil condenser
-
shortening condenser
-
side-entry condenser
-
single-pass condenser
-
single-shell condenser
-
split condenser
-
spray condenser
-
steam condenser
-
steam-and-solvent condenser
-
steam-jet condenser
-
steam-turbine condenser
-
storage condenser
-
subcooling condenser
-
submerged coil condenser
-
submerged condenser
-
surface condenser
-
tar condenser
-
three-gang tuning condenser
-
three-gang condenser
-
total condenser
-
tube-on-sheet condenser
-
tubular condenser
-
two-pass condenser
-
unit condenser
-
vacuum condenser
-
vent condenser
-
water tube gas condenser
-
water-cooled condenser
-
water-jet condenser
-
wet condenser -
10 condenser
конденсатор- air-cooled condenser
- atmospheric condenser
- bleeder-type condenser
- cascade condenser
- double-bundle condenser
- double-pipe condenser
- evaporative condenser
- flooded condenser
- forced draught condenser
- natural convection air-cooled condenser
- plate-type condenser
- remote condenser
- shell-and-coil condenser
- shell-and-tube condenser
- sprayed coil condenser
- submerged coil condenser
- surface condenser
- tube-in-tube condenser
- water cooled condenser -
11 flooded
переполненный (картер, карбюратор); затопленный; заводнённый; наводнённый- flooded conduit - flooded coolant - flooded coolant spindle - flooded coolant tool - flooded culture - flooded electrolyte - flooded lubrication - flooded refrigeration system -
12 затопленный конденсатор
Большой англо-русский и русско-английский словарь > затопленный конденсатор
-
13 затопленный конденсатор
Англо-русский словарь технических терминов > затопленный конденсатор
-
14 затопленный конденсатор
Русско-английский политехнический словарь > затопленный конденсатор
-
15 skraplacz zanurzony
• flooded condenser• submerged coil condenserSłownik polsko-angielski dla inżynierów > skraplacz zanurzony
-
16 затопленный конденсатор
1) Engineering: flooded condenser2) Makarov: submerged coil condenserУниверсальный русско-английский словарь > затопленный конденсатор
-
17 Trevithick, Richard
[br]b. 13 April 1771 Illogan, Cornwall, Englandd. 22 April 1833 Dartford, Kent, England[br]English engineer, pioneer of non-condensing steam-engines; designed and built the first locomotives.[br]Trevithick's father was a tin-mine manager, and Trevithick himself, after limited formal education, developed his immense engineering talent among local mining machinery and steam-engines and found employment as a mining engineer. Tall, strong and high-spirited, he was the eternal optimist.About 1797 it occurred to him that the separate condenser patent of James Watt could be avoided by employing "strong steam", that is steam at pressures substantially greater than atmospheric, to drive steam-engines: after use, steam could be exhausted to the atmosphere and the condenser eliminated. His first winding engine on this principle came into use in 1799, and subsequently such engines were widely used. To produce high-pressure steam, a stronger boiler was needed than the boilers then in use, in which the pressure vessel was mounted upon masonry above the fire: Trevithick designed the cylindrical boiler, with furnace tube within, from which the Cornish and later the Lancashire boilers evolved.Simultaneously he realized that high-pressure steam enabled a compact steam-engine/boiler unit to be built: typically, the Trevithick engine comprised a cylindrical boiler with return firetube, and a cylinder recessed into the boiler. No beam intervened between connecting rod and crank. A master patent was taken out.Such an engine was well suited to driving vehicles. Trevithick built his first steam-carriage in 1801, but after a few days' use it overturned on a rough Cornish road and was damaged beyond repair by fire. Nevertheless, it had been the first self-propelled vehicle successfully to carry passengers. His second steam-carriage was driven about the streets of London in 1803, even more successfully; however, it aroused no commercial interest. Meanwhile the Coalbrookdale Company had started to build a locomotive incorporating a Trevithick engine for its tramroads, though little is known of the outcome; however, Samuel Homfray's ironworks at Penydarren, South Wales, was already building engines to Trevithick's design, and in 1804 Trevithick built one there as a locomotive for the Penydarren Tramroad. In this, and in the London steam-carriage, exhaust steam was turned up the chimney to draw the fire. On 21 February the locomotive hauled five wagons with 10 tons of iron and seventy men for 9 miles (14 km): it was the first successful railway locomotive.Again, there was no commercial interest, although Trevithick now had nearly fifty stationary engines completed or being built to his design under licence. He experimented with one to power a barge on the Severn and used one to power a dredger on the Thames. He became Engineer to a project to drive a tunnel beneath the Thames at Rotherhithe and was only narrowly defeated, by quicksands. Trevithick then set up, in 1808, a circular tramroad track in London and upon it demonstrated to the admission-fee-paying public the locomotive Catch me who can, built to his design by John Hazledine and J.U. Rastrick.In 1809, by which date Trevithick had sold all his interest in the steam-engine patent, he and Robert Dickinson, in partnership, obtained a patent for iron tanks to hold liquid cargo in ships, replacing the wooden casks then used, and started to manufacture them. In 1810, however, he was taken seriously ill with typhus for six months and had to return to Cornwall, and early in 1811 the partners were bankrupt; Trevithick was discharged from bankruptcy only in 1814.In the meantime he continued as a steam engineer and produced a single-acting steam engine in which the cut-off could be varied to work the engine expansively by way of a three-way cock actuated by a cam. Then, in 1813, Trevithick was approached by a representative of a company set up to drain the rich but flooded silver-mines at Cerro de Pasco, Peru, at an altitude of 14,000 ft (4,300 m). Low-pressure steam engines, dependent largely upon atmospheric pressure, would not work at such an altitude, but Trevithick's high-pressure engines would. Nine engines and much other mining plant were built by Hazledine and Rastrick and despatched to Peru in 1814, and Trevithick himself followed two years later. However, the war of independence was taking place in Peru, then a Spanish colony, and no sooner had Trevithick, after immense difficulties, put everything in order at the mines then rebels arrived and broke up the machinery, for they saw the mines as a source of supply for the Spanish forces. It was only after innumerable further adventures, during which he encountered and was assisted financially by Robert Stephenson, that Trevithick eventually arrived home in Cornwall in 1827, penniless.He petitioned Parliament for a grant in recognition of his improvements to steam-engines and boilers, without success. He was as inventive as ever though: he proposed a hydraulic power transmission system; he was consulted over steam engines for land drainage in Holland; and he suggested a 1,000 ft (305 m) high tower of gilded cast iron to commemorate the Reform Act of 1832. While working on steam propulsion of ships in 1833, he caught pneumonia, from which he died.[br]BibliographyTrevithick took out fourteen patents, solely or in partnership, of which the most important are: 1802, Construction of Steam Engines, British patent no. 2,599. 1808, Stowing Ships' Cargoes, British patent no. 3,172.Further ReadingH.W.Dickinson and A.Titley, 1934, Richard Trevithick. The Engineer and the Man, Cambridge; F.Trevithick, 1872, Life of Richard Trevithick, London (these two are the principal biographies).E.A.Forward, 1952, "Links in the history of the locomotive", The Engineer (22 February), 226 (considers the case for the Coalbrookdale locomotive of 1802).See also: Blenkinsop, JohnPJGR
См. также в других словарях:
flooded condenser — paneriamasis aušintuvas statusas T sritis Standartizacija ir metrologija apibrėžtis Į aušinamą skystį panardintas vamzdis, kuriuo teka šaltas skystis. atitikmenys: angl. flooded condenser vok. Tauchkühler, m rus. поргужной охладитель, m;… … Penkiakalbis aiškinamasis metrologijos terminų žodynas
flooded condenser — paneriamasis aušintuvas statusas T sritis chemija apibrėžtis Į aušinamą skystį panardintas vamzdis, kuriuo teka šaltas skystis. atitikmenys: angl. flooded condenser rus. погружной холодильник … Chemijos terminų aiškinamasis žodynas
Tauchkühler — paneriamasis aušintuvas statusas T sritis Standartizacija ir metrologija apibrėžtis Į aušinamą skystį panardintas vamzdis, kuriuo teka šaltas skystis. atitikmenys: angl. flooded condenser vok. Tauchkühler, m rus. поргужной охладитель, m;… … Penkiakalbis aiškinamasis metrologijos terminų žodynas
paneriamasis aušintuvas — statusas T sritis Standartizacija ir metrologija apibrėžtis Į aušinamą skystį panardintas vamzdis, kuriuo teka šaltas skystis. atitikmenys: angl. flooded condenser vok. Tauchkühler, m rus. поргужной охладитель, m; поргужной холодильник, m pranc.… … Penkiakalbis aiškinamasis metrologijos terminų žodynas
refroidisseur à immersion — paneriamasis aušintuvas statusas T sritis Standartizacija ir metrologija apibrėžtis Į aušinamą skystį panardintas vamzdis, kuriuo teka šaltas skystis. atitikmenys: angl. flooded condenser vok. Tauchkühler, m rus. поргужной охладитель, m;… … Penkiakalbis aiškinamasis metrologijos terminų žodynas
поргужной охладитель — paneriamasis aušintuvas statusas T sritis Standartizacija ir metrologija apibrėžtis Į aušinamą skystį panardintas vamzdis, kuriuo teka šaltas skystis. atitikmenys: angl. flooded condenser vok. Tauchkühler, m rus. поргужной охладитель, m;… … Penkiakalbis aiškinamasis metrologijos terminų žodynas
поргужной холодильник — paneriamasis aušintuvas statusas T sritis Standartizacija ir metrologija apibrėžtis Į aušinamą skystį panardintas vamzdis, kuriuo teka šaltas skystis. atitikmenys: angl. flooded condenser vok. Tauchkühler, m rus. поргужной охладитель, m;… … Penkiakalbis aiškinamasis metrologijos terminų žodynas
paneriamasis aušintuvas — statusas T sritis chemija apibrėžtis Į aušinamą skystį panardintas vamzdis, kuriuo teka šaltas skystis. atitikmenys: angl. flooded condenser rus. погружной холодильник … Chemijos terminų aiškinamasis žodynas
погружной холодильник — paneriamasis aušintuvas statusas T sritis chemija apibrėžtis Į aušinamą skystį panardintas vamzdis, kuriuo teka šaltas skystis. atitikmenys: angl. flooded condenser rus. погружной холодильник … Chemijos terminų aiškinamasis žodynas
technology, history of — Introduction the development over time of systematic techniques for making and doing things. The term technology, a combination of the Greek technē, “art, craft,” with logos, “word, speech,” meant in Greece a discourse on the arts, both… … Universalium
Entrainment (hydrodynamics) — See entrainment for other types. Entrainment is the movement of one fluid by another.One fluid moving in another can push or pull the other along with it. Eductors or eductor jet pumps are an excellent example. They are used onboard many ships to … Wikipedia