-
1 superheated area
область перегрева
—
[Я.Н.Лугинский, М.С.Фези-Жилинская, Ю.С.Кабиров. Англо-русский словарь по электротехнике и электроэнергетике, Москва, 1999]Тематики
- электротехника, основные понятия
EN
область перегретого пара
—
[Я.Н.Лугинский, М.С.Фези-Жилинская, Ю.С.Кабиров. Англо-русский словарь по электротехнике и электроэнергетике, Москва, 1999]Тематики
- электротехника, основные понятия
EN
Англо-русский словарь нормативно-технической терминологии > superheated area
-
2 superheated area
English-Russian dictionary on nuclear energy > superheated area
-
3 superheated area
Большой англо-русский и русско-английский словарь > superheated area
-
4 superheated area
Англо-русский словарь технических терминов > superheated area
-
5 superheated area
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6 superheated area
Англо-русский словарь по электроэнергетике > superheated area
-
7 area
1) площадь; пространство3) поверхность4) (производственный) участок; помещение; площадка5) рабочая ячейка ( склада)•equal in area — равновеликий;area of base — площадь основания, площадь подошвы фундаментаarea of bearing — 1. площадь опоры 2. строит. площадка опиранияarea of contact — площадь поверхности контактаarea of diagram — площадь эпюры; площадь графикаarea of fracture — 1. поверхность излома 2. площадь поперечного сечения в месте разрушенияarea of occurrence — возд. район происшествияarea of water section — гидр. площадь живого сечения потокаarea of well influence — зона влияния колодца или скважины-
absorption area
-
active area
-
actual contact area
-
actuating area
-
actuation probability area
-
addressable area
-
adjustment control area
-
advisory area
-
air intake hazard area
-
aircraft parking area
-
airflow separation area
-
airport construction area
-
airport prohibited area
-
airport service area
-
air-route area
-
alighting area
-
alloy storage area
-
annulus area
-
antenna effective area
-
antenna area
-
antinode area
-
aperture area
-
approach area
-
ash-disposal area
-
auditory area
-
backwater area
-
bare area
-
base area
-
bearing surface area
-
binding area
-
blade area
-
blade-exit area
-
blind area
-
blind drainage area
-
boarding area
-
bolted area
-
bonding area
-
bond area
-
bore area
-
bubble-melt surface area
-
buffer area
-
building area
-
built-up area
-
burning area
-
catalyst surface area
-
catchment area
-
caved area
-
central equipment area
-
centralized telecine area
-
centralized traffic area
-
centralized video tape area
-
charge-makeup area
-
charging area
-
chip area
-
choke-tube area
-
circling approach area
-
clean processing area
-
clearance area
-
climb-out area
-
clinch area
-
coal area
-
coherence area
-
cold area
-
commanded area
-
common area
-
compression area
-
concrete area
-
cone effect area
-
congested area
-
connector area
-
conservation area
-
constant area
-
contact area
-
contact spot area
-
contaminated area
-
contamination control area
-
contiguous area
-
contour area of contact
-
control area
-
controlled access area
-
cooling area
-
corrosion area
-
coverage area
-
crimp area
-
critical area
-
cross-sectional area
-
cross-section area
-
cutting area
-
cylinder annular area
-
dangerous area
-
data-rich area
-
data-sparse area
-
data-void area
-
decontamination area
-
demixing area
-
design wing area
-
developed area
-
developed blade area
-
development area
-
die attach area
-
diked area
-
direct transit area
-
discharge area
-
display area
-
disposal area
-
dot area
-
downstream area
-
drainage area
-
drainless area
-
dry area
-
dynamic area
-
echoing area
-
echo area
-
effective area
-
effective braking area
-
effective cross-sectional area
-
effective cross-section area
-
effective screening area
-
effects area
-
electrical contact area
-
electroded area
-
elemental area
-
enclosed working area
-
end safety area
-
engineering area
-
environmentally fragile area
-
exchange area
-
exclusion area
-
exhaust area
-
expanded blade area
-
expanded area
-
exposure area
-
face area
-
fan blast area
-
felling area
-
fenced-off area
-
fetch area
-
fill area
-
film-editing area
-
filter effective area
-
filter open area
-
filtering area
-
finished-products storage area
-
fixed area
-
flame area
-
flooded area
-
flood-free area
-
flooding area
-
floor area
-
flow area
-
focus area
-
forbidden area
-
free-surface area
-
fringe area
-
functional area
-
furnace area
-
fusing area
-
fusion area
-
gases shear area
-
gasket surface area
-
gassy area
-
gathering area
-
gob area
-
graticule area
-
gray-scale picture area
-
gross cross-sectional area
-
gross cross-section area
-
gross irrigable area
-
ground contact area
-
gutter area
-
hard-core area
-
hard-to-reach area
-
hearth area
-
heat dissipation area
-
heat-affected area
-
heating area
-
heat-transfer area
-
high-activity area
-
high-beat area
-
high-radiation area
-
holding area
-
hot area
-
housing area
-
illuminated area
-
image area
-
impact area
-
impression area
-
inactive area
-
ingot-stripping area
-
input area
-
instantaneous area of flame front
-
instruction area
-
intended landing area
-
interfacial area
-
interference area
-
interlocking area
-
inundated area
-
junction area
-
knuckle area
-
land area
-
landing area
-
lateral area
-
lift irrigation area
-
lift-off area
-
link overlapped area
-
living area
-
living floor area
-
load-and-unload area
-
load-carrying area
-
loading area
-
loadout area
-
localized areas of wear
-
low-radiation area
-
makeup area
-
maneuvering area
-
man-impacted area
-
manned area
-
manual setting-up area
-
melting area
-
mesa area
-
metropolitan area
-
mining area
-
mirror area
-
mold conditioning area
-
mold opening area
-
moment area
-
movement area
-
mush area
-
natural area
-
net cross-sectional area
-
net cross-section area
-
neutron migration area
-
nominal contact area
-
noncontact area
-
nonimage area
-
nonmoving area
-
nonoccupied area
-
nonprinting area
-
nonstorage area
-
nonutilizable area
-
normally occupied area
-
nose area
-
nuclear area
-
numbering area
-
obstructed landing area
-
open area
-
open flow area
-
outgassed area
-
output area
-
overrun safety area
-
pallet area
-
patch area
-
pattern area
-
payable area
-
percent shear area
-
personnel and utility area
-
phosphor area
-
photolithographic area
-
picture area
-
poor-reception area
-
port area
-
presentation area
-
pressing area
-
prewarming area
-
primary area
-
primary service area
-
printing area
-
production area
-
production control area
-
programmed operating area
-
prohibited area
-
projectedblade area
-
projected area
-
propeller disk area
-
protected area
-
quality-control area
-
quality area
-
quench area
-
quiet area
-
radar area
-
radiation-control area
-
real area of contact
-
recording area
-
record area
-
refining area
-
regeneration area
-
reinforcing steel area
-
rerecording area
-
reservoir surface area
-
reservoir area
-
residential area
-
resident area
-
residential floor area
-
restricted area
-
retarder area
-
rig deck area
-
risk area
-
robot area
-
roof contact area
-
rubbing path area
-
rudder area
-
run-up area
-
rural area
-
safe operating area
-
safety area
-
sail area
-
save area
-
scanned area
-
scrap-consuming area
-
scrap-disposal area
-
scrap-grading area
-
scratch area
-
screen area
-
sealing area
-
seal area
-
search area
-
secondary area
-
sectional area
-
section area
-
seeking area
-
segregated area
-
service area
-
serviceable area
-
setting-up area
-
shaded area
-
shadow area
-
shareable area
-
shoe pad transition area
-
shooting area
-
sintering area
-
site area
-
skip area
-
slag-line area
-
slot area
-
slowing-down area of neutron
-
snow-covered area
-
solid area
-
sound area
-
sound-track area
-
special work permit area
-
specific floor area
-
specific surface area
-
spliced area
-
spoil area
-
stack area
-
stockline area
-
stool conditioning area
-
storage area
-
stripped area
-
subsidence area
-
superheated area
-
surface area
-
switching area
-
takeoff area
-
takeoff flight path area
-
tape area
-
taphole area
-
target area
-
technical-equipment area
-
technical area
-
telecine area
-
tension area
-
terminal area
-
terminal control area
-
test area
-
throat area
-
tongs area of pipe
-
tool service area
-
tool-presetting area
-
total area
-
total irrigation area
-
total tuyere area
-
transient area
-
turnaround area
-
tuyere area
-
type area
-
unattacked area
-
undershoot area
-
ungaged area
-
uniform area
-
unobstructed landing area
-
upstream area
-
urban area
-
usable area
-
user area
-
valve fillet area
-
valve seating face area
-
video tape recording area
-
video tape area
-
viewing area
-
vision control area
-
vulnerable area
-
waste area
-
waste-metal area
-
waste-storage area
-
water catchment area
-
waterplane area
-
water-surface area
-
wear track area
-
weld metal area
-
well drainage area
-
wellhead area
-
wetted area
-
wildlife area
-
window area
-
worked-out area
-
working area
-
yard area
-
yoke area -
8 зона перегрева
Большой англо-русский и русско-английский словарь > зона перегрева
-
9 зона перегрева
-
10 зона перегрева
-
11 область перегрева
Русско-английский словарь по электроэнергетике > область перегрева
-
12 область перегрева
область перегрева
—
[Я.Н.Лугинский, М.С.Фези-Жилинская, Ю.С.Кабиров. Англо-русский словарь по электротехнике и электроэнергетике, Москва, 1999]Тематики
- электротехника, основные понятия
EN
Русско-английский словарь нормативно-технической терминологии > область перегрева
-
13 область перегретого пара
область перегретого пара
—
[Я.Н.Лугинский, М.С.Фези-Жилинская, Ю.С.Кабиров. Англо-русский словарь по электротехнике и электроэнергетике, Москва, 1999]Тематики
- электротехника, основные понятия
EN
Русско-английский словарь нормативно-технической терминологии > область перегретого пара
-
14 область перегретого пара
1) General subject: superheated vapor region2) Engineering: superheated areaУниверсальный русско-английский словарь > область перегретого пара
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15 зона перегрева
1) Engineering: superheated area2) Coolers: superheat region, superheat zone -
16 область перегрева
Engineering: superheated area -
17 Schmidt, Wilhelm
[br]b. 18 February 1858 Wegeleben, Saxony, Germanyd. 16 February 1924 Bethel, Westphalia, Germany[br]German engineer, inventor of an effective means of superheating steam in locomotive boilers.[br]Schmidt was educated at Dresden Technical High School and worked as an assistant to a locksmith. He experimented with steam engines worked at extremely high pressures and developed ideas for using superheated steam. Two early types of locomotive superheater that he designed were tried out in Prussia in the late 1890s, but his firetube type, which was eventually successful, was first used in Belgium in 1901. Within ten years of its introduction, superheating using Schmidt-type superheaters was standard practice on large locomotives worldwide.In the superheater, steam from the boiler is passed through tubular elements within the firetubes before passing to the cylinders. This raises the steam's temperature without increasing its pressure: advantages of doing so include increasing the volume of steam produced and reducing condensation in the cylinders, with consequent economies of fuel and water. Schmidt superheaters were first used in Britain in 1906 by George Hughes, Locomotive Superintendent of the Lancashire \& Yorkshire Railway, on two goods locomotives, and then by D.Earle Marsh on the London Brighton \& South Coast Railway; hefitted them to 4–4–2 express tank locomotives in 1908. These were conspicuously successful in comparative trials with equivalent non-superheated locomotives from the London \& North Western Railway.[br]Further ReadingJ.Marshall, 1978, A Biographical Dictionary of Railway Engineers, Newton Abbot: David \& Charles.P.Ransome-Wallis (ed.), 1959, The Concise Encyclopaedia of World Railway Locomotives, London: Hutchinson, p. 501 (with references to superheaters, pp. 286, 392–4).C.Hamilton Ellis, 1959, British Railway History, Vol. II: 1877–1947, George Allen \& Unwin, pp. 268–71 (for the introduction of superheating to Britain).PJGR -
18 Reynolds, Edwin
[br]b. 1831 Mansfield, Connecticut, USAd. 1909 Milwaukee, Wisconsin, USA[br]American contributor to the development of the Corliss valve steam engine, including the "Manhattan" layout.[br]Edwin Reynolds grew up at a time when formal engineering education in America was almost unavailable, but through his genius and his experience working under such masters as G.H. Corliss and William Wright, he developed into one of the best mechanical engineers in the country. When he was Plant Superintendent for the Corliss Steam Engine Company, he built the giant Corliss valve steam engine displayed at the 1876 Centennial Exhibition. In July 1877 he left the Corliss Steam Engine Company to join Edward Allis at his Reliance Works, although he was offered a lower salary. In 1861 Allis had moved his business to the Menomonee Valley, where he had the largest foundry in the area. Immediately on his arrival with Allis, Reynolds began desig-ning and building the "Reliance-Corliss" engine, which becamea symbol of simplicity, economy and reliability. By early 1878 the new engine was so successful that the firm had a six-month backlog of orders. In 1888 he built the first triple-expansion waterworks-pumping engine in the United States for the city of Milwaukee, and in the same year he patented a new design of blowing engine for blast furnaces. He followed this in March 1892 with the first steam engine sets coupled directly to electric generators when Allis-Chalmers contracted to build two Corliss cross-compound engines for the Narragansett Light Company of Providence, Rhode Island. In 1893, one of the impressive attractions at the World's Columbian Exposition in Chicago was the 3,000 hp (2,200 kW) quadruple-expansion Reynolds-Corliss engine designed by Reynolds, who continued to make significant improvements and gained worldwide recognition of his outstanding achievements in engine building.Reynolds was asked to go to New York in 1898 for consultation about some high-horsepower engines for the Manhattan transport system. There, 225 railway locomotives were to be replaced by electric trains, which would be supplied from one generating station producing 60,000 hp (45,000 kW). Reynolds sketched out his ideas for 10,000 hp (7,500 kW) engines while on the train. Because space was limited, he suggested a four-cylinder design with two horizontal-high-pressure cylinders and two vertical, low-pressure ones. One cylinder of each type was placed on each side of the flywheel generator, which with cranks at 135° gave an exceptionally smooth-running compact engine known as the "Manhattan". A further nine similar engines that were superheated and generated three-phase current were supplied in 1902 to the New York Interborough Rapid Transit Company. These were the largest reciprocating steam engines built for use on land, and a few smaller ones with a similar layout were installed in British textile mills.[br]Further ReadingConcise Dictionary of American Biography, 1964, New York: C.Scribner's Sons (contains a brief biography).R.L.Hills, 1989, Power from Steam. A History of the Stationary Steam Engine, Cambridge University Press (provides a brief account of the Manhattan engines) Part of the information for this biography is derived from a typescript in the Smithsonian Institution, Washington, DC: T.H.Fehring, "Technological contributions of Milwaukee's Menomonee Valley industries".RLH -
19 water
1) вода
2) водовозный
3) водоналивный
4) водоперепускный
5) водоподпорный
6) водопонижающий
7) водоприемный
8) водоуказательный
9) водоумягчающий
10) водоумягчительный
11) водяной
12) муарировать
13) споить
14) ватерный
15) водный
16) гидравлический
17) мочить
18) смачивать
– abrasive water
– acidic water
– activated water
– adsorbed water
– adsorption water
– aerated water
– aggressive water
– alkaline water
– ammonia water
– bath water
– bilge water
– boiler water
– bound water
– capillary water
– chemistry of water
– chlorinated water
– circulating water
– clarified water
– clarify water
– condition water
– crystal water
– deaerated water
– demineralized water
– deposit water
– depth water
– desalinate water
– desalinated water
– desalted water
– disinfection of water
– drain water
– drainage water
– edge water
– elevation of water
– entrapped water
– feed water
– film water
– free water
– hardness of water
– head water
– heating-system water
– heavy water
– high water
– hydration water
– impounded water
– industrial water
– infiltration water
– inject water
– interstitial water
– lay a cable in water
– light water
– lime water
– low water
– low water level
– low water line
– make-up water
– meteoric water
– millimeter of water
– mine water
– mineral water
– mineralized water
– natural water
– polluted water
– potable water
– power water
– pressure water
– process water
– pump out the water
– pure water
– purified water
– reclaimed water
– return water
– rinsing water
– running water
– seepage water
– settle water
– settling-vat water
– shield water
– ship by water
– shrinkage water
– soften water
– softened water
– soil water
– stagnant water
– steeping water
– storm water
– stratal water
– sulphate water
– superheated water
– surface water
– sweet water
– tail water
– tap water
– thermal water
– travel by water
– twice-distilled water
– underground water
– upstream water
– void water
– vulcanization in hot water
– waste water
– water absorbing
– water amelioration
– water area
– water balance
– water ballast
– water barge
– water bath
– water blancher
– water cadastre
– water carrier
– water chlorination
– water circulation
– water circulator
– water clarification
– water classifying
– water collection
– water column
– water concentration
– water conduit
– water conservation
– water cooler
– water cooling
– water deluting
– water discharge
– water disharge
– water displacing
– water droplet
– water equivalent
– water flow
– water gas
– water glass
– water hammer
– water hardening
– water heating
– water hose
– water ice
– water injection
– water intake
– water jacket
– water jet
– water landing
– water line
– water main
– water mass
– water of constitution
– water of plasticity
– water paint
– water permeable
– water pipe
– water preparation
– water pump
– water pumping
– water purification
– water receiving
– water regime
– water reservoir-cooler
– water scoop
– water seal
– water shutoff
– water side
– water softener
– water softening
– water sprays
– water suit
– water surface
– water tank
– water treatment
– water turbine
– water use rate
– water wall
– wet water meter
domestic hot water converter — абонентский водоподогреватель
high water level — <geol.> горизонт высоких вод
interstitial bottom water — <energ.> вода пластовая
snow water on ice — <geogr.> лед со снежинцами
water supply well — <energ.> скважина водозаборная
-
20 Ivatt, Henry Alfred
[br]b. 16 September 1851 Cambridgeshire, Englandd. 25 October 1923 Haywards Heath, Sussex, England[br]English locomotive engineer, noted for the introduction of 4–4–2-type locomotives to Britain.[br]H.A.Ivatt initially joined the London \& North Western Railway as an apprentice at Crewe Works, and in 1877 moved to the Great Southern \& Western Railway in Ireland, eventually succeeding J.A.F. Aspinall as Locomotive Engineer at its works in Inchicore, Dublin. In 1896 he moved back to England to become Locomotive Superintendent of the Great Northern Railway. Weights of express trains were increasing rapidly there, and in 1898 Ivatt introduced his "Atlantic", or 4–4–2 type, the first locomotive of this wheel arrangement in Britain, which had originated in the USA only three years earlier. It was not until 1902, however, that he took full advantage of its potential, when he introduced an Atlantic with a wide firebox and a larger boiler. Both types were successful and even more so when superheated and fitted with piston valves some years later. The first locomotive of each type to be built is now preserved at the National Railway Museum in York.[br]Further ReadingE.L.Ahrons, 1927, The British Steam Railway Locomotive 1825–1925, The Locomotive Publishing Co.C.Hamilton Ellis, 1959, British Railway History, Vol. II: 1877–1947, London: George Allen \& Unwin, pp. 195 and 268–9.PJGR
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2-8-4 — In the Whyte notation, a 2 8 4 is a railroad steam locomotive that has one unpowered leading axle followed by four powered driving axles and two unpowered trailing axles. This locomotive type is most often referred to as a Berkshire, though the… … Wikipedia
Boiler (steam generator) — Contents 1 Steam generator (component of prime mover) 2 Boiler types 2.1 Haycock and wagon top boilers … Wikipedia
Geyser — For other uses, see Geyser (disambiguation). Strokkur geyser, Iceland … Wikipedia