-
1 upstream of HP cylinder
температура пара перед цилиндром высокого давления турбины
—
[А.С.Гольдберг. Англо-русский энергетический словарь. 2006 г.]Тематики
EN
Англо-русский словарь нормативно-технической терминологии > upstream of HP cylinder
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2 upstream of IP cylinder
температура пара перед цилиндром среднего давления турбины
—
[А.С.Гольдберг. Англо-русский энергетический словарь. 2006 г.]Тематики
EN
Англо-русский словарь нормативно-технической терминологии > upstream of IP cylinder
-
3 steam temperature before HP cylinder
температура пара перед цилиндром высокого давления турбины
—
[А.С.Гольдберг. Англо-русский энергетический словарь. 2006 г.]Тематики
EN
Англо-русский словарь нормативно-технической терминологии > steam temperature before HP cylinder
-
4 steam temperature before IP cylinder
температура пара перед цилиндром среднего давления турбины
—
[А.С.Гольдберг. Англо-русский энергетический словарь. 2006 г.]Тематики
EN
Англо-русский словарь нормативно-технической терминологии > steam temperature before IP cylinder
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5 температура пара перед цилиндром высокого давления турбины
температура пара перед цилиндром высокого давления турбины
—
[А.С.Гольдберг. Англо-русский энергетический словарь. 2006 г.]Тематики
EN
Русско-английский словарь нормативно-технической терминологии > температура пара перед цилиндром высокого давления турбины
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6 температура пара перед цилиндром среднего давления турбины
температура пара перед цилиндром среднего давления турбины
—
[А.С.Гольдберг. Англо-русский энергетический словарь. 2006 г.]Тематики
EN
Русско-английский словарь нормативно-технической терминологии > температура пара перед цилиндром среднего давления турбины
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7 Dickinson, John
SUBJECT AREA: Paper and printing[br]b. 29 March 1782d. 11 January 1869 London, England[br]English papermaker and inventor of a papermaking machine.[br]After education at a private school, Dickinson was apprenticed to a London stationer. In 1806 he started in business as a stationer, in partnership with George Longman; they transferred to 65 Old Bailey, where the firm remained until their premises were destroyed during the Second World War. In order to secure the supply of paper and be less dependent on the papermakers, Dickinson turned to making paper on his own account. In 1809 he acquired Apsley Mill, near Hemel Hempstead on the river Gade in Hertfordshire. There, he produced a new kind of paper for cannon cartridges which, unlike the paper then in use, did not smoulder, thus reducing the risk of undesired explosions. The new paper proved very useful during the Napoleonic War.Dickinson developed a continuous papermaking machine about the same time as the Fourdrinier brothers, but his worked on a different principle. Instead of a continuous flat wire screen, Dickinson used a wire-covered cylinder which dipped into the dilute pulp as it revolved. A felt-covered roller removed the layer of wet pulp, which was then subjected to drying, as in the Fourdrinier machine. The latter was first in use at Frogmore, just upstream from Apsley Mill on the river Gade. Dickinson patented his machine in 1809 and claimed that it was superior for some kinds of paper. In feet, both types of machine have survived, in much enlarged and modified form: the Fourdrinier for general papermaking, the Dickinson cylinder for the making of board. In 1810 Dickinson acquired the nearby Nash Mill, and over the years he extended the scope of his papermaking business, introducing many technical improvements. Among his inventions was a machine to paste together continuous webs of paper to form cardboard. Another, patented in 1829, was a process for incorporating threads of cotton, flax or silk into the body of the paper to make forgery more difficult. He became increasingly prosperous, overcoming labour disputes with unemployed hand-papermakers. and lawsuits against a canal company which threatened the water supply to his mills. Dickinson was the first to use percolation gauges to predict river flow, and his work on water supply brought him election to a Fellowship of the Royal Society in 1845.[br]Principal Honours and DistinctionsFRS 1845.Further ReadingR.H.Clapperton, 1967, The Paper-making Machine, Oxford: Pergamon Press, pp. 331–5 (provides a biography and full details of Dickinson's inventions).LRD -
8 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 -
9 deck
1) настил || настилать2) этаж (напр. здания, шахтной клети)3) ярус (напр. печи, сушилки)7) нефт. крышка ( резервуара)8) (напорное) перекрытие ( плотины)10) палуба || грузить на палубу11) склад || складировать12) штабель || штабелировать14) колода, пачка ( перфокарт)15) основная плата18) магнитофонная приставка, проф. дека19) комплект ( магнитных лент)20) полигр. накладная доска ( самонаклада)•-
accommodation deck
-
anchoring deck
-
arched deck
-
arch deck
-
boat deck
-
bottom deck
-
bubble deck
-
bulkhead deck
-
cambered deck
-
car deck
-
card deck
-
cassette deck
-
cellar deck
-
color deck
-
compass deck
-
continuous flat-slab deck
-
crowned deck
-
cylinder deck
-
false deck
-
film transport deck
-
flag deck
-
flatcar deck
-
flight deck
-
forecastle deck
-
freeboard deck
-
garage deck
-
half unit color deck
-
helicopter landing deck
-
helicopter deck
-
holding deck
-
horizontal deck
-
input deck
-
job deck
-
log deck
-
lower deck
-
main deck
-
output deck
-
plank deck
-
poop deck
-
quarter deck
-
roof deck
-
rotary air-lock deck
-
safety deck
-
saw deck
-
screen deck
-
sheave deck
-
sheered deck
-
shelter deck
-
simple flat-slab deck
-
source deck
-
spillway deck
-
splash deck
-
subcellar deck
-
tape deck
-
Texas deck
-
timber deck
-
tonnage deck
-
top deck
-
turtle-back deck
-
turtle deck
-
upper deck
-
upstream deck
-
waist deck
-
water-bearing deck
-
weather deck
-
whaleback deck
-
whale deck
-
working deck -
10 face
2) лицо, лицевая сторона, лицевая поверхность; лобовая поверхность3) грань (напр. геометрической фигуры, кристалла); фаска, срез6) облицовка; защитное покрытие || облицовывать; устраивать защитное покрытие8) подпил, подруб ( дерева при валке); надрез ( ствола)9) пласть ( пиломатериала)10) плоский боёк ( молота)12) фасад, вид спереди13) торцевая поверхность, торец || подрезать торец, производить торцевую обработку16) ширина венца (ЗК)17) дно ( баллона ЭЛТ); экран ( ЭЛГ)20) начертание ( рисунок) шрифта23) пищ. передняя грань ( рифли вальца)•face right — геод. круг право;to change face — геод. изменять положение вертикального круга ( при измерении горизонтальных углов теодолитом способом приёмов);to reverse face — геод. изменять положение вертикального круга ( при измерении горизонтальных углов теодолитом способом приёмов)face of approach — открылок( берегового) устоя (плотины, моста)face of brick — лицевая грань кирпича, ложокface of pulley — щека блока, боковая сторона шкиваface of wall — наружная поверхность стены-
acting face
-
active face
-
adjacent face
-
advanced technology mining face
-
advancing face
-
air face
-
anvil face
-
array face
-
back face of wave
-
bank face
-
basal face
-
bevel face
-
blade face
-
bottom-hole face
-
breakage face
-
bulb face
-
bush-hammered face
-
cam face
-
card face
-
carrier top face
-
cast face
-
clearance face
-
cleavage face
-
close-packed face
-
coal face
-
cobble face
-
coking face
-
cold face
-
color face
-
combustion face
-
compression face
-
concrete face
-
coupler pulling face
-
crack face
-
crystal face
-
cutting face
-
cylinder face
-
dam face
-
datum face
-
dead face
-
development face
-
diffusing face
-
dip face
-
downstream face
-
drum face
-
electrode face
-
end face
-
exhausted face
-
exposed face
-
filter mounting face
-
flat face
-
forward face of wave
-
friction face
-
front face
-
fusion face
-
gear face
-
glide face
-
grinding face
-
groove face
-
head face
-
headwall face
-
hot face
-
image face
-
inactive face
-
joint face
-
lapped face
-
large face
-
lateral face
-
leading face
-
lee face of wave
-
load-bearing face
-
longwall face
-
manless face
-
mechanical seal face
-
mining face
-
mold face
-
mounting face
-
natural face
-
overflow face
-
overlapping link face
-
parting face
-
pean-hammered face
-
peripheral face
-
pitch face
-
pole face
-
polish face
-
pressure face
-
production face
-
quarry face
-
rake face
-
reading face
-
reference face
-
reinforced-concrete face
-
remotely operated longwall face
-
retreat face
-
rise face
-
rock face
-
rolling face
-
root face
-
rupture face
-
sawn face
-
seal face
-
seam face
-
second end face
-
shortwall face
-
side face
-
spillway face
-
split face
-
streamlined spillway face
-
strike face
-
striker face
-
suction face
-
supporting face of wall
-
tailwater face
-
target face
-
tensile face
-
thrust face
-
tool face
-
tooth face
-
tube face
-
tunnel face
-
type face
-
upstream face
-
valve face
-
vertical exterior face
-
vertical interior face
-
wall face
-
water face
-
wear face
-
working face
-
work face -
11 shoulder
2) кромка; поясок3) фланец4) сварка притупление кромки7) дорож. обочина8) ж.-д. бровка ( пути)11) кфт. область передержек ( характеристической кривой)•-
ballast section shoulder
-
captivating shoulder
-
cylinder rod shoulder
-
deep shoulder
-
downstream shoulder
-
elevator shoulder
-
hard shoulder
-
pot shoulder
-
road shoulder
-
safety shoulder
-
shallow shoulder
-
shoulder of vessel
-
taxiway soft shoulder
-
track shoulder
-
upstream shoulder
-
winch drum shoulder -
12 вверх по течению
•Turbulence generators were placed upstream of (or from) the cylinder.
Русско-английский научно-технический словарь переводчика > вверх по течению
-
13 вверх по течению
•Turbulence generators were placed upstream of (or from) the cylinder.
Русско-английский научно-технический словарь переводчика > вверх по течению
-
14 bore
<gen.tech> (any drilled or bored hole) ■ Bohrung f ; gebohrtes Loch n ugs ; Loch n ugs ; Bohrloch n rar<mech.eng> (diameter of a cylinder; e.g. of piston engine, hydraulic cyl.) ■ Bohrung f ; Zylinderbohrung f rar<mech.eng> (small diameter; e.g. of jets, delay valves) ■ kalibrierte Bohrung f ; Bohrung f -
15 end
конец; окончание; торец; край; оконечность; днище; головка (шатуна); рабочее ребро; лезвие; II кончать(ся); прекращать(ся); подходить к концу; оканчиваться; II концевой; крайний; конечный- end cap- end cover - end curtain - end cutting nippers- end door- end face- end-fatigue - end float - end for self-tapping screw - end for thread rolling screw - end journal - end loading - end mill - end motion - end movement - end of blind hole - end of connecting rod - end of engagement - end of run - end on - end pillar - end pin - end plate - end play - end-point gasoline - end point of fraction - end-quench hardenability test - end relief - end shield - end slot - end-slot piston pin - end stop - end temperature - end thrust - end tipper - end-to-end - end-to-end discharge - end view - end washer - as-rolled end - assembly end - at end of each stroke - back end- ball end- big end- box end - built-in end- butt end- connecting rod end - cylinder end - drive end- egg end- entry end - feed end - forked end - heavy ends - joint end - lapped ends - piston-rod end - rear end - running end - small end - split lever end - stub end - threaded end - upset end - upstream end -
16 Seguin, Marc
[br]b. 20 April 1786 Annonay, Ardèche, Franced. 24 February 1875 Annonay, Ardèche, France[br]French engineer, inventor of multi-tubular firetube boiler.[br]Seguin trained under Joseph Montgolfier, one of the inventors of the hot-air balloon, and became a pioneer of suspension bridges. In 1825 he was involved in an attempt to introduce steam navigation to the River Rhône using a tug fitted with a winding drum to wind itself upstream along a cable attached to a point on the bank, with a separate boat to transfer the cable from point to point. The attempt proved unsuccessful and was short-lived, but in 1825 Seguin had decided also to seek a government concession for a railway from Saint-Etienne to Lyons as a feeder of traffic to the river. He inspected the Stockton \& Darlington Railway and met George Stephenson; the concession was granted in 1826 to Seguin Frères \& Ed. Biot and two steam locomotives were built to their order by Robert Stephenson \& Co. The locomotives were shipped to France in the spring of 1828 for evaluation prior to construction of others there; each had two vertical cylinders, one each side between front and rear wheels, and a boiler with a single large-diameter furnace tube, with a watertube grate. Meanwhile, in 1827 Seguin, who was still attempting to produce a steamboat powerful enough to navigate the fast-flowing Rhône, had conceived the idea of increasing the heating surface of a boiler by causing the hot gases from combustion to pass through a series of tubes immersed in the water. He was soon considering application of this type of boiler to a locomotive. He applied for a patent for a multi-tubular boiler on 12 December 1827 and carried out numerous experiments with various means of producing a forced draught to overcome the perceived obstruction caused by the small tubes. By May 1829 the steam-navigation venture had collapsed, but Seguin had a locomotive under construction in the workshops of the Lyons-Sain t- Etienne Railway: he retained the cylinder layout of its Stephenson locomotives, but incorporated a boiler of his own design. The fire was beneath the barrel, surrounded by a water-jacket: a single large flue ran towards the front of the boiler, whence hot gases returned via many small tubes through the boiler barrel to a chimney above the firedoor. Draught was provided by axle-driven fans on the tender.Seguin was not aware of the contemporary construction of Rocket, with a multi-tubular boiler, by Robert Stephenson; Rocket had its first trial run on 5 September 1829, but the precise date on which Seguin's locomotive first ran appears to be unknown, although by 20 October many experiments had been carried out upon it. Seguin's concept of a multi-tubular locomotive boiler therefore considerably antedated that of Henry Booth, and his first locomotive was completed about the same date as Rocket. It was from Rocket's boiler, however, rather than from that of Seguin's locomotive, that the conventional locomotive boiler was descended.[br]BibliographyFebruary 1828, French patent no. 3,744 (multi-tubular boiler).1839, De l'Influence des chemins de fer et de l'art de les tracer et de les construire, Paris.Further ReadingF.Achard and L.Seguin, 1928, "Marc Seguin and the invention of the tubular boiler", Transactions of the Newcomen Society 7 (traces the chronology of Seguin's boilers).——1928, "British railways of 1825 as seen by Marc Seguin", Transactions of the Newcomen Society 7.J.B.Snell, 1964, Early Railways, London: Weidenfeld \& Nicolson.J.-M.Combe and B.Escudié, 1991, Vapeurs sur le Rhône, Lyons: Presses Universitaires de Lyon.PJGR
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