-
1 unsteady-state flow
нестационарное течение; нестационарный поток; неустановившееся течение; неустановившийся режим теченияEnglish-Russian dictionary on nuclear energy > unsteady-state flow
-
2 unsteady-state flow
Большой англо-русский и русско-английский словарь > unsteady-state flow
-
3 unsteady(-state) flow
Англо-русский словарь технических терминов > unsteady(-state) flow
-
4 unsteady(-state) flow
Англо-русский словарь технических терминов > unsteady(-state) flow
-
5 unsteady state flow
Нефтепромысловый: нестационарный поток, неустановившийся поток -
6 unsteady-state flow
1) Морской термин: периодическое течение3) Метрология: нестационарный поток4) Нефтегазовая техника неустановившийся поток5) Нефтепромысловый: неустановившееся течение6) Нефть и газ: неустановившийся приток -
7 unsteady-state flow
нестационарный поток, неустановившийся поток -
8 unsteady state flow
Англо-русский словарь нефтегазовой промышленности > unsteady state flow
-
9 unsteady-state flow
Англо-русский словарь нефтегазовой промышленности > unsteady-state flow
-
10 unsteady-state flow
-
11 unsteady(-state) flow
The English-Russian dictionary on reliability and quality control > unsteady(-state) flow
-
12 unsteady-state flow drillhole research
- гидродинамические исследования буровой скважины при неустановившемся притоке
гидродинамические исследования буровой скважины при неустановившемся притоке
—
[ http://slovarionline.ru/anglo_russkiy_slovar_neftegazovoy_promyishlennosti/]Тематики
EN
Англо-русский словарь нормативно-технической терминологии > unsteady-state flow drillhole research
-
13 unsteady-state flow drillhole research
гидродинамические исследования буровой скважины при неустановившемся притокеБольшой англо-русский и русско-английский словарь > unsteady-state flow drillhole research
-
14 unsteady-state flow drillhole research
гидродинамические исследования буровой скважины при неустановившемся притоке* * *гидродинамические исследования буровой скважины при неустановившемся притокеАнгло-русский словарь нефтегазовой промышленности > unsteady-state flow drillhole research
-
15 unsteady-state flow drill hole research
Нефть и газ: гидродинамическое исследование буровой скважины в неустановившемся режиме, гидродинамическое исследование буровой скважины при неустановившемся режимеУниверсальный англо-русский словарь > unsteady-state flow drill hole research
-
16 unsteady-state flow drill-hole research
1) Нефтепромысловый: гидродинамическое исследование буровой скважины при неустановившемся притоке2) Нефть и газ: гидродинамическое исследование буровой скважины в неустановившемся режиме, гидродинамическое исследование буровой скважины при неустановившемся режимеУниверсальный англо-русский словарь > unsteady-state flow drill-hole research
-
17 unsteady-state flow drillhole research
2) Нефть и газ: гидродинамическое исследование буровой скважины в неустановившемся режиме, гидродинамическое исследование буровой скважины при неустановившемся режимеУниверсальный англо-русский словарь > unsteady-state flow drillhole research
-
18 unsteady-state flow drill-hole research
гидродинамическое исследование буровой скважины при неустановившемся притокеАнгло-русский словарь нефтегазовой промышленности > unsteady-state flow drill-hole research
-
19 unsteady-state
Большой англо-русский и русско-английский словарь > unsteady-state
-
20 flow
1) течение; поток || течь2) сток3) расход, дебит4) растекание; расплыв(ание) || растекаться; расплываться5) пластическая деформация || претерпевать пластическую деформацию6) текучесть7) нефт. фонтанирование || фонтанировать8) нефт. добыча9) подвижность (напр. бетонной смеси)10) технологический маршрут; последовательность операций11) гидр. движение12) непрерывная подача энергии (электрической, тепловой)13) наводнение; затопление; разлив14) отводная труба16) разлив ( лакокрасочного покрытия)17) выпрессовка, грат (в прессовании пластмасс, резины)•to bypass flows — гидр. 1. пропускать строительные расходы по обводному каналу 2. пропускать паводок в обход сооруженияflow of catchment — сток водосбросаflow of control — 1. процесс управления 2. алгоритм управления; поток (команд) управленияflow of ground — пластическая деформация грунта-
adiabatic flow
-
air flow
-
air-mass flow
-
airport traffic flow
-
air-water flow
-
all-gas flow
-
annual flow
-
annular flow
-
annular two-phase flow
-
annular-dispersed flow
-
approach flow
-
artesian flow
-
available flow
-
average annual flow
-
axial flow
-
backward flow
-
back flow
-
base flow
-
bearing form oil flow
-
behind-the-casing flow
-
blade-to-blade flow
-
boiling channel flow
-
boundary layer flow
-
break flow
-
bubble flow
-
bubbly flow
-
bulk flow
-
bypass flow
-
cascade flow
-
channel flow
-
chip flow
-
chugging flow
-
churn-turbulent flow
-
churn flow
-
climbing film flow
-
cocurrent catalyst flow
-
cocurrent flow
-
coherent boiling flow
-
cold flow
-
command-status flow
-
communication flow
-
constant flow
-
continuous flow
-
control flow
-
controlled flow
-
convergent flow
-
coolant flow
-
corkscrewlike flow
-
countercurrent flow
-
critical flow
-
cross flow
-
current flow
-
daily flow
-
data flow
-
decaying swirl flow
-
density-stratified flow
-
design water flow
-
developed flow
-
developed turbulent flow
-
direct surface flow
-
dispersed flow
-
divergent flow
-
diversion flow
-
down flow
-
downstream flow
-
downward flow
-
drainage flow
-
droplet-dispersed flow
-
droplet-free flow
-
dust flow
-
energy flow
-
estimated flow
-
evaporating flow
-
exergy flow
-
exhaust flow
-
failure flow
-
fictitious heat flow
-
filter fluid flow
-
flood flow
-
fluid flow
-
fog flow
-
forced flow
-
forward flow
-
free flow
-
free-surface flow
-
freight flow
-
frictional flow
-
froth flow
-
frozen flow
-
full flow
-
gas flow
-
gas piston flow
-
gas-liquid flow
-
generalized Couette flow
-
glass flow
-
grain-boundary flow
-
gravity flow
-
groundwater flow
-
heat flow
-
high flow
-
high-velocity bypass flow
-
homogeneous flow
-
horizontal flow
-
hydraulically smooth wind flow
-
hydroelectric flow
-
ice flow
-
incident flow
-
incoming flow
-
induced flow
-
information flow
-
ink flow
-
instruction flow
-
insurge flow
-
interconnection tie flow
-
intermittent flow
-
interrupt flow
-
interstitial flow
-
inverse annular flow
-
irrigation return flow
-
irrotational flow
-
isothermal flow
-
Knudsen flow
-
laminar flow
-
lateral flow
-
leakage flow
-
leak flow
-
letdown flow
-
liquid-vapor flow
-
load flow
-
low Reynolds number flow
-
low-velocity flow
-
low-water flow
-
magnetic flow
-
makeup flow
-
mass flow
-
mean flow
-
metered flow
-
mist flow
-
mixed flow
-
molecular flow
-
motion flow
-
mud-and-stone flow
-
multiphase flow
-
natural flow
-
near-bottom flow
-
negative core flow
-
no-load flow
-
noncontinuous flow
-
nonstationary flow
-
nonswirling flow
-
nonuniform flow
-
nozzle flow
-
n-sequential orifice flow
-
open-channel flow
-
outsurge flow
-
oven flow
-
overbank flow
-
peak flow
-
pipe flow
-
piston flow
-
plain-strain flow
-
plastic flow
-
plug flow
-
positive core flow
-
positive flow
-
postcombustion flow
-
potential flow
-
power flow
-
pressure flow
-
primary coolant flow
-
primary flow
-
priority flow
-
process flow
-
pulsating flow
-
pump output flow
-
pump flow
-
radial flow
-
ram air flow
-
reattached flow
-
recirculating flow
-
recirculating turbulent flow
-
recorded flow
-
recycling flow
-
reduced flow
-
reflux flow
-
regulated flow
-
retarded flow
-
return flow
-
reverse core steam flow
-
reverse flow
-
reverse-direction flow
-
ripple flow
-
riser flow
-
river flow
-
rotating flow
-
routed flow
-
seasonal flow
-
seepage flow
-
self-adapting production flow
-
self-aligning production flow
-
semiannular flow
-
separate flow
-
serrated flow
-
servovalve control flow
-
shear flow
-
sheet flow
-
sliding flow
-
slip flow
-
slipless flow
-
slugging flow
-
slug flow
-
smooth flow
-
snow flow
-
soil water flow
-
split flow
-
steady-state flow
-
steady flow
-
steering flow
-
storm flow
-
stratified flow
-
streamline flow
-
streamlined production flow
-
submerged flow
-
subsonic flow
-
subsurface water flow
-
supergeostrophic flow
-
supersonic flow
-
surface-water flow
-
surface flow
-
surge flow
-
swirling flow
-
swirl flow
-
thermally disordered flow
-
three-dimensional flow
-
throttled flow
-
tidal flow
-
tip-leakage flow
-
total coolant flow
-
total flow
-
total loop flow
-
traffic flow
-
true mass flow
-
turbulent flow
-
two-component flow
-
two-dimensional flow
-
two-phase critical flow
-
two-phase gas-liquid flow
-
unbalanced flow
-
uncontrolled flow
-
undershot orifice flow
-
undimensional heat flow
-
unimpeded flow
-
unit peak flow
-
unsteady-state flow
-
unsteady flow
-
upward flow
-
variable-area flow
-
viscous flow
-
volume flow
-
vortex flow
-
water flow
-
wave flow
-
wavy flow
-
weight flow
-
weir flow
-
well natural flow
-
wind flow
-
wind-induced flow
-
wispy-annular flow
-
working flow
-
yielding flow
- 1
- 2
См. также в других словарях:
Exponential integral — is a mathematical function of a single argument which has no established notation.DefinitionsFor real values of x , the exponential integral Ei( x ) can be defined as : mbox{Ei}(x)=int { infty}^xfrac{e^t}t,dt., The definition above can be used… … Wikipedia
гидродинамические исследования буровой скважины при неустановившемся притоке — — [http://slovarionline.ru/anglo russkiy slovar neftegazovoy promyishlennosti/] Тематики нефтегазовая промышленность EN unsteady state flow drillhole research … Справочник технического переводчика
Fluid dynamics — Continuum mechanics … Wikipedia
Bernoulli's principle — This article is about Bernoulli s principle and Bernoulli s equation in fluid dynamics. For Bernoulli s Theorem (probability), see Law of large numbers. For an unrelated topic in ordinary differential equations, see Bernoulli differential… … Wikipedia
D'Alembert's paradox — In fluid dynamics, d Alembert s paradox (or the hydrodynamic paradox) is a contradiction reached in 1752 by French mathematician Jean le Rond d Alembert.[1] D Alembert proved that – for incompressible and inviscid potential flow – the drag force… … Wikipedia
Computational Aeroacoustics — While the discipline of Aeroacoustics is definitely dated back to the first publication of Sir James Lighthill[1][2] in the early 1950s, the origin of Computational Aeroacoustics can only very likely be dated back to the middle of the 1980s.… … Wikipedia
Airy wave theory — In fluid dynamics, Airy wave theory (often referred to as linear wave theory) gives a linearised description of the propagation of gravity waves on the surface of a homogeneous fluid layer. The theory assumes that the fluid layer has a uniform… … Wikipedia
Nigeria — Nigerian, adj., n. /nuy jear ee euh/, n. a republic in W Africa: member of the Commonwealth of Nations; formerly a British colony and protectorate. 107,129,469; 356,669 sq. mi. (923,773 sq. km). Cap.: Abuja. Official name, Federal Republic of… … Universalium
Viktor Dilman — Viktor Vasilyevich Dilman, also spelled Dil man (Russian: Виктор Васильевич Дильман, born March 11, 1926 in Proskurov (now Khmel’nitskiy), Ukrainian SSR, Soviet Union) is a Russian scientist performing research for USPolyResearch. He is best… … Wikipedia
Continuous stirred-tank reactor — CSTR symbol The continuous stirred tank reactor (CSTR), also known as vat or backmix reactor, is a common ideal reactor type in chemical engineering. A CSTR often refers to a model used to estimate the key unit operation variables when using a… … Wikipedia
GRIB — RUSSIA (see also List of Individuals) 17.9.1912/RU 6.11.1978 Leningrad/RU Anatoly Andreevich Grib graduated in 1934 from the Saint Petersburg State University. He then moved to the Tomsk State University where he presented his PhD thesis in the… … Hydraulicians in Europe 1800-2000
