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1 steam erosion
Англо-русский словарь нормативно-технической терминологии > steam erosion
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2 steam erosion
Большой англо-русский и русско-английский словарь > steam erosion
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3 steam erosion
Англо-русский словарь нефтегазовой промышленности > steam erosion
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4 steam erosion
Нефть: размыв паром (парафина) -
5 paraffin steam erosion
Англо-русский словарь нормативно-технической терминологии > paraffin steam erosion
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6 paraffin steam erosion
Большой англо-русский и русско-английский словарь > paraffin steam erosion
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7 paraffin steam erosion
Англо-русский словарь технических терминов > paraffin steam erosion
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8 paraffin steam erosion
Англо-русский словарь нефтегазовой промышленности > paraffin steam erosion
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9 paraffin steam erosion
Техника: размыв парафина паромУниверсальный англо-русский словарь > paraffin steam erosion
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10 erosion
1. геол. эрозия; выветривание; размывание2. разъедание; разрушение
* * *
размывание, выветривание; эрозия (геол.)
* * *
эрозия, обнажение
* * *
- chemical erosion
- fluid erosion
- fluid erosion of matrix
- hole erosion
- intense erosion
- long-term erosion
- marine erosion
- paraffin steam erosion
- rapid erosion
- sand erosion
- sea erosion
- steam erosion
- surface erosion
- water erosion
- wind erosion* * *• суффозия• эрозия -
11 erosion
1) эрозия; эрозионное изнашивание2) размыв4) метал. разгар•-
ash erosion
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brittle erosion
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cavitation erosion
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channel erosion
- drop impingement erosion -
flame erosion
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floodwater erosion
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fluid erosion
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glass line erosion
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hearth-bottom erosion
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high-temperature erosion
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impact erosion
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internal erosion
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irrigation erosion
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joint erosion
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liquid erosion
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liquid particle erosion
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marginal erosion
-
paraffin steam erosion
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particulate erosion
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pitting erosion
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primary erosion
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rain erosion
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refractory erosion
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sandy terrain erosion
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secondary erosion
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slag erosion
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soil erosion
-
solid erosion
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stream-channel erosion
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tail erosion
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wind erosion -
12 размыв паром
Большой англо-русский и русско-английский словарь > размыв паром
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13 размыв парафина паром
Большой англо-русский и русско-английский словарь > размыв парафина паром
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14 размыв парафина паром
Англо-русский словарь технических терминов > размыв парафина паром
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15 drill
1. сверло; дрель2. сверлить, просверливать3. бур; перфоратор; бурильный молоток4. бурить5. инструктаж; практика; тренировкаdouble core barrel drill — двойная колонковая труба для отбора керна в слабосцементированных породах
— drill by
* * *
1. бур; перфоратор; бурильный молоток; бурильная машина; бурильный станок || буритьcombination electric arc-scraper drill — установка с электродуговым и лопастным разрушением породы на забое
controlled gradient spark drill — электроискровой бур с соосной установкой изолированных друг от друга электродов
double core barrel drill — двойная колонковая труба для отбора керна (в слабосцементированних породах)
— V-drill
* * *
||сверло, бур, перфоратор, бурильный станок || бурить
* * *
* * *
1) бур; перфоратор; бурильный молоток; бурильная машина; буровой станок || бурить3) дрель; сверло; бурав•drill and fire — проходка выработки буровзрывным способом;
to drill ahead — 1) бурить ниже башмака обсадной колонны ( на значительную глубину) 2) продолжать бурение; добуривать, возобновлять бурение ( из-под башмака обсадной колонны);
- drill byto drill ahead the length of kelly — бурить на длину ведущей бурильной трубы;
- drill down
- feed drill
- drill for underground
- drill in
- drill off
- drill out
- drill over
- drill to predetermined point
- drill the pay
- drill the plug
- drill the well
- drill through casing shoe
- drill up
- drill upward
- drill under pressure
- abrasive jet drill
- adamantine drill
- air drill
- air-drifter drill
- air-driven hammer drill
- air-feed drill
- air-feed leg drill
- air-hammer drill
- air-leg rock drill
- air-operated drill
- air-operated downhole drill
- air-operated downhole percussion drill
- anvil-type percussion drill
- arc drill
- attack drill
- auger drill
- automatic feed drill
- automatically rotated stopper drill
- bar drill
- blasthole drill
- blunt drill
- breast drill
- cable drill
- cable-system drill
- cable-tool drill
- Calyx drill
- carbide-tipped drill
- cavitating jet drill
- chemical drill
- chilled-shot drill
- churn drill
- column drill
- columnal drill
- combination drill
- combination electrical arc-scraper drill
- combination mechanical-spark drill
- compressed-air drill
- continuous chain drill
- controlled gradient spark drill
- core drill
- cross-edged drill
- crawler drill
- crawler-mounted rotary blasthole drill
- crown drill
- deep-hole drill
- diamond drill
- double core barrel drill
- double-turbine drill
- downhole drill
- downhole hammer drill
- downhole hydraulic hammer drill
- down-the-hole drill
- drifter drill
- dryductor drill
- earth drill
- electrical drill
- electrical-air drill
- electrical-arc drill
- electrical-disintegration drill
- electrical-heater drill
- electrojet drill
- electronic beam drill
- erosion drill
- explosive drill
- explosive capsule drill
- exposed electrode spark drill
- face drill
- feedleg drill
- flame jet drill
- flexible drill
- forced flame drill
- frame-and-skid mounted drill
- free-fall drill
- fusion-piercing drill
- gasoline rock drill
- gravel spoon drill
- hammer drill
- hammer hand drill
- hand drill
- hand-churn drill
- hand-diamond drill
- hand-held drill
- hand-held hammer drill
- hand-held rock drill
- hand-held self-rotating air-hammer drill
- hard rock drill
- heavy hand-held rock drill
- helical drill
- high-frequency drill
- high-frequency electrical drill
- high-pressure drifter drill
- high-pressure jet drill
- high-speed drill
- high-thrust drill
- hydraulic drill
- hydraulic crawler drill
- impact drill
- implosion drill
- induction drill
- injection drill
- intermediate drill
- in-the-hole drill
- jackhammer drill
- jackleg drill
- jet-assisted mechanical drill
- jet-assisted rocket exhaust drill
- jet-pierce drill
- jet-piercing drill
- jet-pump pellet impact drill
- jetting drill
- jumper drill
- Kapelyushnikov drill
- large drill
- laser drill
- laser-assisted rock drill
- laser-oil-well drill
- laser-sonic drill
- lateral drill
- light hammer drill
- light wagon drill
- liquid explosive drill
- long-hole drill
- long-piston rock drill
- long-sash drill
- machine drill
- magnetostrictive drill
- mechanically driven drill
- mobile drill
- mobile mine drill
- motor drill
- mounted drill
- nondiamond core drill
- nuclear drill
- oil-well cavitation drill
- oil-well laser drill
- oil-well laser perforating drill
- oil-well pulsed jet drill
- oil-well spark drill
- ordinary rock drill
- pack-sack piercing drill
- parting drill
- pellet-impact drill
- percussion drill
- piercing drill
- pipe drill
- piston drill
- piston-air drill
- piston-reciprocating rock drill
- piston-type drill
- plasma drill
- plasma arc drill
- plate-shaped drill
- plugger drill
- pneumatic drill
- pneumatic rock drill
- pocket drill
- pole drill
- pop-holing drill
- portable drill
- post drill
- posting mounted drill
- post-mounted drill
- power drill
- prospecting drill
- push-feed drill
- radial drill
- radial spark drill
- rammer drill
- ratchet drill
- reciprocating drill
- reciprocating rock drill
- reconnaissance drill
- rig-mounted drill
- rock drill
- rock hammer drill
- rocket drill
- rocket exhaust drill
- roller bit implosion drill
- roof drill
- rope drill
- rope-system drill
- rotary drill
- rotary bucket drill
- rotary-percussion drill
- rotary-shot drill
- rotating rocket exhaust drill
- rubber-tired drill
- screw-feed diamond drill
- seafloor spark drill
- seismic drill
- seismograph drill
- self-contained drill
- self-hauling drill
- self-propelled drill
- shock-absorber drill
- shock-wave drill
- short-hole drill
- shot drill
- shot-boring drill
- shothole drill
- sinker drill
- skid-mounted drill
- small drill
- sonic drill
- spark drill
- spark-percussion drill
- spear-pointed drill
- spindle drill
- spiral drill
- splayed drill
- spud drill
- star drill
- steam drill
- steam-motivated diamond drill
- steam-operated drill
- stopper drill
- supersonic plasma arc oil well drill
- surface drill
- surface-mounted percussive drill
- tangential spark drill
- tap drill
- telescopic drill
- telescopic feed hammer drill
- thermal-mechanical drill
- thermal-shocking rocket drill
- thermic drill
- thermocorer drill
- top hammer drill
- traction drill
- tripod drill
- tri-point rock drill
- truck-mounted drill
- truck-mounted blasthole drill
- tubing drill
- tubular drill
- tunnel drill
- turbine cavitation drill
- turbine powered cavitation drill
- turbine spark drill
- twist drill
- ultrasonic drill
- underground drill
- unmounted drill
- V-drill
- vented drill
- vertical drill
- vibration drill
- vibratory drill
- wagon drill
- wash-boring drill
- water drill
- water-fed drill
- water-injection drill
- water-jet assisted rocket drill
- water-jet pole-hole boring drill
- water-well drill
- well drill
- wet sinker drill* * *• 1) бур; 2) бурильный молоток• 1) бурить; 2) буримый; 3) пробуренный• бур• бурить• практика -
16 Smeaton, John
SUBJECT AREA: Civil engineering, Mechanical, pneumatic and hydraulic engineering, Steam and internal combustion engines[br]b. 8 June 1724 Austhorpe, near Leeds, Yorkshire, Englandd. 28 October 1792 Austhorpe, near Leeds, Yorkshire, England[br]English mechanical and civil engineer.[br]As a boy, Smeaton showed mechanical ability, making for himself a number of tools and models. This practical skill was backed by a sound education, probably at Leeds Grammar School. At the age of 16 he entered his father's office; he seemed set to follow his father's profession in the law. In 1742 he went to London to continue his legal studies, but he preferred instead, with his father's reluctant permission, to set up as a scientific instrument maker and dealer and opened a shop of his own in 1748. About this time he began attending meetings of the Royal Society and presented several papers on instruments and mechanical subjects, being elected a Fellow in 1753. His interests were turning towards engineering but were informed by scientific principles grounded in careful and accurate observation.In 1755 the second Eddystone lighthouse, on a reef some 14 miles (23 km) off the English coast at Plymouth, was destroyed by fire. The President of the Royal Society was consulted as to a suitable engineer to undertake the task of constructing a new one, and he unhesitatingly suggested Smeaton. Work began in 1756 and was completed in three years to produce the first great wave-swept stone lighthouse. It was constructed of Portland stone blocks, shaped and pegged both together and to the base rock, and bonded by hydraulic cement, scientifically developed by Smeaton. It withstood the storms of the English Channel for over a century, but by 1876 erosion of the rock had weakened the structure and a replacement had to be built. The upper portion of Smeaton's lighthouse was re-erected on a suitable base on Plymouth Hoe, leaving the original base portion on the reef as a memorial to the engineer.The Eddystone lighthouse made Smeaton's reputation and from then on he was constantly in demand as a consultant in all kinds of engineering projects. He carried out a number himself, notably the 38 mile (61 km) long Forth and Clyde canal with thirty-nine locks, begun in 1768 but for financial reasons not completed until 1790. In 1774 he took charge of the Ramsgate Harbour works.On the mechanical side, Smeaton undertook a systematic study of water-and windmills, to determine the design and construction to achieve the greatest power output. This work issued forth as the paper "An experimental enquiry concerning the natural powers of water and wind to turn mills" and exerted a considerable influence on mill design during the early part of the Industrial Revolution. Between 1753 and 1790 Smeaton constructed no fewer than forty-four mills.Meanwhile, in 1756 he had returned to Austhorpe, which continued to be his home base for the rest of his life. In 1767, as a result of the disappointing performance of an engine he had been involved with at New River Head, Islington, London, Smeaton began his important study of the steam-engine. Smeaton was the first to apply scientific principles to the steam-engine and achieved the most notable improvements in its efficiency since its invention by Newcomen, until its radical overhaul by James Watt. To compare the performance of engines quantitatively, he introduced the concept of "duty", i.e. the weight of water that could be raised 1 ft (30 cm) while burning one bushel (84 lb or 38 kg) of coal. The first engine to embody his improvements was erected at Long Benton colliery in Northumberland in 1772, with a duty of 9.45 million pounds, compared to the best figure obtained previously of 7.44 million pounds. One source of heat loss he attributed to inaccurate boring of the cylinder, which he was able to improve through his close association with Carron Ironworks near Falkirk, Scotland.[br]Principal Honours and DistinctionsFRS 1753.Bibliography1759, "An experimental enquiry concerning the natural powers of water and wind to turn mills", Philosophical Transactions of the Royal Society.Towards the end of his life, Smeaton intended to write accounts of his many works but only completed A Narrative of the Eddystone Lighthouse, 1791, London.Further ReadingS.Smiles, 1874, Lives of the Engineers: Smeaton and Rennie, London. A.W.Skempton, (ed.), 1981, John Smeaton FRS, London: Thomas Telford. L.T.C.Rolt and J.S.Allen, 1977, The Steam Engine of Thomas Newcomen, 2nd edn, Hartington: Moorland Publishing, esp. pp. 108–18 (gives a good description of his work on the steam-engine).LRD -
17 rate
3) частота4) расход5) норма || нормировать6) тариф || тарифицировать7) степень8) отношение; коэффициент10) оценка || оценивать11) определять; устанавливать; подсчитывать; рассчитывать (напр. мощность, несущую способность)•rates to consumers — тарифы на отпуск (напр. электроэнергии) потребителям-
absolute disintegrate rate
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absorbed dose rate
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acceptance rate
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accident rate
-
adiabatic lapse rate
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advance rate
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aging rate
-
allowable leak rate
-
angular rate
-
annual depletion rate
-
application rate
-
area rate
-
arrival rate
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ascensional rate
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assessed failure rate
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attenuation rate
-
autoconvective lapse rate
-
base wage rate
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baud rate
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bearer rate
-
beating rate
-
bit rate
-
bit-error rate
-
bit-transfer rate
-
block meter rate
-
block-error rate
-
boiling rate
-
boil-up rate
-
bonus rate
-
break flow rate
-
breeding rate
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burning rate
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calling rate
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capture rate
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carbonization rate
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cargo rate
-
carrier-ionization rate
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casting rate
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catalyst circulation rate
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charging rate
-
chipping rate
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chip rate
-
chopping rate
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circulation rate
-
class rate
-
climb rate
-
clock rate
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closed rate
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closure rate
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coke rate
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cold storage rates
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collision rate
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combustion rate
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completion rate
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concentration rate
-
containment leak rate
-
continuous rate
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controlled rate
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convective expansion rate
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conversion rate
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conveyance rate
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cooling rate
-
core heat generation rate
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corrosion rate
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counting rate
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crack growth rate
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creep rate
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crosshead rate
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cure rate
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cutter wear rate
-
daily consumptive use rate
-
data-transfer rate
-
data rate
-
decay rate
-
decompression rate
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deflection rate
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deionization rate
-
delivery rate
-
demand cost rate
-
demand rate
-
deposition rate
-
descent rate
-
development rate
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deviation rate
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differential rate
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differentiated electricity rates
-
diffusion rate
-
directional rate
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discharge rate
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disposal rate
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distance rate
-
dither rate
-
dosage rate
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downtime rate
-
drainage rate
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drawing rate
-
drift rate
-
drilling rate
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droop rate
-
dry adiabatic lapse rate
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electricity rate
-
electric rate
-
energy fluence rate
-
energy release rate
-
entropy production rate
-
entropy rate
-
erasing rate
-
erosion rate
-
error rate
-
etching rate
-
etch rate
-
evacuation rate
-
evaporating rate
-
excitation rate
-
exposure rate
-
failure rate
-
failure-per-mile rate
-
false alarm rate
-
fatal accident frequency rate
-
fatality rate
-
fault rate
-
feed rate
-
field germination rate
-
field-repetition rate
-
fieldwide rate of recovery
-
film rate
-
filtering rate
-
finishing rate
-
fire-propagation rate
-
firing rate
-
fission rate
-
flat rate
-
flexible rates
-
flicker rate
-
flooding rate
-
flotation rate
-
flour extraction rate
-
flow rate
-
flush production rate
-
flutter rate
-
forced outgage rate
-
frame rate
-
frame-repetition rate
-
freezing rate
-
freight rate
-
freight-all-kinds rates
-
frequency-sweep rate
-
frequency-tuning rate
-
fuel rate
-
functional throughput rate
-
gas leak rate
-
gathering rate
-
generation rate
-
grinding rate
-
growth rate
-
gyro drift rate
-
half-clock rate
-
hardening rate
-
heat absorption rate
-
heat dissipation rate
-
heat generation rate
-
heat rate
-
heat-flow rate
-
heating rate
-
heat-transfer rate
-
hit rate
-
image refresh rate
-
impact wear rate
-
in-commission rate
-
infiltration rate
-
information rate
-
injection rate
-
instantaneous failure rate
-
intermittent rate
-
ionization rate
-
irrigation rate
-
iso-wear rates
-
job rates
-
kerma rate
-
keying rate
-
lapse rate
-
leakage rate
-
linear wear rate
-
line-of-sight rate
-
line-repetition rate
-
liquid efflux rate
-
lubrication rate
-
maintenance rate
-
mass flow rate
-
mass wear rate
-
maximum efficiency rate
-
maximum permissible rate
-
maximum stepping rate
-
medium rate
-
melting rate
-
melt-off rate
-
metal-removal rate
-
modulation rate
-
moist-adiabatic lapse rate
-
NC programmed feed rate
-
negative flow rate
-
nucleation rate
-
Nyquist rate
-
obturation rate
-
off-peak power rate
-
operating rate
-
optimal feed rate
-
outgassing rate
-
output rate
-
overall drilling rate
-
oxidation rate
-
paging rate
-
peak power rate
-
penetration rate
-
percolation rate
-
phase generation rate
-
phase rate
-
picture-taking rate
-
pitch rate
-
plastic strain rate
-
positive flow rate
-
potential rate of evaporation
-
pouring rate
-
power rate
-
precipitation rate
-
predetermined rate
-
predicted failure rate
-
priming rate
-
printout rate
-
print rate
-
production decline rate
-
production rate
-
projection rate
-
proper feed rate
-
protection rate
-
pull rate
-
pulldown rate
-
pulse-recurrence rate
-
pulse rate
-
radiation rate
-
radioactive decay rate
-
range rate
-
rapid air cut feed rate
-
rapid return rate
-
rate of acceleration
-
rate of angular motion
-
rate of attack
-
rate of blowing
-
rate of braking
-
rate of carbon drop
-
rate of convergence
-
rate of crack propagation
-
rate of deformation
-
rate of dilution
-
rate of discharge
-
rate of dive
-
rate of energy input
-
rate of exchange
-
rate of exposure
-
rate of fall
-
rate of film movement
-
rate of gain
-
rate of hole deviation change
-
rate of lancing
-
rate of linkage
-
rate of loading
-
rate of opening
-
rate of plant depreciation
-
rate of pulse rise
-
rate of rainfall
-
rate of rise
-
rate of roll
-
rate of sedimentation
-
rate of shear
-
rate of slope
-
rate of stirring
-
rate of surface runoff
-
rate or carbon oxidation
-
reactivity insertion rate
-
reading rate
-
read rate
-
recovery rate
-
recycle rate
-
reflood rate
-
refresh rate
-
refrigeration rate
-
repetition rate
-
reset rate
-
residential rate
-
respiration rate
-
retail charter rate
-
retail rate
-
retention rate
-
rigidity rate
-
rolling rate
-
runout rate
-
sample rate
-
saturated-adiabatic lapse rate
-
saturation rate
-
scrap generation rate
-
scrap rate
-
secondary creep rate
-
sectorial rate
-
self-discharge rate
-
setting rate
-
settled production rate
-
settling rate
-
signaling rate
-
silicon pulling rate
-
slew rate
-
snowmelt inflow rate
-
solidification rate
-
sparking rate
-
specific commodity rate
-
specific heat flow rate
-
specific rate of flow
-
specific rate of sediment transport
-
specific wear rate
-
spreading rate of jet
-
spring rate
-
squeeze rate
-
standard rate
-
starting rate
-
steam rate
-
stepping rate
-
stock removal rate
-
strain rate
-
stress rate
-
sub-Nyquist rate
-
success rate
-
superadiabatic lapse rate
-
supply rate
-
survival rate
-
sweep rate
-
taking rate
-
tariff rate
-
temperature lapse rate
-
testing rate
-
thermal transfer rate
-
through rate
-
throughput rate
-
time rate of change
-
time rate
-
time-of-day electricity rate
-
time-of-day rate
-
tool-wear rate
-
total mass rate
-
tracking rate
-
traffic flow rate
-
transfer rate
-
transmission rate
-
transport rate
-
turn rate
-
turnover rate
-
twenty-five ampere rate
-
undetected error rate
-
uniform quench rate
-
unit rate
-
unloading rate
-
update rate
-
vaporizing rate
-
vitrification rate
-
voidage rate
-
voltage recovery rate
-
volume erosion rate
-
volume wear rate
-
volumetric flow rate
-
volumetric rate
-
vulcanization rate
-
water application rate
-
water consumption rate
-
water use rate
-
wear rate
-
weft insertion rate
-
weight rate
-
wheel removal rate
-
wholesale charter rate
-
wholesale rate
-
withdrawal rate
-
write writing rate
-
write rate
-
yawing rate
-
yaw rate
-
zero-crossing rate -
18 corrosion
1) коррозия, разрушение•-
ac corrosion
-
acid corrosion
-
active corrosion
-
aeration corrosion
-
aerobic corrosion
-
alkaline corrosion
-
anaerobic corrosion
-
anode corrosion
-
aqueous corrosion
-
ash corrosion
-
atmosphere corrosion
-
bacterial corrosion
-
bimetallic corrosion
-
blanket corrosion
-
brine corrosion
- burned gas corrosion -
cathode corrosion
-
caustic corrosion
-
cavitation corrosion
-
channeling corrosion
-
chemical corrosion
-
chlorine corrosion
-
concentration cell corrosion
-
concentration corrosion
-
condensate corrosion
-
contact corrosion
-
continuous corrosion
-
couple corrosion
-
crevice corrosion
-
damp atmospheric corrosion
-
deep corrosion
-
deposition corrosion
-
differential aeration corrosion
-
differential corrosion
-
downhole corrosion
-
drop corrosion
-
dry atmospheric corrosion
-
edge corrosion
-
electrochemical corrosion
-
electrolytic corrosion
-
end corrosion
-
equal-rate corrosion
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equal corrosion
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erosion corrosion
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exfoliation corrosion
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external corrosion
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fatigue corrosion
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filiform corrosion
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fireside corrosion
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fluid corrosion
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fretting corrosion
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fuel corrosion
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full immersion corrosion
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galvanic corrosion
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gas-phase corrosion
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gas corrosion
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gas-side corrosion
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grain-boundary corrosion
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graphitic corrosion
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heavy local pitting corrosion
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high-temperature corrosion
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honeycomb corrosion
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hot corrosion
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hot-salt corrosion
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hot-spot corrosion
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hydrogen corrosion
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hydrogen-evolution corrosion
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impingement corrosion
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indoor corrosion
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intercrystalline corrosion
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intragranular corrosion
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isolated corrosion
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knife-line corrosion
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layer corrosion
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leakage-current corrosion
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line corrosion
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lining corrosion
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low-end-temperature corrosion
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marine corrosion
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mechanochemical corrosion
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nonequal-rate corrosion
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nonequal corrosion
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oil corrosion
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organogenic corrosion
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oxygen-adsorption corrosion
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partial immersion corrosion
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patchy corrosion
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penetration corrosion
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pitting corrosion
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pit corrosion
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poultice corrosion
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radiolytic corrosion
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refractory corrosion
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regional corrosion
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sacrificial corrosion
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selective corrosion
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self-sustaining corrosion
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service corrosion
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slag corrosion
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son corrosion
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sour oil corrosion
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spongious corrosion
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steam impingement corrosion
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steamside corrosion
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steam-water corrosion
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stray-current corrosion
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stress corrosion
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sulfur corrosion
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sulfurated hydrogen corrosion
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sweet corrosion
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thermogalvanic corrosion
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transcrystalline corrosion
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trenching corrosion
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tubercular corrosion
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underfilm corrosion
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underground corrosion
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underwater corrosion
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vapor-phase corrosion
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variable immersion corrosion
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waterside corrosion
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wet corrosion -
19 engine
1) двигатель, мотор2) ж.-д. локомотив3) машина4) процессор•to run up the engine — опробовать двигатель ( на режимах работы);to unreverse the engine — выводить двигатель из режима реверса-
light bulb engine
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accelerating engine
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adiabatic engine
-
air breathing engine
-
air engine
-
air-cell engine
-
air-chamber engine
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air-cooled engine
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aircraft engine
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air-feed jet engine
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air-injection engine
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airless-injection engine
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alcohol engine
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analytical engine
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anchor engine
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apogee engine
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approach-correcting engine
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arc jet engine
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arrow engine
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ascent engine
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assisted takeoff engine
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AV-1 engine
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aviation engine
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axial-flow gas turbine engine
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bare engine
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baseline engine
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basic engine
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beating engine
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bipropellant engine
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bismuth ion engine
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bleaching engine
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blowing engine
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blown engine
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booster engine
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boxer engine
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brake engine
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Brayton engine
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breaker engine
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bypass engine
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catalytic engine
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centrifugal expansion engine
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ceramic engine
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coaxial MPD engine
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cogging engine
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cold-reaction engine
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commercial engine
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compression ignition engine
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computing engine
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constant 1 engine
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conventional engine
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crankcase compression engine
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crest engine
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cross-compound blowing engine
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cross-mounted engine
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cryogenic expansion engine
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cryogenic rocket engine
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dead engine
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derated engine
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descent engine
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diesel engine
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diesel-electric engine
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difference engine
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digital engine
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direct-injection engine
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displacement engine
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docking engine
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donkey engine
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double-row engine
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double-row radial engine
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down-rated engine
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drilling engine
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dual-flow turbojet engine
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dual-mode engine
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duct-burning bypass engine
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ducted-fan engine
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electric arcjet engine
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electron-bombardment engine
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emergency propulsion engine
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energy-cell diesel engine
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erosion engine
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expansion engine
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external combustion engine
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F-head engine
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fire engine with extension ladder
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fire engine
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fixed head engine
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flat engine
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flat-head engine
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fluorine-hydrogen engine
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four-barrel engine
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four-cycle engine
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Gardner engine
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gas discharge ionizator electrostatic engine
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gas engine
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gas turbine engine
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gas-driven blowing engine
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gas blowing engine
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gasoline engine
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graphics engine
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heat engine
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heavy equipment diesel engine
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heavy-duty engine
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high bypass ratio engine
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high-compression engine
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high-efficiency engine
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high-I engine
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horizontal engine
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horizontally opposed engine
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Horning engine
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hump engine
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hybrid air-breathing engine
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hybrid-propellant engine
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hydrogen-fueled engine
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I-head engine
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impact volume ionization ion engine
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inboard engine
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indirect-injection engine
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individual cylinder head engine
-
industrial application engine
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inference engine
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inlet over exhaust engine
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in-line engine
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ionic engine
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ion engine
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jet engine
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ladle-car engine
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laser air-jet engine
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laser-driven rocket engine
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laser-heated rocket engine
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laser-propulsion rocket engine
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Lauson engine
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L-head engine
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lift engine
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lift jet engine
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light duty diesel engine
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linear MPD engine
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liquid air cycle engine
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liquid petroleum gases engine
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liquid-propellant engine
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long-stroke engine
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low bypass ratio engine
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low-I engine
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LOX/HC engine
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LOX/LH engine
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magnetogasdynamic engine
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maneuvering engine
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marine application engine
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marine engine
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mercury ion engine
-
mid-flight engine
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model diesel engine
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monkey engine
-
motored engine
-
multifuel engine
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nacelle-mounted engine
-
naturally aspirated engine
-
nonturbo engine
-
oil engine
-
oil-electric engine
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OMS engine
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one-shaft engine
-
open-cylinder engine
-
opposed-piston engine
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Otto engine
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outboard engine
-
overhead valve engine
-
oversquare engine
-
pancake engine
-
petrol engine
-
Petter AV-I Diesel engine
-
Petter W-1 engine
-
photon engine
-
piston ported engine
-
plasmajet rocket engine
-
plasma rocket engine
-
podded engine
-
pollution-free engine
-
potassium ion engine
-
prechamber engine
-
propulsion engine
-
pulping engine
-
pulsejet engine
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pusher engine
-
quench-car engine
-
racing engine
-
radial engine
-
radiation-heated rocket engine
-
radio-frequency ion engine
-
ram engine
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ramjet engine
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Rankine engine
-
RCS engine
-
reciprocating solar engine
-
rectenna-powered ion engine
-
remanufactured engine
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restartable engine
-
rotary engine
-
rubidium ion engine
-
separation engine
-
shaft-turbine engine
-
shunting engine
-
single-shaft gas turbine engine
-
six-cylinder in-line engine
-
solar Brayton engine
-
solar engine
-
solar photon rocket engine
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solar-heated gas engine
-
solar gas engine
-
solar-powered engine
-
spacer plate engine
-
special arrangement engine
-
square engine
-
starting engine
-
steam-driven blowing engine
-
steam blowing engine
-
steering engine
-
Stirling engine
-
stock engine
-
subsonic engine
-
supercharged engine
-
surface ionization engine
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swirl-chamber diesel engine
-
switch engine
-
take-home engine
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tee engine
-
test bed engine
-
T-head engine
-
thermal arc engine
-
thermoelectronic engine
-
three-flow turbojet engine
-
towing engine
-
trans-rear engine
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transverse engine
-
traveling wave plasma engine
-
trimmer engine
-
tripropellant engine
-
truck engine
-
turbine engine
-
turbine expansion engine
-
turbocharged engine
-
turbo engine
-
turbofan engine
-
turbojet engine
-
turboprop engine
-
turboshaft engine
-
turbulence-chamber engine
-
twin rotor engine
-
two-rotor engine
-
two-shaft gas turbine engine
-
two-spool engine
-
unblown engine
-
undersquare engine
-
variable compression engine
-
variable cycle engine
-
variable cylinder engine
-
vehicular engine
-
V-engine
-
volume collision ionization engine
-
Wankel engine
-
warmed-up engine
-
washing engine
-
waste-heat recovery Stirling engine
-
water-cooled engine
-
windmilling engine
-
wing engine
-
W-type engine
-
yard engine -
20 Thomson, James
SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering[br]b. 16 February 1822 Belfast, Ireland (now Northern Ireland)d. 8 May 1892 Glasgow, Scotland[br]Irish civil engineer noted for his work in hydraulics and for his design of the "Vortex" turbine.[br]James Thomson was a pupil in several civil-engineering offices, but the nature of the work was beyond his physical capacity and from 1843 onwards he devoted himself to theoretical studies. Hhe first concentrated on the problems associated with the expansion of liquids when they reach their freezing point: water is one such example. He continued this work with his younger brother, Lord Kelvin (see Thomson, Sir William).After experimentation with a "feathered" paddle wheel as a young man, he turned his attention to water power. In 1850 he made his first patent application, "Hydraulic machinery and steam engines": this patent became his "Vortex" turbine design. He settled in Belfast, the home of the MacAdam-Fourneyron turbine, in 1851, and as a civil engineer became the Resident Engineer to the Belfast Water Commissioners in 1853. In 1857 he was appointed Professor of Civil Engineering and Surveying at Queen's College, Belfast.Whilst it is understood that he made his first turbine models in Belfast, he came to an arrangement with the Williamson Brothers of Kendal to make his turbine. In 1856 Williamsons produced their first turbine to Thomson's design and drawings. This was the Vortex Williamson Number 1, which produced 5 hp (3.7 kW) under a fall of 31 ft (9.4 m) on a 9 in. (23 cm) diameter supply. The rotor of this turbine ran in a horizontal plane. For several years the Williamson catalogue described their Vortex turbine as "designed by Professor James Thomson".Thomson continued with his study of hydraulics and water flow both at Queen's College, Belfast, and, later, at Glasgow University, where he became Professor in 1873, succeeding Macquorn Rankine, another famous engineer. At Glasgow, James Thomson studied the flow in rivers and the effects of erosion on river beds. He was also an authority on geological formations such as the development of the basalt structure of the Giant's Causeway, north of Belfast.James Thomson was an extremely active engineer and a very profound teacher of civil engineering. His form of water turbine had a long life before being displaced by the turbines designed in the twentieth century.[br]Bibliography1850, British patent no. 13,156 "Hydraulic machinery and steam engines".Further ReadingGilkes, 1956, One Hundred Years of Water Power, Kendal.KM
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