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1 gravity losses
Космонавтика: гравитационные потери, потеря тяжести -
2 gravity losses
гравитационные потери; потеря тяжести ( при удалении от планеты)Englsh-Russian aviation and space dictionary > gravity losses
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3 gravity losses
n гравітаційні втрати -
4 loss
потеря; ухудшение; уменьшение; отсутствиеheight loss on recovery — потеря высоты за время вывода (напр. из штопора)
join-up loss of control — потеря управляемости при сборе самолётов [при подходе к строю]
loss of an engine — отказ [выход из строя, потеря тяги] двигателя
loss of artificial feel — отказ автомата [механизма] загрузки [усилий]
loss of electrical power — прекращение электропитания [электроснабжения, подачи электроэнергии]
loss of propulsive power — потеря тяги; потеря мощности, расходуемой на движение
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5 loss
1. потеря; потери2. ослабление; уменьшение; затухание3. проигрыш < в теории игр>loss in dampingloss in frequencyloss of orientationloss of visionacceleration-induced loss of consciousnessattrition lossesbalked landing height lossboundary layer lossescanopy lossclimb power losscontact lossescooldown lossduct lossesducting lossesengine installation lossesG-induced loss of consciousnessgravitational loss of consciousnessgravity-induced loss of consciousnesshearing lossinduced power lossinstallation lossesinterference losslift losseslight lossmixing lossesmomentum losspodding lossespower losspropulsive lossesscrubbing lossesscrubbing drag lossesshaft lossesshock losssingle-hit lossstall lossswirl lossestemperature lossesthrust losstip lossestransmission lossestrim lossvisual loss -
6 control
1. управление || управлять2. контроль || контролировать3. pl. органы управления; рычаги управления4. борьба (напр., с проявлениями в скважине), контроль; наблюдениеcontrol of formation pressure — борьба с проявлениями пластового давления при бурении, сдерживание пластового давления
control of high pressure wells — контроль скважин высокого давления, сдерживание давления в высоконапорных скважинах
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1. контроль; проверка2. управление; регулирование3. орган управления; управляющее устройство
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управление; контроль; механизм подачи; сеть опорных точек (геодезическая основа, привязка); наблюдение
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регулирование, настройка; контроль; управление
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1) контроль; проверка2) управление; регулирование3) орган управления (/i]); управляющее устройство4) борьба (напр. с проявлениями в скважине)•- control of formation pressurecontrol over encountered subsurface pressures — контроль давления во вскрытых пластах;
- control of gas oil ratio
- control of high pressure well
- automatic drilling control
- automatic process control
- automatic winch control
- blowout control
- blowout preventer control
- casing string cementing quality control
- cementing quality control
- centralized control
- choke control
- circulation-loss control
- clay control
- complete control
- computerized production control
- corrosion control
- counterweight swing control
- damage control
- depth control
- direct supporting feed control
- drill control
- driller's control
- drilling control
- drilling mud properties control
- drilling mud rheological properties control
- drilling process control
- elastic control
- facies control of oil occurrence
- fail-safe control
- failure control
- failure recurrence control
- feed control
- feed control of direct supporting type
- field development control
- fire control
- flow control
- flow-ratio control
- formation pressure control
- gas-hydration control
- gas-oil level control
- gas-production control
- ground control
- hole deviation control
- hydraulic control
- hydraulic control of disk clutch
- hydraulic drilling control
- inspection control
- interface level control
- level control
- lever control
- liquid level control
- loss control
- lost circulation control
- maintainability control
- maintenance control
- manufacturing reliability control
- mud control
- nuclear powered blowout presenter controls
- oil-losses control
- oil-production control
- oil-spill control
- oil-stock loss control
- paraffin control
- pipeline control
- pipeline dispatch control
- pollution control
- pressure control
- preventive control
- producing well control
- production control
- reliability control
- reliability data control
- refinery control
- remote control
- reverse control
- safety control
- sand control
- sand pressure control
- scale control
- serviceability control
- solids control
- stepless speed control
- teletype control
- temperature control
- throttle control
- tie-bottom control
- tong-torque control
- total drilling control
- total mechanical solids control
- traffic control
- valve control
- water control
- weight control
- weight-on-bit control
- well control
- well boring control
- well production control
- well velocity control
- withdrawal rate control* * * -
7 preparation
1. n приготовление, подготовкаpreparations for war — военные приготовления; подготовка к войне
T. Committee preparation — техническая подготовка
2. n состояние готовности, готовность3. n приготовление уроковarmament preparation — военные приготовления; вооружение
4. n время, потраченное на приготовление уроков5. n спец. препарат6. n спец. препарирование7. n спец. лекарство8. n спец. тех. предварительная обработка9. n спец. горн. обогащениеСинонимический ряд:1. arrangement (noun) adaptation; arrangement; groundwork; incubation; plan; preparedness; proceeding; readiness; treatment2. compound (noun) compound; concoction; drug; medication; mixture; pharmaceutical; preparative; prescription; product3. education (noun) background; education; experience; grooming; grounding; learning; schooling; teaching; training4. making ready (noun) establishment; formation; gestation; making ready; manufacture; preparing; priming; putting in order; readying; rehearsal -
8 coal preparation
English-Russian big polytechnic dictionary > coal preparation
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9 Argand, François-Pierre Amis
[br]b. 5 July 1750 Geneva, Switzerlandd. October 1803 London, England[br]Swiss inventor of the Argand lamp.[br]Son of a clockmaker, he studied physics and chemistry under H.-D. de Saussure (1740– 99). In 1775 he moved to Paris, where he taught chemistry and presented a paper on electrical phenomena to the Académie Royale des Sciences. He assisted the Montgolfier brothers in their Paris balloon ascents.From 1780 Argand spent some time in Montpellier, where he conceived the idea of the lamp that was to make him famous. It was an oil lamp with gravity oil feed, in which the flame was enlarged by burning it in a current of air induced by two concentric iron tubes. It produced ten times the illumination of the simple oil lamp. From the autumn of 1783 to summer 1785, Argand travelled to London and Birmingham to promote the manufacture and sale of his lamp. Upon his return to Paris, he found that his design had been plagiarized; with others, Argand sought to establish his priority, and Paul Abeille published a tract, Déscouverte des lampes à courant d'air et à cylindre (1785). As a result, the Académie granted Argand a licence to manufacture the lamp. However, during the Revolution, Argand's factories were destroyed and his licence annulled. He withdrew to Versoix, near Geneva. In 1793, the English persuaded him to take refuge in England and tried, apparently without success, to obtain recompense for his losses.Argand is also remembered for his work on distillation and on the water distributor or hydraulic ram, which was conceived with Joseph Montgolfier in 1797 and recognized by the grant of a patent in the same year.[br]Further ReadingM.Schroder, 1969, The Armand Burner: Its Origin and Development in France and England, 1781–1800, Odense University Press.LRDBiographical history of technology > Argand, François-Pierre Amis
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