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1 producing structure
Англо-русский словарь нормативно-технической терминологии > producing structure
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2 producing structure
Большой англо-русский и русско-английский словарь > producing structure
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3 producing structure
Англо-русский словарь нефтегазовой промышленности > producing structure
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4 producing structure
Нефть: продуктивная структура -
5 echo-producing structure
Медицина: эхогенная структура, эхопозитивная структураУниверсальный англо-русский словарь > echo-producing structure
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6 echo-producing structure
эхогенная структура, эхопозитивная структураАнгло-русский медицинский словарь > echo-producing structure
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7 structure
1. структура, устройства2. сооружение; устройство; строение; здание3. текстура; тектоника— fine grained structure
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1. строение, структура2. конструкция3. система; устройство; сооружениеone-element failure permissible structure — система, допускающая отказ одного элемента
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2. сооружение, устройстство
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структура () нарушение спокойного залегания горных пород; 2) глубинное строение, характеризующееся складчатостью и ( или) зонами нарушений; 3) сейсмическая аномалия, обычно замкнутая изогипса на карте)
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1) система; устройство; сооружение2) конструкция4) текстура•- aleurolitic structure
- Arctic drilling and production structure
- block structure
- blockout preventer structure
- buried structure
- cavernous structure
- cleavable structure
- cleavage structure
- close-grained structure
- concrete gravity offshore structure
- concrete offshore structure
- conformable structure
- deep toothed cutting structure
- deteriorating structure
- developed structure
- dispersed structure
- domal structure
- dome structure
- down structure
- drilling bit structure
- drilling bit bearing structure
- drilling bit cutting structure
- fail-safe structure
- fan structure
- fault-fold structure
- favorable structure
- fixed gravity structure
- folded structure
- foliated structure
- framework structure
- gas-bearing structure
- gel structure
- gently sloping structure
- geological structure
- good structure
- gravity structure
- guide structure
- honeycombed structure
- inferred structure
- intradome structure
- known geological structure
- layered structure
- micaceous structure
- minimum offshore support structure
- monotone structure
- nonproductive structure
- nonuniform structure
- offshore structure
- offshore oil-field structure
- oil-bearing structure
- oil-field structure
- oil-field surface structure
- oil-field undersurface structure
- one-element failure permissible structure
- platform structure
- platy structure
- pool structure
- porous structure
- pricing structure
- producing structure
- productive structure
- redundant structure
- refractor structure
- regional structure
- regulatory structure
- reliability structure
- reservoir structure
- salt-dome structure
- schistose structure
- sedimentary structure
- seismic nose structure
- self-floating structure
- stable gel structure
- steel offshore structure
- stratified structure
- supply structure
- supporting structure
- tank supporting structure
- tariff structure
- tectonic structure
- unclosed structure
- underground structure
- undersurface structure
- waterborn upper structure
- wellhead reentry structure
- wood structure* * *• 1) структура; 2) сооружениеАнгло-русский словарь нефтегазовой промышленности > structure
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8 productive structure
Англо-русский словарь нормативно-технической терминологии > productive structure
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9 продуктивная структура
Большой англо-русский и русско-английский словарь > продуктивная структура
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10 well
1. скважина2. колодец3. источник4. отстойник, зумпфdual completion gas well — газовая скважина, законченная в двух горизонтах
dual completion oil well — нефтяная скважина, законченная в двух горизонтах
multiple string small diameter well — скважина, пробуренная для одновременной и раздельной эксплуатации нескольких продуктивных горизонтов, в которую спущено две и более эксплуатационных колонн малого диаметра
well out of control — скважина, фонтанирование которой не удаётся закрыть; открыто фонтанирующая скважина
well producing from … — эксплуатационная скважина, проведенная на (такой-то) пласт
— dry well— gas well— key well— oil well— well off— wet well
* * *
to abandon a well — ликвидировать скважину;
to bean a well back — снижать дебит фонтанирующей скважины;
to bean a well up — повышать дебит фонтанирующей скважины;
to blow a well — открывать фонтанирующую скважину на короткое время (для удаления воды, песка);
to bring a well in — вызывать приток пластового флюида в скважину;
to bump off a well — отсоединять насосную скважину от группового привода;
to case a well — обсаживать ствол скважины;
to complete a well — заканчивать скважину;
to dry up a well — откачивать жидкость из скважины;
to flow a well hard — эксплуатировать фонтанирующую скважину с максимально возможным дебитом;
to flush a well out — промывать скважину;
to hand off a well — отсоединять насосную скважину от группового привода;
to junk a well — ликвидировать скважину;
to kill a well — глушить скважину (уравновешивать пластовое давление);
to knife a well — чистить скважину (от парафина) скребками;
to line a well — обсаживать ствол скважины;
to mud a well up — подавать буровой раствор в скважину (после бурения с продувкой);
to place a well on choke — начинать дросселировать поток из скважины с помощью штуцера;
to plug up a well — устанавливать в скважину цементную пробку (с целью её ликвидации);
to pull a well — ликвидировать скважину с извлечением лифтовых труб и насосного оборудования;
to put a well on production — вводить скважину в эксплуатацию;
to put a well on the pump — 1. начинать насосную эксплуатацию скважины; 2. устанавливать насосный подъёмник в скважине
to rework a well — восстановить дебит скважины;
to rock a well — возбуждать приток в скважине попеременным открытием и закрытием устья;
to shoot a well — торпедировать скважину;
to shut down a well — консервировать скважину (в процессе строительства);
to shut in a well — закрывать скважину, останавливать скважину (устьевой задвижкой);
to strip a well — попеременно двигать колонны насосных штанг и лифтовых труб в скважине (для предотвращения скопления парафина);
to suspend a well — законсервировать строящуюся скважину;
to test a well — измерять дебит скважины;
to wake up a well — вызывать приток пластового флюида в скважину;
well on the pump — насосная скважина;
— dry well— gas well— key well— oil well
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скважина; колодец
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2) резервуар; компенсационный колодец, отстойник, зумпф•well has stopped flowing naturally — скважина прекратила естественное фонтанирование;
well imperfect due of method of completion — скважина, несовершенная по способу заканчивания;
well in operation — действующая скважина;
well kicked off natural — скважина, начавшая фонтанировать без возбуждения, без тартания и без кислотной обработки;
well off — простаивающая скважина;
well on the beam — скважина с насосным подъёмником;
well on the pump — насосная скважина;
well out of control — открыто фонтанирующая скважина; скважина, фонтанирование которой не удается остановить ();
well out of operation — бездействующая скважина;
well put into production — скважина, введённая в эксплуатацию;
well set on packer — скважина, оборудования пакером;
to bean a well back — снижать дебит фонтанирующей скважины;
to bean a well up — повышать дебит фонтанирующей скважины;
to blow a well — открывать фонтанирующую скважину на короткое время (<<для удаления воды>);
to blow a well clean — продувать скважину;
to bring a well in — вызывать приток пластового флюида в скважину;
to bring in a well — ввести скважину в эксплуатацию;
to bump off a well — отсоединять насосную скважину от группового привода;
to cap a well — ликвидировать скважину;
to case a well — крепить скважину обсадными трубами, обсаживать ствол скважины;
to complete a well — 1) подготавливать скважину к эксплуатации 2) заканчивать скважину;
to drill a well — бурить скважину;
to drive a well — бурить скважину;
to dry up a well — откачивать жидкость из скважины;
to dual a well — 1) эксплуатировать одновременно два горизонта в скважине 2) использовать силовую установку одной скважины для эксплуатации другой;
to flow a well hard — эксплуатировать фонтанирующую скважину с максимально возможным дебитом;
to flush a well out — промывать скважину;
to get a well back on production — возвращать скважину в эксплуатацию;
to hand a well off — прекращать насосную эксплуатацию скважины;
to hand off a well — отсоединять насосную скважину от группового привода;
to junk a well — ликвидировать скважину;
to knife a well — чистить скважину ( от парафина) скребками;
to line a well — крепить скважину обсадными трубами, обсаживать ствол скважины;
to place a well on choke — начинать дросселировать поток из скважины с помощью штуцера;
to prepare a well for production — подготавливать скважину к эксплуатации;
to pull a well — ликвидировать скважину с извлечением насосно-компрессорных труб и насосного оборудования;
to put a well back on production — возвращать скважину в эксплуатацию;
to put a well into production — вводить скважину в эксплуатацию;
to put a well on production — вводить скважину в эксплуатацию;
to put a well on stream — вводить скважину в эксплуатацию;
to put a well on the pump — 1) начинать насосную эксплуатацию скважины 2) устанавливать насосный подъёмник в скважине;
to return a well on production — возвращать скважину в эксплуатацию; повторно вводить скважину в эксплуатацию;
to rework a well — восстановить дебит скважины;
to rock a well — возбуждать приток в скважине попеременным открытием и закрытием устья;
to shoot a well — торпедировать скважину;
to shut in a well — закрывать скважину; останавливать фонтанирование; останавливать скважину ( устьевой задвижкой);
to start a well — приступать к бурению скважины;
to strip a well — попеременно двигать колонны насосных штанг и насосно-компрессорных труб в скважине ( для предотвращения скопления парафина);
to suspend a well — консервировать строящуюся скважину;
to test a well — измерять дебит скважины;
to test a well for production — испытывать скважину на приток;
to wake up a well — вызывать приток пластового флюида в скважину;
to wash a well into production — вводить скважину в эксплуатацию понижением уровня воды;
- abandoned condensate wellto wash a well out — промывать скважину;
- abandoned gas well
- abandoned oil well
- abandoned oil-and-gas well
- abnormal-pressure well
- absorption well
- Abyssinian well
- adjacent well
- adjoining well
- appraisal well
- artesian well
- barefooted well
- barren well
- base well
- beam well
- beam-pumped well
- belching well
- benchmark well
- blow well
- blowing well
- blowout well
- blue sky exploratory well
- borderline well
- bore well
- Braden head gas well
- breakthrough well
- breathing well
- brought-in well
- cable-tool well
- cased well
- cased-through well
- cemented-up well
- center well
- closed-in well
- close-spaced wells
- cluster well
- commercial well
- completed well
- condensate well
- confirmation well
- connected well
- controlled directional well
- converted gas-input well
- cored well
- corner well
- corrosive well
- cratering well
- crooked well
- curved well
- dead well
- declined well
- deep well
- deflected well
- development well
- development gas well
- development test well
- deviated well
- deviating well
- dewatering well
- directional well
- directionally drilled well
- discovery well
- disposal well
- diving well
- down-dip well
- drain-hole well
- drawn well
- drawned-out well
- drill well
- drill ship well
- drill ship center well
- drilled well
- drilled gas-input well
- drilled water-input well
- drilling well
- driven well
- drowned well
- dry well
- dual well
- dual-completion well
- dual-completion gas well
- dual-completion oil well
- dually-completed well
- dual-pumping well
- dual-zone well
- edge well
- exception well
- exhausted well
- exploratory well
- extension well
- field well
- field development well
- fill-in well
- flank well
- flooded well
- flowing well
- flowing producing oil well
- fresh-water well
- fully penetrating well
- gas well
- gas-injection well
- gaslift well
- geophysical well
- geothermal well
- gurgling well
- gusher well
- hand dog well
- head well
- high-flow-rate well
- high-pressure well
- horizontal well
- hydrodynamically imperfect well
- hydrodynamically perfect well
- hypothetical well
- image well
- imperfect well
- inactive well
- inclined well
- individual well
- infill well
- injection well
- injured well
- input well
- inspection well
- intake well
- intracontour well
- isolated-branched well
- jack well
- junked well
- key well
- kicking well
- killed well
- killer well
- leaking well
- line well
- low pressure well
- marginal well
- medium-depth well
- monitor well
- most probably well
- mudded well
- mudded-up well
- multipay well
- multiple-completion well
- multiple-string small diameter well
- multiple-zone well
- multistring well
- natural well
- neighboring well
- noncommercial well
- nonproducing well
- nonproductive well
- observation well
- off-pattern injection well
- off-structure well
- offset well
- offshore well
- oil well
- old well drilled deeper
- old well plugged back
- old well worked-over
- old abandoned well
- on-structure well
- on-the-beam well
- on-the-pump well
- open hole well
- orifice well
- out-of-control well
- outpost extension well
- output well
- overhauled well
- partially penetrating well
- paying well
- perfect well
- perforated well
- perimeter well
- piestic well
- pinch-out well
- pioneer well
- pipe well
- planned well
- platform well
- plugged-and-abandoned well
- pressure well
- pressure-observation well
- pressure-relief well
- producing well
- producing oil well
- producing oil-and-gas well
- production well
- prolific well
- prospect well
- pumped well
- pumper well
- pumping well
- pumping producing oil well
- purposely deviated well
- purposely slanted well
- quadruple completion well
- recipient wells
- recovery well
- relief well
- returned well to production
- rod-line well
- running well
- salt-dome well
- salt-up well
- salt-water well
- salt-water disposal well
- salt-water injection well
- sand well
- sand-clogged well
- sanded well
- sanded-up well
- sanding-up well
- sand-plugged well
- sand-producing well
- sand-up well
- sandy well
- satellite well
- seabed well
- selective water-injection well
- service well
- shallow well
- shut-in well
- shut-in gas well
- shut-in oil well
- side well
- single well
- single-completion well
- single-jacker well
- single-string well
- slanted well
- slim hole well
- special well
- staggered wells
- steam well
- steam-injection well
- step-out well
- straight well
- stratigraphic well
- stratigraphic test well
- stripped well
- stripper well
- strong well
- structure test well
- subsalt well
- sunken well
- superdeep well
- supply well
- surging well
- suspended well
- temporarily abandoned well
- temporarily shut-in well
- test well
- triple-completion well
- tubed well
- turnkey well
- twin well
- two-casing well
- two-string well
- ultradeep well
- underwater well
- unloading well
- unprofitable well
- untubed well
- upstream well
- vertical well
- waste disposal well
- water well
- water-dependent well
- water-disposal well
- water-free well
- water-injection well
- water-producing well
- water-supply well
- wet well
- wide-spaced wells
- wild well
- wild gas well
- wildcat well
- worked-over well
- workover well* * * -
11 Well
[Wellington] — веллингтон (свита отдела леонард пермской системы, Среднеконтинентальный район)
* * *
to abandon a well — ликвидировать скважину;
to bean a well back — снижать дебит фонтанирующей скважины;
to bean a well up — повышать дебит фонтанирующей скважины;
to blow a well — открывать фонтанирующую скважину на короткое время (для удаления воды, песка);
to bring a well in — вызывать приток пластового флюида в скважину;
to bump off a well — отсоединять насосную скважину от группового привода;
to case a well — обсаживать ствол скважины;
to complete a well — заканчивать скважину;
to dry up a well — откачивать жидкость из скважины;
to flow a well hard — эксплуатировать фонтанирующую скважину с максимально возможным дебитом;
to flush a well out — промывать скважину;
to hand off a well — отсоединять насосную скважину от группового привода;
to junk a well — ликвидировать скважину;
to kill a well — глушить скважину (уравновешивать пластовое давление);
to knife a well — чистить скважину (от парафина) скребками;
to line a well — обсаживать ствол скважины;
to mud a well up — подавать буровой раствор в скважину (после бурения с продувкой);
to place a well on choke — начинать дросселировать поток из скважины с помощью штуцера;
to plug up a well — устанавливать в скважину цементную пробку (с целью её ликвидации);
to pull a well — ликвидировать скважину с извлечением лифтовых труб и насосного оборудования;
to put a well on production — вводить скважину в эксплуатацию;
to put a well on the pump — 1. начинать насосную эксплуатацию скважины; 2. устанавливать насосный подъёмник в скважине
to rework a well — восстановить дебит скважины;
to rock a well — возбуждать приток в скважине попеременным открытием и закрытием устья;
to shoot a well — торпедировать скважину;
to shut down a well — консервировать скважину (в процессе строительства);
to shut in a well — закрывать скважину, останавливать скважину (устьевой задвижкой);
to strip a well — попеременно двигать колонны насосных штанг и лифтовых труб в скважине (для предотвращения скопления парафина);
to suspend a well — законсервировать строящуюся скважину;
to test a well — измерять дебит скважины;
to wake up a well — вызывать приток пластового флюида в скважину;
well on the pump — насосная скважина;
— dry well— gas well— key well— oil well
* * *
скважина; колодец
* * *
* * *
2) резервуар; компенсационный колодец, отстойник, зумпф•well has stopped flowing naturally — скважина прекратила естественное фонтанирование;
well imperfect due of method of completion — скважина, несовершенная по способу заканчивания;
well in operation — действующая скважина;
well kicked off natural — скважина, начавшая фонтанировать без возбуждения, без тартания и без кислотной обработки;
well off — простаивающая скважина;
well on the beam — скважина с насосным подъёмником;
well on the pump — насосная скважина;
well out of control — открыто фонтанирующая скважина; скважина, фонтанирование которой не удается остановить ();
well out of operation — бездействующая скважина;
well put into production — скважина, введённая в эксплуатацию;
well set on packer — скважина, оборудования пакером;
to bean a well back — снижать дебит фонтанирующей скважины;
to bean a well up — повышать дебит фонтанирующей скважины;
to blow a well — открывать фонтанирующую скважину на короткое время (<<для удаления воды>);
to blow a well clean — продувать скважину;
to bring a well in — вызывать приток пластового флюида в скважину;
to bring in a well — ввести скважину в эксплуатацию;
to bump off a well — отсоединять насосную скважину от группового привода;
to cap a well — ликвидировать скважину;
to case a well — крепить скважину обсадными трубами, обсаживать ствол скважины;
to complete a well — 1) подготавливать скважину к эксплуатации 2) заканчивать скважину;
to drill a well — бурить скважину;
to drive a well — бурить скважину;
to dry up a well — откачивать жидкость из скважины;
to dual a well — 1) эксплуатировать одновременно два горизонта в скважине 2) использовать силовую установку одной скважины для эксплуатации другой;
to flow a well hard — эксплуатировать фонтанирующую скважину с максимально возможным дебитом;
to flush a well out — промывать скважину;
to get a well back on production — возвращать скважину в эксплуатацию;
to hand a well off — прекращать насосную эксплуатацию скважины;
to hand off a well — отсоединять насосную скважину от группового привода;
to junk a well — ликвидировать скважину;
to knife a well — чистить скважину ( от парафина) скребками;
to line a well — крепить скважину обсадными трубами, обсаживать ствол скважины;
to place a well on choke — начинать дросселировать поток из скважины с помощью штуцера;
to prepare a well for production — подготавливать скважину к эксплуатации;
to pull a well — ликвидировать скважину с извлечением насосно-компрессорных труб и насосного оборудования;
to put a well back on production — возвращать скважину в эксплуатацию;
to put a well into production — вводить скважину в эксплуатацию;
to put a well on production — вводить скважину в эксплуатацию;
to put a well on stream — вводить скважину в эксплуатацию;
to put a well on the pump — 1) начинать насосную эксплуатацию скважины 2) устанавливать насосный подъёмник в скважине;
to return a well on production — возвращать скважину в эксплуатацию; повторно вводить скважину в эксплуатацию;
to rework a well — восстановить дебит скважины;
to rock a well — возбуждать приток в скважине попеременным открытием и закрытием устья;
to shoot a well — торпедировать скважину;
to shut in a well — закрывать скважину; останавливать фонтанирование; останавливать скважину ( устьевой задвижкой);
to start a well — приступать к бурению скважины;
to strip a well — попеременно двигать колонны насосных штанг и насосно-компрессорных труб в скважине ( для предотвращения скопления парафина);
to suspend a well — консервировать строящуюся скважину;
to test a well — измерять дебит скважины;
to test a well for production — испытывать скважину на приток;
to wake up a well — вызывать приток пластового флюида в скважину;
to wash a well into production — вводить скважину в эксплуатацию понижением уровня воды;
- abandoned condensate wellto wash a well out — промывать скважину;
- abandoned gas well
- abandoned oil well
- abandoned oil-and-gas well
- abnormal-pressure well
- absorption well
- Abyssinian well
- adjacent well
- adjoining well
- appraisal well
- artesian well
- barefooted well
- barren well
- base well
- beam well
- beam-pumped well
- belching well
- benchmark well
- blow well
- blowing well
- blowout well
- blue sky exploratory well
- borderline well
- bore well
- Braden head gas well
- breakthrough well
- breathing well
- brought-in well
- cable-tool well
- cased well
- cased-through well
- cemented-up well
- center well
- closed-in well
- close-spaced wells
- cluster well
- commercial well
- completed well
- condensate well
- confirmation well
- connected well
- controlled directional well
- converted gas-input well
- cored well
- corner well
- corrosive well
- cratering well
- crooked well
- curved well
- dead well
- declined well
- deep well
- deflected well
- development well
- development gas well
- development test well
- deviated well
- deviating well
- dewatering well
- directional well
- directionally drilled well
- discovery well
- disposal well
- diving well
- down-dip well
- drain-hole well
- drawn well
- drawned-out well
- drill well
- drill ship well
- drill ship center well
- drilled well
- drilled gas-input well
- drilled water-input well
- drilling well
- driven well
- drowned well
- dry well
- dual well
- dual-completion well
- dual-completion gas well
- dual-completion oil well
- dually-completed well
- dual-pumping well
- dual-zone well
- edge well
- exception well
- exhausted well
- exploratory well
- extension well
- field well
- field development well
- fill-in well
- flank well
- flooded well
- flowing well
- flowing producing oil well
- fresh-water well
- fully penetrating well
- gas well
- gas-injection well
- gaslift well
- geophysical well
- geothermal well
- gurgling well
- gusher well
- hand dog well
- head well
- high-flow-rate well
- high-pressure well
- horizontal well
- hydrodynamically imperfect well
- hydrodynamically perfect well
- hypothetical well
- image well
- imperfect well
- inactive well
- inclined well
- individual well
- infill well
- injection well
- injured well
- input well
- inspection well
- intake well
- intracontour well
- isolated-branched well
- jack well
- junked well
- key well
- kicking well
- killed well
- killer well
- leaking well
- line well
- low pressure well
- marginal well
- medium-depth well
- monitor well
- most probably well
- mudded well
- mudded-up well
- multipay well
- multiple-completion well
- multiple-string small diameter well
- multiple-zone well
- multistring well
- natural well
- neighboring well
- noncommercial well
- nonproducing well
- nonproductive well
- observation well
- off-pattern injection well
- off-structure well
- offset well
- offshore well
- oil well
- old well drilled deeper
- old well plugged back
- old well worked-over
- old abandoned well
- on-structure well
- on-the-beam well
- on-the-pump well
- open hole well
- orifice well
- out-of-control well
- outpost extension well
- output well
- overhauled well
- partially penetrating well
- paying well
- perfect well
- perforated well
- perimeter well
- piestic well
- pinch-out well
- pioneer well
- pipe well
- planned well
- platform well
- plugged-and-abandoned well
- pressure well
- pressure-observation well
- pressure-relief well
- producing well
- producing oil well
- producing oil-and-gas well
- production well
- prolific well
- prospect well
- pumped well
- pumper well
- pumping well
- pumping producing oil well
- purposely deviated well
- purposely slanted well
- quadruple completion well
- recipient wells
- recovery well
- relief well
- returned well to production
- rod-line well
- running well
- salt-dome well
- salt-up well
- salt-water well
- salt-water disposal well
- salt-water injection well
- sand well
- sand-clogged well
- sanded well
- sanded-up well
- sanding-up well
- sand-plugged well
- sand-producing well
- sand-up well
- sandy well
- satellite well
- seabed well
- selective water-injection well
- service well
- shallow well
- shut-in well
- shut-in gas well
- shut-in oil well
- side well
- single well
- single-completion well
- single-jacker well
- single-string well
- slanted well
- slim hole well
- special well
- staggered wells
- steam well
- steam-injection well
- step-out well
- straight well
- stratigraphic well
- stratigraphic test well
- stripped well
- stripper well
- strong well
- structure test well
- subsalt well
- sunken well
- superdeep well
- supply well
- surging well
- suspended well
- temporarily abandoned well
- temporarily shut-in well
- test well
- triple-completion well
- tubed well
- turnkey well
- twin well
- two-casing well
- two-string well
- ultradeep well
- underwater well
- unloading well
- unprofitable well
- untubed well
- upstream well
- vertical well
- waste disposal well
- water well
- water-dependent well
- water-disposal well
- water-free well
- water-injection well
- water-producing well
- water-supply well
- wet well
- wide-spaced wells
- wild well
- wild gas well
- wildcat well
- worked-over well
- workover well* * * -
12 Sullivan, Louis Henry
SUBJECT AREA: Architecture and building[br]b. 3 September 1856 Boston, Massachusetts, USAd. 14 April 1924 Chicago, Illinois, USA[br]American architect whose work came to be known as the "Chicago School of Architecture" and who created a new style of architecture suited specifically to steel-frame, high-rise structures.[br]Sullivan, a Bostonian, studied at the Massachusetts Institute of Technology. Soon he joined his parents, who had moved to Chicago, and worked for a while in the office of William Le Baron Jenney, the pioneer of steel-frame construction. After spending some time studying at the Ecole des Beaux Arts in Paris, in 1875 Sullivan returned to Chicago, where he later met and worked for the Danish architect Dankmar Adler, who was practising there. In 1881 the two architects became partners, and during the succeeding fifteen years they produced their finest work and the buildings for which Sullivan is especially known.During the early 1880s in Chicago, load-bearing, metal-framework structures that made lofty skyscrapers possible had been developed (see Jenney and Holabird). Louis H.Sullivan initiated building design to stress and complement the metal structure rather than hide it. Moving onwards from H.H.Richardson's treatment of his Marshall Field Wholesale Store in Chicago, Sullivan took the concept several stages further. His first outstanding work, built with Adler in 1886–9, was the Auditorium Building in Chicago. The exterior, in particular, was derived largely from Richardson's Field Store, and the building—now restored—is of bold but simple design, massively built in granite and stone, its form stressing the structure beneath. The architects' reputation was established with this building.The firm of Sullivan \& Adler established itself during the early 1890s, when they built their most famous skyscrapers. Adler was largely responsible for the structure, the acoustics and function, while Sullivan was responsible for the architectural design, concerning himself particularly with the limitation and careful handling of ornament. In 1892 he published his ideas in Ornament in Architecture, where he preached restraint in its quality and disposition. He established himself as a master of design in the building itself, producing a rhythmic simplicity of form, closely related to the structural shape beneath. The two great examples of this successful approach were the Wainwright Building in St Louis, Missouri (1890–1) and the Guaranty Building in Buffalo, New York (1894–5). The Wainwright Building was a ten-storeyed structure built in stone and brick and decorated with terracotta. The vertical line was stressed throughout but especially at the corners, where pilasters were wider. These rose unbroken to an Art Nouveau type of decorative frieze and a deeply projecting cornice above. The thirteen-storeyed Guaranty Building is Sullivan's masterpiece, a simple, bold, finely proportioned and essentially modern structure. The pilaster verticals are even more boldly stressed and decoration is at a minimum. In the twentieth century the almost free-standing supporting pillars on the ground floor have come to be called pilotis. As late as the 1920s, particularly in New York, the architectural style and decoration of skyscrapers remained traditionally eclectic, based chiefly upon Gothic or classical forms; in view of this, Sullivan's Guaranty Building was far ahead of its time.[br]BibliographyArticle by Louis H.Sullivan. Address delivered to architectural students June 1899, published in Canadian Architecture Vol. 18(7):52–3.Further ReadingHugh Morrison, 1962, Louis Sullivan: Prophet of Modern Architecture.Willard Connely, 1961, Louis Sullivan as He Lived, New York: Horizon Press.DY -
13 area
1. площадь, площадка, поверхность2. зона, район, область, территория, участокarea of influence of a well — площадь влияния [интерференции] скважины
— effective cross-sectional area— net area— oil area
* * *
место; площадкаreceipt, inspection and maintenance area — площадка для приёмки, осмотра и технического обслуживания
* * *
площадь; зона, область; поверхность
* * *
1) место; площадь; площадка; поверхность2) зона, район, область, территория, участок•- area of influence
- acquisition area
- closely drilled area
- contact area
- contaminated area
- corroded area
- corrosion area
- critical area of formation
- cross sectional area
- dead area
- difficult record area
- drainage area of well
- drilled area
- exhausted area
- exploration area
- flooding area
- flow area
- free area
- geologically complex area
- geophone base area
- infiltration area
- influence area of well
- initial productive area
- injection area
- interfacial area
- interstital surface area
- maintenance area
- mining area
- no-reflection area
- no-return area
- oil area
- oil-bearing area
- oil-producing area
- open area of screen
- original cross-sectional area
- pattern area
- payable area
- petroferous area
- plan area
- poor record area
- pore surface area
- potential area
- problem area
- producing area
- prospective area
- proved area
- receipt, inspection and maintenance area
- reflection exploration area
- refraction exploration area
- repair area
- rig deck area
- sectional area
- seismic area
- seismic survey area
- service area
- set back area
- slip area
- slot area
- soft rock area
- source area
- specialized repair area
- spread area
- surface area of structure
- swept reservoir area
- target area
- tongs area of pipe
- transit area
- unproductive area
- vulnerable area
- watered field area
- waterflood area
- water-to-oil area
- wave generation area
- wearout area
- welding area
- well-drainage area
- well-head area
- well-influence area
- well-pattern dead area
- wetted area
- wild-cat area
- wire-cloth area* * *• место• площадка• поле• район -
14 Turner, Richard
[br]b. 1798 probably Dublin, Ireland d. 1881[br]Irish engineer offerrovitreous structures such as glasshouses and roofs of railway terminus buildings. Lime Street Station, Liverpool, erected 1849–50, was a notable example of the latter.[br]Turner's first glasshouse commission was for the Palm House at the Botanic Gardens in Belfast, begun in 1839; this structure was designed by Charles Lanyon, Turner being responsible for the ironwork construction. The Belfast Palm House was followed in 1843 by the Palm House for the Royal Dublin Society, but the structure for which Turner is best known is the famous Palm House in the Royal Botanic Gardens at Kew Gardens in London. This was originally designed in 1844 by the architect Decimus Burton, but his concept was rejected and Turner was asked to design a new one. Burton tried again, basing his new design upon that of Turner but also incorporating features that made it more similar to the famous Great Conservatory by Paxton at Chatsworth. Finally, Turner was contracted to build the Palm Stove in collaboration with Burton. Completed in 1848, the Kew Palm House is the finest example of the glasshouses of that era. This remarkable structure is simple but impressive: it is 362 ft (110 m) long and is covered by 45,000 ft2 (4,180 m2) of greenish glass. Inside, in the central taller part, a decorative, cast-iron, spiral staircase gives access to an upper gallery, from where tall plants may be clearly viewed; the roof rises to 62 ft (19 m). The curving, glazed panels, set in ribs of wrought iron, rise from a low masonry wall. The ingenious method of construction of these ribs was patented by Turner in 1846. It consists of wrought-iron tie rods inserted into hollow cast-iron tubes; these can be tightened after the erection of the building is complete, so producing a stable, balanced structure not unlike the concept of a timber-trussed roof. The Palm Stove has only recently undergone extensive adaptation to modern needs.[br]Further ReadingJ.Hix, 1974, The Glass House, Cambridge, Mass.: MIT Press, pp. 122–7 (the Palm House at Kew).U.Kulturmann, 1979, Architecture and Urbanism, Tokyo, pp. 76–81 (the Palm House at Kew).DY -
15 Language
Philosophy is written in that great book, the universe, which is always open, right before our eyes. But one cannot understand this book without first learning to understand the language and to know the characters in which it is written. It is written in the language of mathematics, and the characters are triangles, circles, and other figures. Without these, one cannot understand a single word of it, and just wanders in a dark labyrinth. (Galileo, 1990, p. 232)It never happens that it [a nonhuman animal] arranges its speech in various ways in order to reply appropriately to everything that may be said in its presence, as even the lowest type of man can do. (Descartes, 1970a, p. 116)It is a very remarkable fact that there are none so depraved and stupid, without even excepting idiots, that they cannot arrange different words together, forming of them a statement by which they make known their thoughts; while, on the other hand, there is no other animal, however perfect and fortunately circumstanced it may be, which can do the same. (Descartes, 1967, p. 116)Human beings do not live in the object world alone, nor alone in the world of social activity as ordinarily understood, but are very much at the mercy of the particular language which has become the medium of expression for their society. It is quite an illusion to imagine that one adjusts to reality essentially without the use of language and that language is merely an incidental means of solving specific problems of communication or reflection. The fact of the matter is that the "real world" is to a large extent unconsciously built on the language habits of the group.... We see and hear and otherwise experience very largely as we do because the language habits of our community predispose certain choices of interpretation. (Sapir, 1921, p. 75)It powerfully conditions all our thinking about social problems and processes.... No two languages are ever sufficiently similar to be considered as representing the same social reality. The worlds in which different societies live are distinct worlds, not merely the same worlds with different labels attached. (Sapir, 1985, p. 162)[A list of language games, not meant to be exhaustive:]Giving orders, and obeying them- Describing the appearance of an object, or giving its measurements- Constructing an object from a description (a drawing)Reporting an eventSpeculating about an eventForming and testing a hypothesisPresenting the results of an experiment in tables and diagramsMaking up a story; and reading itPlay actingSinging catchesGuessing riddlesMaking a joke; and telling itSolving a problem in practical arithmeticTranslating from one language into anotherLANGUAGE Asking, thanking, cursing, greeting, and praying-. (Wittgenstein, 1953, Pt. I, No. 23, pp. 11 e-12 e)We dissect nature along lines laid down by our native languages.... The world is presented in a kaleidoscopic flux of impressions which has to be organized by our minds-and this means largely by the linguistic systems in our minds.... No individual is free to describe nature with absolute impartiality but is constrained to certain modes of interpretation even while he thinks himself most free. (Whorf, 1956, pp. 153, 213-214)We dissect nature along the lines laid down by our native languages.The categories and types that we isolate from the world of phenomena we do not find there because they stare every observer in the face; on the contrary, the world is presented in a kaleidoscopic flux of impressions which has to be organized by our minds-and this means largely by the linguistic systems in our minds.... We are thus introduced to a new principle of relativity, which holds that all observers are not led by the same physical evidence to the same picture of the universe, unless their linguistic backgrounds are similar or can in some way be calibrated. (Whorf, 1956, pp. 213-214)9) The Forms of a Person's Thoughts Are Controlled by Unperceived Patterns of His Own LanguageThe forms of a person's thoughts are controlled by inexorable laws of pattern of which he is unconscious. These patterns are the unperceived intricate systematizations of his own language-shown readily enough by a candid comparison and contrast with other languages, especially those of a different linguistic family. (Whorf, 1956, p. 252)It has come to be commonly held that many utterances which look like statements are either not intended at all, or only intended in part, to record or impart straightforward information about the facts.... Many traditional philosophical perplexities have arisen through a mistake-the mistake of taking as straightforward statements of fact utterances which are either (in interesting non-grammatical ways) nonsensical or else intended as something quite different. (Austin, 1962, pp. 2-3)In general, one might define a complex of semantic components connected by logical constants as a concept. The dictionary of a language is then a system of concepts in which a phonological form and certain syntactic and morphological characteristics are assigned to each concept. This system of concepts is structured by several types of relations. It is supplemented, furthermore, by redundancy or implicational rules..., representing general properties of the whole system of concepts.... At least a relevant part of these general rules is not bound to particular languages, but represents presumably universal structures of natural languages. They are not learned, but are rather a part of the human ability to acquire an arbitrary natural language. (Bierwisch, 1970, pp. 171-172)In studying the evolution of mind, we cannot guess to what extent there are physically possible alternatives to, say, transformational generative grammar, for an organism meeting certain other physical conditions characteristic of humans. Conceivably, there are none-or very few-in which case talk about evolution of the language capacity is beside the point. (Chomsky, 1972, p. 98)[It is] truth value rather than syntactic well-formedness that chiefly governs explicit verbal reinforcement by parents-which renders mildly paradoxical the fact that the usual product of such a training schedule is an adult whose speech is highly grammatical but not notably truthful. (R. O. Brown, 1973, p. 330)he conceptual base is responsible for formally representing the concepts underlying an utterance.... A given word in a language may or may not have one or more concepts underlying it.... On the sentential level, the utterances of a given language are encoded within a syntactic structure of that language. The basic construction of the sentential level is the sentence.The next highest level... is the conceptual level. We call the basic construction of this level the conceptualization. A conceptualization consists of concepts and certain relations among those concepts. We can consider that both levels exist at the same point in time and that for any unit on one level, some corresponding realizate exists on the other level. This realizate may be null or extremely complex.... Conceptualizations may relate to other conceptualizations by nesting or other specified relationships. (Schank, 1973, pp. 191-192)The mathematics of multi-dimensional interactive spaces and lattices, the projection of "computer behavior" on to possible models of cerebral functions, the theoretical and mechanical investigation of artificial intelligence, are producing a stream of sophisticated, often suggestive ideas.But it is, I believe, fair to say that nothing put forward until now in either theoretic design or mechanical mimicry comes even remotely in reach of the most rudimentary linguistic realities. (Steiner, 1975, p. 284)The step from the simple tool to the master tool, a tool to make tools (what we would now call a machine tool), seems to me indeed to parallel the final step to human language, which I call reconstitution. It expresses in a practical and social context the same understanding of hierarchy, and shows the same analysis by function as a basis for synthesis. (Bronowski, 1977, pp. 127-128)t is the language donn eґ in which we conduct our lives.... We have no other. And the danger is that formal linguistic models, in their loosely argued analogy with the axiomatic structure of the mathematical sciences, may block perception.... It is quite conceivable that, in language, continuous induction from simple, elemental units to more complex, realistic forms is not justified. The extent and formal "undecidability" of context-and every linguistic particle above the level of the phoneme is context-bound-may make it impossible, except in the most abstract, meta-linguistic sense, to pass from "pro-verbs," "kernals," or "deep deep structures" to actual speech. (Steiner, 1975, pp. 111-113)A higher-level formal language is an abstract machine. (Weizenbaum, 1976, p. 113)Jakobson sees metaphor and metonymy as the characteristic modes of binarily opposed polarities which between them underpin the two-fold process of selection and combination by which linguistic signs are formed.... Thus messages are constructed, as Saussure said, by a combination of a "horizontal" movement, which combines words together, and a "vertical" movement, which selects the particular words from the available inventory or "inner storehouse" of the language. The combinative (or syntagmatic) process manifests itself in contiguity (one word being placed next to another) and its mode is metonymic. The selective (or associative) process manifests itself in similarity (one word or concept being "like" another) and its mode is metaphoric. The "opposition" of metaphor and metonymy therefore may be said to represent in effect the essence of the total opposition between the synchronic mode of language (its immediate, coexistent, "vertical" relationships) and its diachronic mode (its sequential, successive, lineal progressive relationships). (Hawkes, 1977, pp. 77-78)It is striking that the layered structure that man has given to language constantly reappears in his analyses of nature. (Bronowski, 1977, p. 121)First, [an ideal intertheoretic reduction] provides us with a set of rules"correspondence rules" or "bridge laws," as the standard vernacular has it-which effect a mapping of the terms of the old theory (T o) onto a subset of the expressions of the new or reducing theory (T n). These rules guide the application of those selected expressions of T n in the following way: we are free to make singular applications of their correspondencerule doppelgangers in T o....Second, and equally important, a successful reduction ideally has the outcome that, under the term mapping effected by the correspondence rules, the central principles of T o (those of semantic and systematic importance) are mapped onto general sentences of T n that are theorems of Tn. (P. Churchland, 1979, p. 81)If non-linguistic factors must be included in grammar: beliefs, attitudes, etc. [this would] amount to a rejection of the initial idealization of language as an object of study. A priori such a move cannot be ruled out, but it must be empirically motivated. If it proves to be correct, I would conclude that language is a chaos that is not worth studying.... Note that the question is not whether beliefs or attitudes, and so on, play a role in linguistic behavior and linguistic judgments... [but rather] whether distinct cognitive structures can be identified, which interact in the real use of language and linguistic judgments, the grammatical system being one of these. (Chomsky, 1979, pp. 140, 152-153)23) Language Is Inevitably Influenced by Specific Contexts of Human InteractionLanguage cannot be studied in isolation from the investigation of "rationality." It cannot afford to neglect our everyday assumptions concerning the total behavior of a reasonable person.... An integrational linguistics must recognize that human beings inhabit a communicational space which is not neatly compartmentalized into language and nonlanguage.... It renounces in advance the possibility of setting up systems of forms and meanings which will "account for" a central core of linguistic behavior irrespective of the situation and communicational purposes involved. (Harris, 1981, p. 165)By innate [linguistic knowledge], Chomsky simply means "genetically programmed." He does not literally think that children are born with language in their heads ready to be spoken. He merely claims that a "blueprint is there, which is brought into use when the child reaches a certain point in her general development. With the help of this blueprint, she analyzes the language she hears around her more readily than she would if she were totally unprepared for the strange gabbling sounds which emerge from human mouths. (Aitchison, 1987, p. 31)Looking at ourselves from the computer viewpoint, we cannot avoid seeing that natural language is our most important "programming language." This means that a vast portion of our knowledge and activity is, for us, best communicated and understood in our natural language.... One could say that natural language was our first great original artifact and, since, as we increasingly realize, languages are machines, so natural language, with our brains to run it, was our primal invention of the universal computer. One could say this except for the sneaking suspicion that language isn't something we invented but something we became, not something we constructed but something in which we created, and recreated, ourselves. (Leiber, 1991, p. 8)Historical dictionary of quotations in cognitive science > Language
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16 formation
1) образование, формирование2) формование, формовка5) пласт6) строит. поверхность грунта ( после окончания земляных работ)7) ж.-д. земляное полотно8) формирование, составление ( поездов)9) отлив; формование ( бумаги)•to break down ( to fracture) formation — вызывать( гидравлический) разрыв пласта;to shut off water-bearing formation — изолировать водоносный пласт:to water off formation — загрязнять пласт водойformation of floating ice — начало осеннего ледохода-
aerodynamic web formation
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air-assist vacuum formation
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arc formation
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arch formation
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avalanche formation
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body formation
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carbon formation
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cell formation
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cloud formation
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coal formation
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coat formation
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coke formation
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crack formation
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cream formation
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crooked-hole formations
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cyclone formation
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deltaic formation
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delta formation
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deposit formation
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dislocation formation
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dots formation
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dust formation
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eddy formation
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electrochemical formation
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feather formation
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filament formation
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fissure formation
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fixed train formation
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flaw formation
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foam formation
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frost formation
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froth formation
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gel formation
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glass formation
-
ice formation
-
image formation
-
interconnection formation
-
jog formation
-
lacquer formation
-
mosaic formation
-
oil-producing formation
-
oxide formation
-
ozone formation
-
pattern formation
-
pore formation
-
producing formation
-
resin formation
-
ring formation
-
roof-carbon formation
-
scale formation
-
sediment formation
-
skull formation
-
slag formation
-
sludge formation
-
soot formation
-
spark formation
-
steam formation
-
streamflow formation
-
structure formation
-
subgrain formation
-
tail formation
-
tar formation
-
thief formation
-
trail formation
-
transient formation
-
twin formation
-
vacancy formation
-
vapor formation
-
varnish formation
-
vigorous-bubble formation
-
voids formation
-
void formation
-
zone formation -
17 section
1. поперечное сечение, разрез; вертикальный разрез, сечение, профиль2. сегмент; отрезок, интервал ( в скважине)4. участок в 640 акров = 256 га ( США)5. отдел; секция
* * *
отдел; отделение; секция
* * *
1. сечение, разрез; профильный разрез2. отдел, участок; отрезок, интервал ( в скважине); участок или секция в 640 акров = 256 га (крупные участки земли, на которые в США разделяется линиями с севера на юг и с востока на запад территория в системе недропользования)
* * *
разрез; звено ( фильтра); сечение; профиль; участок
* * *
1) поперечное сечение, разрез2) вертикальный разрез, сечение, профиль3) интервал ()4) сегмент; отрезок; участок; часть5) срез; шлиф; микрошлиф8) отдел; отделение; секция•- section of reservoirsection with reversed polarity — сейсм. разрез с обратной полярностью
- section of unconsolidated beds
- absorption cross section
- abyssal geologic section
- acoustic impedance section
- active section of streamer
- add-on pile section
- admission section
- aggraded subsea permafrost section
- apparent capture cross section
- apparent resistivity section
- barrel section
- borehole section
- borehole tight section
- buoyant riser section
- capture cross section
- cased borehole section
- cased hole section
- casing string section
- cemented hole section
- clay section
- clay sediments section
- columnar section
- columnar geological section
- common-depth-point section
- compressional-wave section
- constant offset section
- continuous permafrost section
- converted-wave section
- core section
- cross section
- cross section in seismic velocities
- dead section of streamer
- degraded subsea permafrost section
- depth section
- derrick section
- discontinuous permafrost section
- disequilibrium subsea permafrost section
- double-sheave section
- drill-collar section
- drill-string section
- equilibrium subsea permafrost section
- exhausting section
- exhaustive adsorption section
- final time section
- flash section
- geological cross section
- high-quality time section
- high-velocity section
- hole section
- hundred-percent section
- ice-bonded permafrost section
- ice-unbonded permafrost section
- initial separation section of separator
- inner female section
- instantaneous amplitude section
- instantaneous frequency section
- instantaneous phase section
- interpolated time section
- invaded section
- key geological section
- lateral section
- lead-in section of streamer
- linear sand section
- liquid collection section of separator
- lithologic-stratigraphical section
- live section of streamer
- locked-in section
- logged section
- longitudinal section
- low-velocity section
- maintenance section
- maintenance control section
- marine pipe section
- marine riser section
- migrated section
- mist extraction section of separator
- net productive section
- nonmagnetic insulation section
- oil-bearing section
- patchy permafrost section
- pay section
- perforated section
- permafrost section
- permeable section
- pipeline section
- plain section
- preliminary section
- pseudoacoustic impedance section
- rathole section
- real time section
- record section
- rectifying section
- reduced diameter hole section
- reflection section
- reflectivity section
- refraction section
- regulator section
- reliability section
- reliability analysis section
- relict permafrost section
- repair section
- repeat section
- resistivity section
- resistivity pseudodepth section
- riser lower section
- rotten shale section
- rugose section
- salt-bearing section
- sample section
- seismic cross section
- seismogram section
- settling section of separator
- shale section
- shear-wave section
- short-offset section
- single-fold section
- soaking section
- stacked section
- stacked seismic section
- stagnant section of water treatment system
- steaming section
- stratigraphic section
- stripping section
- structure section
- subsea permafrost section
- survey section
- synthetic time section
- tail section of streamer
- tank shell section
- test section
- thick producing section
- thin section
- tight section of hole
- time cross section
- travel time section
- true amplitude section
- tubing string section
- uncased borehole section
- uncased hole section
- uniform cross section
- unmigrated time section
- useful cross section
- variable-area record section
- variable-density record section
- velocity section
- weak section
- well section
- well test section
- wire-mesh section
- zero-offset section* * *• 1) секция; 2) разрез• блок• интервал• перегон• пункт• секция• секция/участок• талон• толща -
18 factor
2) фактор3) показатель•factor of earthing — коэффициент заземленияfactor of merit — 1. критерий качества 2. добротностьfactor of quality — 1. критерий качества 2. добротностьfactor of safety — 1. коэффициент запаса (прочности), запас прочности 2. коэффициент (фактор) безопасности 3. коэффициент надёжностиfactor of safety against overturning — коэффициент запаса устойчивости против опрокидывания ( при расчёте подпорных стенок)factor of safety against sliding — коэффициент запаса устойчивости против плоского сдвига по основанию ( при расчёте подпорных стенок)factor of safety against ultimate stress — коэффициент запаса прочности по пределу прочности-
2T pulse K factor
-
absorption factor
-
acceleration factor
-
accumulation factor
-
acoustic insulation factor
-
acoustic reduction factor
-
acoustic reflection factor
-
acoustical absorption factor
-
activity factor
-
additional secondary phase factor
-
additional secondary factor
-
aerodrome utilization factor
-
aircraft acceleration factor
-
aircraft load factor
-
aircraft safety factor
-
aircraft usability factor
-
amplification factor
-
amplitude factor
-
anisotropy factor
-
annual growth factor
-
annual plant factor
-
anthropogenic factor
-
aperture shape factor
-
application factor
-
array factor
-
ASTM stability factor
-
atmospheric factor
-
atomic factor
-
attenuation factor
-
automatic scale factor
-
availability factor
-
available heat factor
-
available-lime factor
-
average noise factor
-
balance factor
-
bandwidth factor
-
barrier factor
-
base-transport factor
-
basin shape factor
-
beam shape factor
-
bed-formation factor
-
belt differential factor
-
belt factor
-
belt sag factor
-
biological quality factor N
-
biological quality factor
-
biotic factor
-
blast-penetration factor
-
blockage factor
-
brake factor
-
break-even load factor
-
bulk factor
-
bulking factor
-
burnup factor
-
calibration factor
-
Callier factor
-
capacitance factor
-
capacity factor
-
car capacity utilization factor
-
cargo load factor
-
catalyst carbon factor
-
catalyst gas factor
-
cement factor
-
cementation factor
-
characteristic factors
-
chemotactic factor
-
climatic factor
-
clotting factor
-
CNI factor
-
coil magnification factor
-
coincidence factor
-
coke-hardness factor
-
coke-permeability factor
-
Colburo heat-transfer factor
-
colicinogenic factor
-
colicin factor
-
comfort factor
-
common factor
-
compacting factor
-
compensation factor
-
complexity factor
-
compressibility factor
-
concentration factor
-
confidence factor
-
consumer load coincidence factor
-
contrast factor
-
control factor
-
conversion factor
-
conveyance factor
-
core factor
-
correction factor
-
correlation factor
-
coupling factor
-
cover factor
-
crack susceptibility factor
-
crest factor
-
critical stress intensity factor
-
cross-modulation factor
-
current amplification factor
-
current amplitude factor
-
current transformer correction factor
-
current unbalance factor
-
current waveform distortion factor
-
cyclic duration factor
-
damage factor
-
damage severity factor
-
damping factor
-
daylight factor
-
dc conversion factor
-
decontamination factor
-
defective factor
-
deflection factor
-
deflection uniformity factor
-
degeneration factor
-
degradation factor
-
degree-day melting factor
-
demagnetization factor
-
demand factor
-
depolarization factor
-
derating factor
-
design factor
-
design load factor
-
detuning factor
-
deviation factor
-
dielectric loss factor
-
differential diffraction factor
-
diffuse reflection factor
-
diffuse transmission factor
-
dilution factor
-
dimensionless factor
-
directivity factor
-
discharge factor
-
displacement factor
-
displacement power factor
-
dissipation factor
-
distortion factor
-
distribution factor
-
diversity factor
-
division factor
-
dose buildup factor
-
dose reduction factor
-
drainage factor
-
drug resistance factor
-
duty cycle factor
-
duty factor
-
ecological factor
-
edaphic factor
-
effective demand factor
-
effective multiplication factor
-
effective-volume utilization factor
-
efficiency factor
-
electromechanical coupling factor
-
elimination factor
-
elongation factor
-
emission factor
-
emissivity factor
-
engineering factors
-
enlargement factor
-
enrichment factor
-
environmental factor
-
etch factor
-
excess air factor
-
excess multiplication factor
-
expansion factor
-
exponential factor
-
exposure factor
-
external factor
-
extraction factor
-
extraneous factor
-
F factor
-
Fanning friction factor
-
fatigue notch factor
-
feedback factor
-
field form factor
-
field length factor
-
field water-distribution factor
-
fill factor
-
filter factor
-
filtration factor
-
fineness factor
-
flux factor
-
food factor
-
force factor
-
form factor
-
formation volume factor
-
formation-resistivity factor
-
formation factor
-
fouling factor
-
F-prime factor
-
frequency factor
-
frequency multiplication factor
-
friction factor
-
fuel factor
-
fundamental factor
-
gage factor
-
gain factor
-
gamma factor
-
gas factor
-
gas multiplication factor
-
gas producing factor
-
gas recovery factor
-
gas saturation factor
-
geometrical structure factor
-
geometrical weighting factor
-
g-factor
-
grading factor
-
granulation factor
-
grindability factor
-
growth factor
-
harmonic distortion factor
-
harmonic factor
-
heat conductivity factor
-
heat gain factor
-
heat leakage factor
-
heat loss factor
-
heat-stretch factor
-
heat-transfer factor
-
host factor
-
hot-channel factor
-
hot-spot factor
-
hull-efficiency factor
-
human factor
-
hysteresis factor
-
improvement factor
-
inductance factor
-
infinite multiplication factor
-
inhibitory factor
-
innovation factor
-
institutional factor
-
integer factor
-
integrating factor
-
interlace factor
-
intermodulation factor
-
K bar factor
-
Kell factor
-
lamination factor
-
leakage factor
-
lethal factor
-
light-transmission factor
-
lime factor
-
limit load factor
-
linear expansion factor
-
literal factor
-
load curve irregularity factor
-
load factor
-
loading factor
-
longitudinal load distribution factor
-
Lorentz factor
-
loss factor
-
luminance factor
-
luminosity factor
-
magnetic form factor
-
magnetic leakage factor
-
magnetic loss factor
-
magnification factor
-
maximum enthalpy rise factor
-
membrane swelling factor
-
minimum noise factor
-
mismatch factor
-
mode I stress intensity factor
-
mode II stress intensity factor
-
mode III stress intensity factor
-
modifying factor
-
modulation factor
-
modulus factor of reflux
-
moment intensity factor
-
mu factor
-
multiplication factor
-
multiplicity factor
-
multiplying factor
-
Murphree efficiency factor
-
mutual coupling factor
-
mutual inductance factor
-
natural factor
-
negative phase-sequence current factor
-
negative phase-sequence voltage factor
-
neutron multiplication factor
-
noise factor
-
nonlinearity factor
-
notch concentration factor
-
notch factor
-
numerical factor
-
obturation factor
-
oil factors
-
oil recovery factor
-
oil saturation factor
-
oil shrinkage factor
-
opening mode stress intensity factor
-
operating factor
-
operating load factor
-
operational factor
-
operation factor
-
optimum noise factor
-
orbit burden factor
-
output factor
-
overcurrent factor
-
overload factor
-
pacing factor
-
packing factor
-
paratypic factor
-
partial safety factor for load
-
partial safety factor for material
-
particle-reduction factor
-
passenger load factor
-
peak factor
-
peak responsibility factor
-
peak-load effective duration factor
-
penetration factor
-
performance factor
-
permeability factor
-
phase factor
-
phase-angle correction factor
-
phasor power factor
-
physiographic factor
-
pitch differential factor
-
pitch factor
-
plain-strain stress intensity factor
-
plane-earth factor
-
plant capacity factor
-
plant-load factor
-
plant-use factor
-
porosity factor
-
positive phase-sequence current factor
-
positive phase-sequence voltage factor
-
potential transformer correction factor
-
powder factor
-
power factor
-
power filling factor
-
primary phase factor
-
primary factor
-
prime factor
-
proof/ultimate factor
-
propagation factor
-
propagation meteorological factor
-
propagation terrain factor
-
proportionality factor
-
proximity factor
-
pulsation factor
-
quality factor
-
R factor
-
radiance factor
-
radio-interference suppression factor
-
readiness factor
-
recombinogenic factor
-
recovery factor
-
rectification factor
-
reduction factor
-
redundancy improvement factor
-
reflection factor
-
reflectivity factor
-
refraction factor
-
refrigerating factor
-
reheat factor
-
relative loss factor
-
relative severity factor
-
release factor
-
reliability demonstration factor
-
reliability factor
-
relocation factor
-
repairability factor
-
repeatability factor
-
reservoir volume factor
-
reset factor of relay
-
resistance transfer factor
-
restorability factor
-
revenue load factor
-
ripple factor
-
risk factor
-
rolling shape factor
-
roll-off factor
-
roughness factor
-
runoff factor
-
safety factor for dropout of relay
-
safety factor for pickup of relay
-
safety factor of insulation
-
safety factor
-
sag factor
-
saturation factor
-
scale factor
-
scaling factor
-
screening factor
-
screen factor
-
secondary-electron-emission factor
-
self-transmissible factor
-
separation factor
-
service factor
-
sex factor
-
shadow factor
-
shape factor
-
sheet ratio factor
-
shielding factor
-
shield factor
-
shrinkage factor
-
signal-to-noise improvement factor
-
size factor
-
skew factor
-
slant-range correction factor
-
sliding factor
-
slip factor
-
smoothing factor
-
snagging factor
-
soap factor
-
social factor
-
socioeconomic factor
-
solubility factor
-
sound absorption factor
-
space factor of winding
-
space factor
-
spreading factor
-
squeezing factor
-
stability factor
-
stacking factor
-
stage amplification factor
-
standing-wave factor
-
steam reduction factor
-
steam-zone shape factor
-
storage factor
-
stowage factor
-
strain concentration factor
-
streamflow formation factor
-
strength factor
-
stress concentration factor
-
stress intensity factor
-
stretch factor
-
structure factor
-
submergence factor
-
summability factor
-
superficial friction factor
-
support factor
-
surface correction factor
-
surface-area factor
-
tapping factor
-
technical preparedness factor
-
telephone influence factor
-
termination factor
-
terrain factor
-
thermal eta factor
-
thermal factor
-
thermal utilization factor
-
thermodynamic factor
-
thrust-deduction factor
-
time factor
-
time-scale factor
-
tire size factor
-
tooth factor
-
transfer factor
-
transmission factor
-
transport factor
-
traveling-wave factor
-
trigger factor
-
truck service factor
-
tuning factor
-
turbidity factor
-
turbulence factor
-
twist factor
-
U-factor
-
unavailability factor
-
unbalance factor
-
unit conversion factor
-
usage factor
-
utilization factor
-
vacuum factor
-
velocity gain factor
-
velocity factor
-
viscosity factor
-
void factor
-
voltage amplification factor
-
voltage amplitude factor
-
voltage ripple factor
-
voltage unbalance factor
-
voltage waveform distortion factor
-
volume-utilization factor
-
wake factor
-
water encroachment factor
-
water saturation factor
-
waveform distortion factor
-
wear factor
-
weather-forming factor
-
weight load factor
-
weighting factor
-
weight factor
-
winding factor
-
wobble factor
-
wood swelling factor
-
work factor
-
yield factor
-
zero phase-sequence current factor
-
zero phase-sequence voltage factor -
19 complex
1. n комплекс; совокупность2. n комплекс, группа3. n разг. закомплексованность, пунктик4. a сложный, составной, комплексный5. a сложный, трудный, запутанныйcomplex labour — сложный труд; квалифицированный труд
6. v редк. собирать в одно целое7. v редк. осложнятьСинонимический ряд:1. complicated (adj.) complicated; convoluted; difficult; enigmatic; hard; multifarious; perplexing; puzzling2. composite (adj.) composite; compound; conglomerate; heterogeneous; manifold; mingled; mixed; multiple3. involved (adj.) Byzantine; daedal; elaborate; gordian; intricate; involved; knotty; labyrinthine; sophisticated; tangled4. network (noun) complication; composite; group; net; network; structure; system; tangle5. obsession (noun) delusion; fixation; hang-up; insecurity; mania; neurosis; obsession; phobia; preoccupation; repression6. station (noun) base; compound; headquarters; installation; stationАнтонимический ряд:clear; direct; discernible; easy; evident; homogeneous; obvious; plain; simple; single; uniform -
20 Wright, Frank Lloyd
SUBJECT AREA: Architecture and building[br]b. 8 June 1869 Richland Center, Wisconsin, USAd. 9 April 1959 Phoenix, Arizona, USA[br]American architect who, in an unparalleled career spanning almost seventy years, became the most important figure on the modern architectural scene both in his own country and far further afield.[br]Wright began his career in 1887 working in the Chicago offices of Adler \& Sullivan. He conceived a great admiration for Sullivan, who was then concentrating upon large commercial projects in modern mode, producing functional yet decorative buildings which took all possible advantage of new structural methods. Wright was responsible for many of the domestic commissions.In 1893 Wright left the firm in order to set up practice on his own, thus initiating a career which was to develop into three distinct phases. In the first of these, up until the First World War, he was chiefly designing houses in a concept in which he envisaged "the house as a shelter". These buildings displayed his deeply held opinion that detached houses in country areas should be designed as an integral part of the landscape, a view later to be evidenced strongly in the work of modern Finnish architects. Wright's designs were called "prairie houses" because so many of them were built in the MidWest of America, which Wright described as a "prairie". These were low and spreading, with gently sloping rooflines, very plain and clean lined, built of traditional materials in warm rural colours, blending softly into their settings. Typical was W.W.Willit's house of 1902 in Highland Park, Illinois.In the second phase of his career Wright began to build more extensively in modern materials, utilizing advanced means of construction. A notable example was his remarkable Imperial Hotel in Tokyo, carefully designed and built in 1916–22 (now demolished), with special foundations and structure to withstand (successfully) strong earthquake tremors. He also became interested in the possibilities of reinforced concrete; in 1906 he built his church at Oak Park, Illinois, entirely of this material. In the 1920s, in California, he abandoned his use of traditional materials for house building in favour of precast concrete blocks, which were intended to provide an "organic" continuity between structure and decorative surfacing. In his continued exploration of the possibilities of concrete as a building material, he created the dramatic concept of'Falling Water', a house built in 1935–7 at Bear Run in Pennsylvania in which he projected massive reinforced-concrete terraces cantilevered from a cliff over a waterfall in the woodlands. In the later 1930s an extraordinary run of original concepts came from Wright, then nearing 70 years of age, ranging from his own winter residence and studio, Taliesin West in Arizona, to the administration block for Johnson Wax (1936–9) in Racine, Wisconsin, where the main interior ceiling was supported by Minoan-style, inversely tapered concrete columns rising to spreading circular capitals which contained lighting tubes of Pyrex glass.Frank Lloyd Wright continued to work until four days before his death at the age of 91. One of his most important and certainly controversial commissions was the Solomon R.Guggenheim Museum in New York. This had been proposed in 1943 but was not finally built until 1956–9; in this striking design the museum's exhibition areas are ranged along a gradually mounting spiral ramp lit effectively from above. Controversy stemmed from the unusual and original design of exterior banding and interior descending spiral for wall-display of paintings: some critics strongly approved, while others, equally strongly, did not.[br]Principal Honours and DistinctionsRIBA Royal Gold Medal 1941.Bibliography1945, An Autobiography, Faber \& Faber.Further ReadingE.Kaufmann (ed.), 1957, Frank Lloyd Wright: an American Architect, New York: Horizon Press.H.Russell Hitchcock, 1973, In the Nature of Materials, New York: Da Capo.T.A.Heinz, 1982, Frank Lloyd Wright, New York: St Martin's.DY
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