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1 completed structure
- completed structure
- nзаконченное [построенное] сооружение
Англо-русский строительный словарь. — М.: Русский Язык. С.Н.Корчемкина, С.К.Кашкина, С.В.Курбатова. 1995.
Англо-русский словарь строительных терминов > completed structure
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2 completed structure
English-German dictionary of Architecture and Construction > completed structure
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3 completed structure
1) Строительство: законченное сооружение, построенное сооружение2) Реклама: законченная конструкция -
4 completed structure
законченное [построенное] сооружение -
5 structure
- structure
- n1. конструкция; конструктивная система (здания, сооружения)
2. сооружение, здание
3. структура
4. pl леса; подмости; поддерживающие конструкции
structure beyond repair — сооружение, не подлежащее восстановлению ( из-за чрезмерного износа)
structure designed by elastic method of analysis — конструкция, рассчитанная с учётом только упругой работы
structure designed by plastic theory — конструкция, рассчитанная по теории пластичности
structure designed on an experimental basis — сооружение [объект] экспериментального проектирования
structure exposed to wind force — сооружение, подвергаемое воздействию ветровых нагрузок; сооружение, для которого ветровые нагрузки являются основными
structure in design stage — сооружение в стадии проектирования; проектируемое сооружение
to make the structure statically determinate — превратить конструкцию в статически определимую ( путём удаления лишних связей)
structure subjected to specified loads — конструкция, нагруженная заданными [расчётными] нагрузками
- above-grade structure
- air-supported structure
- alien structure
- alignment structure
- all-metal structure
- all welded steel structure
- amorphous structure
- angle structure
- appurtenant structure
- arched structure
- architectural structure
- Armco multiplate superspan bridging structures
- armocement structure
- aseismic structure
- atomic reactor containment structure
- auxiliary structure
- avalanche brake structure
- backwater structure
- bank protection structure
- beam-and-column structure
- block structure
- box-type structure
- box structure
- braced structure
- building structure
- bulkhead structure
- cantilever structure
- carrying structure
- cased structure
- cast-in-situ structure
- cellular structure
- cladding structure
- closure structure
- coast-protecting structure
- completed structure
- composite structure
- concrete structure
- concrete gravity structure
- conjugation structure
- continuous structure
- control structure
- conveyance structure
- crest structure
- crib structure
- cross-wall structures
- crystalline structure
- dead-end structure
- dispersed structure
- dome structure
- drop structure
- earth structure
- earthquake-resistant structure
- earth-sheltered structure
- encased structure
- enclosing structures
- engineering structures
- external protection structure
- fish-protection structure
- fixed gravity structure
- floated-in structure
- floating structure
- flocculated structure
- floor structure
- folded plate structure
- folded structure
- framed structure
- freely supported structure
- free standing tower structure
- geological structure
- girder structure
- glass-block structure
- glued structure
- granular structure
- gravity structure
- grid structure
- guide structure
- heated structure
- heat-insulated structure
- high-rise structure
- high-strength structure
- hinged structure
- honeycomb structure
- hydraulic structure
- hyperstatic structure
- in-line structure
- intake structure
- laminated structure
- large-block structure
- large panel structure
- large span structure
- lattice structure
- lightweight structure
- linear structures
- line structures
- load-bearing structure
- log structure
- long span structure
- major structure
- manure storage structure
- marine structure
- massive concrete structure
- mass concrete structure
- metal structure
- modular structure
- multilevel structure
- multilevel cast-in-place parking structure
- multilevel precast concrete bar structure
- multiple span structure
- multistorey structure
- nonbearing structure
- nuclear energy structures
- offshore structure
- oil field structure
- open parking structure
- open-pile braced structure
- open-web structure
- orthotropic structure
- outfall structure
- outlet structure
- panel structure
- parking structure
- perlitic structure
- permanent structure
- pile structure
- pile-and-crib structure
- plate structures
- port structure
- portable structure
- portal structure
- post-and-beam structure
- precast structure
- prestressed structure
- prestressed pretensioned structure
- pretensioned structure
- radial plan structure
- rectilinear structure
- redundant structure
- regulating structure
- reinforced concrete structure
- reinforced masonry structure
- reinforced soil structure
- reinforced timber structure
- rigid structure
- rigid-plastic structure
- roof structure
- seismic structure
- self-supporting structure
- shell structure
- simply supported structure
- single span structure
- skeleton-type structure
- skeleton structure
- soil structure
- solid structure
- space structure
- space-grid structure
- spillway structure
- sports structure
- statically determinate structure
- statically indeterminate structure
- steel structure
- steel and concrete structure
- steel bearing structure
- storage structure
- stressed skin structure
- submerged structure
- subsurface structure
- supporting structure
- surface structure
- suspended structure
- suspended cable net structure
- tailrace structure
- tall structure
- thin-shell structure
- thin-walled prismatic structure
- thin-walled steel structure
- training structure
- truss structure
- tube-in-tube structure
- tubular structure
- turnout structure
- unclad structure
- underground structure
- underpinning structure
- underwater structure
- unified structure
- unsafe structure
- unusual structure
- urban structure
- utility structures
- vault structure
- water-conveyance structure
- water-diverting structure
- water-filled framed structure
- waterfront structure
- water retaining structure
- welded structure
- zoned earthfill structure
Англо-русский строительный словарь. — М.: Русский Язык. С.Н.Корчемкина, С.К.Кашкина, С.В.Курбатова. 1995.
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6 structure
1) сооружение; конструкция; конструктивная система; строение; здание2) расположение частей; конструкция; устройство3) структура•- airtight structure - alignment structure - all-metal structure - all-veneer structure - all-welded steel structure - angle structure - armocement structure - aseismic structures - avalanche-protection structure - balloon structure - balloon frame structure - basic structure - beam and girder structure - beam and slab structure - beamless plate structure - bearing structure - bearing-wall structure - bedded structure - block structure - box structure - box-like space structure - braced structure - brick structure - brick-veneer structure - bridge structure - building structure - built-up structure - buried structure - cable structures - cable-stayed structures - cage structure - cancelled structure - cast-in-situ structures - cellular structure - classification of structures - coast-protecting structure - community structure - compact structure - compact grain structure - composite structure - concrete structure - concrete-bent structure - concrete gravity structure - concretionary structure - conjugation structure - crest structure - crib structure - cross-wall structure - crystal structure - cubic structure - curved structure - dangerous structure - dead-end structure - deformation of structure - disasterproof structure - double-skin structure - dust-tight structure - earthquakeproof structure - engineering structure - exterior structure - fabricated structure - filler structure - fine structure - fireproof structure - flood-regulating structure - folded plate structure - frame structure - geologic structure - girder structure - girderless structure - glued structure - glued-laminated structure - grade separation structure - grain structure - granular structure - guide structure - hipped-plate structure - historic structure - hollow-wood structure - hydraulic structure - incombustible structure - indeterminate structure - industrial structure - intake structure - jointless structure - ladder structure - lamellar structure - laminated structure - large-panel structures - large-sized block structures - latticed structure - layer-built structure - load-bearing structure - load-carrying structure - lumber core structure - mammoth building structure - masonry structure - mesh structure - metal structure - mixed structure - modular structure - moving-form structure - multi-span structure - non-bearing structure - non-fireproof structure - non-redundant structure - open structure - orbiting structure - pan structure - panelled structure - partially-prestressed composite structure - paste structure - pell-mell structure - permanent structure - plated structure - platform frame structure - porous structure - post and beam structure - post and panel structure - posttensioned structure - pre-assembled member structure - precast structure - precast and cast-in-situ structure - precast concrete structure - precast panel structure - prefabricated structure - prefabricated demountable structures - pre-posttensioned concrete structure - pressurized structure - prestressed structures - pretensioned concrete structures - probabilistic model of structure - protected metal structure - rammed loam structure - redundant structure - reinforced brick structure - reinforced concrete structure - reinforced masonry structure - reliability of structure - residential structures - rigid structure - rigid framed structure - road-mix structure - rumpled structure - sandwich structure - separation structure - shell structure - simple structure - simple in structure - single-grain structure - skeleton structure - slow-burning structure - slow-burning heavy timber structure - soil structure - solid-walled structure - space grid structures - statically determinate structure - statically indeterminate structure - steel structure - steel-frame structure - steel-plate structures - stone structures - stratified structure - supporting structure - suspended structures - temporary structure - thin-shell structure - thin-slab structure - thin-walled structure - tidal-regulating structure - tone structure - tower-base structure - track structure - trussed structure - two-hinged structure - urban spatial structure - veneered structure - vesicular structure - void structure - wall-bearing structure - water-diverting structure - waterfront structure - water purification structure - waterside structure - weight of structure - welded structure - welded steel structure - wood structureto load a structure — нагружать конструкцию, сооружение
* * *1. конструкция; конструктивная система (здания, сооружения)2. сооружение, здание3. структура4. pl леса; подмости; поддерживающие конструкцииstructure beyond repair — сооружение, не подлежащее восстановлению ( из-за чрезмерного износа)
structure designed by elastic method of analysis — конструкция, рассчитанная с учётом только упругой работы
structure designed by plastic theory — конструкция, рассчитанная по теории пластичности
structure designed on an experimental basis — сооружение [объект] экспериментального проектирования
structure exposed to wind force — сооружение, подвергаемое воздействию ветровых нагрузок; сооружение, для которого ветровые нагрузки являются основными
structure in design stage — сооружение в стадии проектирования; проектируемое сооружение
to make the structure statically determinate — превратить конструкцию в статически определимую ( путём удаления лишних связей)
- above-grade structurestructure subjected to specified loads — конструкция, нагруженная заданными [расчётными] нагрузками
- air-supported structure
- alien structure
- alignment structure
- all-metal structure
- all welded steel structure
- amorphous structure
- angle structure
- appurtenant structure
- arched structure
- architectural structure
- Armco multiplate superspan bridging structures
- armocement structure
- aseismic structure
- atomic reactor containment structure
- auxiliary structure
- avalanche brake structure
- backwater structure
- bank protection structure
- beam-and-column structure
- block structure
- box-type structure
- box structure
- braced structure
- building structure
- bulkhead structure
- cantilever structure
- carrying structure
- cased structure
- cast-in-situ structure
- cellular structure
- cladding structure
- closure structure
- coast-protecting structure
- completed structure
- composite structure
- concrete structure
- concrete gravity structure
- conjugation structure
- continuous structure
- control structure
- conveyance structure
- crest structure
- crib structure
- cross-wall structures
- crystalline structure
- dead-end structure
- dispersed structure
- dome structure
- drop structure
- earth structure
- earthquake-resistant structure
- earth-sheltered structure
- encased structure
- enclosing structures
- engineering structures
- external protection structure
- fish-protection structure
- fixed gravity structure
- floated-in structure
- floating structure
- flocculated structure
- floor structure
- folded plate structure
- folded structure
- framed structure
- freely supported structure
- free standing tower structure
- geological structure
- girder structure
- glass-block structure
- glued structure
- granular structure
- gravity structure
- grid structure
- guide structure
- heated structure
- heat-insulated structure
- high-rise structure
- high-strength structure
- hinged structure
- honeycomb structure
- hydraulic structure
- hyperstatic structure
- in-line structure
- intake structure
- laminated structure
- large-block structure
- large panel structure
- large span structure
- lattice structure
- lightweight structure
- linear structures
- line structures
- load-bearing structure
- log structure
- long span structure
- major structure
- manure storage structure
- marine structure
- massive concrete structure
- mass concrete structure
- metal structure
- modular structure
- multilevel structure
- multilevel cast-in-place parking structure
- multilevel precast concrete bar structure
- multiple span structure
- multistorey structure
- nonbearing structure
- nuclear energy structures
- offshore structure
- oil field structure
- open parking structure
- open-pile braced structure
- open-web structure
- orthotropic structure
- outfall structure
- outlet structure
- panel structure
- parking structure
- perlitic structure
- permanent structure
- pile structure
- pile-and-crib structure
- plate structures
- port structure
- portable structure
- portal structure
- post-and-beam structure
- precast structure
- prestressed structure
- prestressed pretensioned structure
- pretensioned structure
- radial plan structure
- rectilinear structure
- redundant structure
- regulating structure
- reinforced concrete structure
- reinforced masonry structure
- reinforced soil structure
- reinforced timber structure
- rigid structure
- rigid-plastic structure
- roof structure
- seismic structure
- self-supporting structure
- shell structure
- simply supported structure
- single span structure
- skeleton-type structure
- skeleton structure
- soil structure
- solid structure
- space structure
- space-grid structure
- spillway structure
- sports structure
- statically determinate structure
- statically indeterminate structure
- steel structure
- steel and concrete structure
- steel bearing structure
- storage structure
- stressed skin structure
- submerged structure
- subsurface structure
- supporting structure
- surface structure
- suspended structure
- suspended cable net structure
- tailrace structure
- tall structure
- thin-shell structure
- thin-walled prismatic structure
- thin-walled steel structure
- training structure
- truss structure
- tube-in-tube structure
- tubular structure
- turnout structure
- unclad structure
- underground structure
- underpinning structure
- underwater structure
- unified structure
- unsafe structure
- unusual structure
- urban structure
- utility structures
- vault structure
- water-conveyance structure
- water-diverting structure
- water-filled framed structure
- waterfront structure
- water retaining structure
- welded structure
- zoned earthfill structure -
7 structure completed
English-German dictionary of Architecture and Construction > structure completed
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8 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
* * *
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* * * -
9 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* * * -
10 Brunelleschi, Filippo
SUBJECT AREA: Architecture and building[br]b. 1377 Florence, Italyd. 15 April 1446 Florence, Italy[br]Italian artist, craftsman and architect who introduced the Italian Renaissance style of classical architecture in the fifteenth century.[br]Brunelleschi was a true "Renaissance Man" in that he excelled in several disciplines, as did most artists of the Italian Renaissance of the fifteenth and sixteenth centuries. He was a goldsmith and sculptor; fifteenth-century writers acknowledge him as the first to study and demonstrate the principles of perspective, and he clearly possessed a deep mathematical understanding of the principles of architectural structure.Brunelleschi's Foundling Hospital in Florence, begun in 1419, is accepted as the first Renaissance building, one whose architectural style is based upon a blend of the classical principles and decoration of Ancient Rome and those of the Tuscan Romanesque. Brunelleschi went on to design a number of important Renaissance structures in Florence, such as the basilicas of San Lorenzo and Santo Spirito, the Pazzi Chapel at Santa Croce, and the unfinished church of Santa Maria degli Angeli.However, the artistic and technical feat for which Brunelleschi is most famed is the completion of Florence Cathedral by constructing a dome above the octagonal drum which had been completed in 1412. The building of this dome presented what appeared to be at the time insuperable problems, which had caused previous cathedral architects to shy away from tackling it. The drum was nearly 140 ft (43 m) in diameter and its base was 180 ft (55 m) above floor level: no wooden centering was possible because no trees long enough to span the gap could be found, and even if they had been available, the weight of such a massive framework would have broken centering beneath. In addition, the drum had no external abutment, so the weight of the dome must exert excessive lateral thrust. Aesthetically, the ideal Renaissance dome, like the Roman dome before it (for example, the Pantheon) was a hemisphere, but in the case of the Florence Cathedral such a structure would have been unsafe, so Brunelleschi created a pointed dome that would create less thrust laterally. He constructed eight major ribs of stone and, between them, sixteen minor ones, using a light infilling. He constructed a double-shell dome, which was the first of this type but is a design that has been followed by nearly all major architects since this date (for example Michelangelo's Saint Peter's in Rome, and Wren's Saint Paul's in London). Further strength is given by a herringbone pattern of masonry and brick infilling, and by tension chains of massive blocks, fastened with iron and with iron chains above, girding the dome at three levels. A large lantern finally stops the 50 ft (15.25 m) diameter eye at the point of the dome. Construction of the Florence Cathedral dome was begun on 7 August 1420 and was completed to the base of the lantern sixteen years later. It survives as the peak of Brunelleschi's Renaissance achievement.[br]Further ReadingPeter Murray, 1963, The Architecture of the Italian Renaissance, Batsford, Ch. 2. Howard Saalman, 1980, Filippo Brunelleschi: The Cupola of Santa Maria del Fiore, Zwemmer.Piero Sanpaolesi, 1977, La Cupola di Santa Maria del Fiore: Il Progetto: La Costruzione, Florence: Edam.Eugenio Battisti, 1981, Brunelleschi: The Complete Work, Thames and Hudson.DY -
11 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 -
12 Clark, Edwin
SUBJECT AREA: Civil engineering[br]b. 7 January 1814 Marlow, Buckinghamshire, Englandd. 22 October 1894 Marlow, Buckinghamshire, England[br]English civil engineer.[br]After a basic education in mathematics, latin, French and geometry, Clark was articled to a solicitor, but he left after two years because he did not like the work. He had no permanent training otherwise, and for four years he led an idle life, becoming self-taught in the subjects that interested him. He eventually became a teacher at his old school before entering Cambridge, although he returned home after two years without taking a degree. He then toured the European continent extensively, supporting himself as best he could. He returned to England in 1839 and obtained further teaching posts. With the railway boom in progress he decided to become a surveyor and did some work on a proposed line between Oxford and Brighton.After being promised an interview with Robert Stephenson, he managed to see him in March 1846. Stephenson took a liking to Clark and asked him to investigate the strains on the Britannia Bridge tubes under various given conditions. This work so gained Stephenson's full approval that, after being entrusted with experiments and designs, Clark was appointed Resident Engineer for the Britannia Bridge across the Menai Straits. He not only completed the bridge, which was opened on 19 October 1850, but also wrote the history of its construction. After the completion of the bridge—and again without any professional experience—he was appointed Engineer-in-Chief to the Electric and International Telegraph Company. He was consulted by Captain Mark Huish of the London \& North Western Railway on a telegraphic system for the railway, and in 1853 he introduced the Block Telegraph System.Clark was engaged on the Crystal Palace and was responsible for many railway bridges in Britain and abroad. He was Engineer and part constructor of the harbour at Callao, Peru, and also of harbour works at Colón, Panama. On canal works he was contractor for the marine canal, the Morskoy Canal, in 1875 between Kronstadt and St Petersburg. His great work on canals, however, was the concept with Edward Leader Williams of the hydraulically operated barge lift at Anderton, Cheshire, linking the Weaver Navigation to the Trent \& Mersey Canal, whose water levels have a vertical separation of 50 ft (15 m). This was opened on 26 July 1875. The structure so impressed the French engineers who were faced with a bottleneck of five locks on the Neuffossée Canal south of Saint-Omer that they commissioned Clark to design a lift there. This was completed in 1878 and survives as a historic monument. The design was also adopted for four lifts on the Canal du Centre at La Louvière in Belgium, but these were not completed until after Clark's death.JHB -
13 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 -
14 Paxton, Sir Joseph
[br]b. 3 August 1801 Milton Bryant, Bedfordshire, Englandd. 8 June 1865 Sydenham, London, England[br]English designer of the Crystal Palace, the first large-scale prefabricated ferrovitreous structure.[br]The son of a farmer, he had worked in gardens since boyhood and at the age of 21 was employed as Undergardener at the Horticultural Society Gardens in Chiswick, from where he went on to become Head Gardener for the Duke of Devonshire at Chatsworth. It was there that he developed his methods of glasshouse construction, culminating in the Great Conservatory of 1836–40, an immense structure some 277 ft (84.4 m) long, 123 ft (37.5 m) wide and 67 ft (20.4 m) high. Its framework was of iron and its roof of glass, with wood to contain the glass panels; it is now demolished. Paxton went on to landscape garden design, fountain and waterway engineering, the laying out of the model village of Edensor, and to play a part in railway and country house projects.The structure that made Paxton a household name was erected in Hyde Park, London, to house the Great Exhibition of 1851 and was aptly dubbed, by Punch, the Crystal Palace. The idea of holding an international exhibition for industry had been mooted in 1849 and was backed by Prince Albert and Henry Cole. The money for this was to be raised by public subscription and 245 designs were entered into a competition held in 1850; however, most of the concepts, received from many notable architects and engineers, were very costly and unsuitable, and none were accepted. That same year, Paxton published his scheme in the Illustrated London News and it was approved after it received over-whelming public support.Paxton's Crystal Palace, designed and erected in association with the engineers Fox and Henderson, was a prefabricated glasshouse of vast dimensions: it was 1,848 ft (563.3 m) long, 408 ft (124.4 m) wide and over 100 ft (30.5 m) high. It contained 3,300 iron columns, 2,150 girders. 24 miles (39 km) of guttering, 600,000 ft3 (17,000 m3) of timber and 900,000 ft2 (84,000 m) of sheet glass made by Chance Bros, of Birmingham. One of the chief reasons why it was accepted by the Royal Commission Committee was that it fulfilled the competition proviso that it should be capable of being erected quickly and subsequently dismantled and re-erected elsewhere. The Crystal Palace was to be erected at a cost of £79,800, much less than the other designs. Building began on 30 July 1850, with a labour force of some 2,000, and was completed on 31 March 1851. It was a landmark in construction at the time, for its size, speed of construction and its non-eclectic design, and, most of all, as the first great prefabricated building: parts were standardized and made in quantity, and were assembled on site. The exhibition was opened by Queen Victoria on 1 May 1851 and had received six million visitors when it closed on 11 October. The building was dismantled in 1852 and reassembled, with variations in design, at Sydenham in south London, where it remained until its spectacular conflagration in 1936.[br]Principal Honours and DistinctionsKnighted 1851. MP for Coventry 1854–65. Fellow Linnaean Society 1853; Horticultural Society 1826. Order of St Vladimir, Russia, 1844.Further ReadingP.Beaver, 1986, The Crystal Palace: A Portrait of Victorian Enterprise, Phillimore. George F.Chadwick, 1961, Works of Sir Joseph Paxton 1803–1865, Architectural Press.DY -
15 Buçaco, Forest and Mountain of
On the boundary between Coimbra and Viseu districts, the Buçaco (former spelling: Bussaco or Busaco) forest and mountain (ca. 547 meters or 1,795 feet high), were the site of a famous Peninsular War victory of the Duke of Wellington over the French forces under Masséna on 27 September 1810. A monument remains to attest to this defeat of Napoleon. Not far from this spot is the Hotel-Palace of Buçaco, completed just before the monarchy was overthrown in the revolution of 5 October 1910. In Portuguese tradition, it is said that the royal family wished to build, in effect, the last royal palace of the dynasty, but could not afford the cost of such a construction and eventually converted the palace into a hotel open to the public. This magnificent palatial structure is now run as a hotel and combines various architectural styles, from Edwardian dining rooms and a billiards room to neo-Gothic, Arabic, and neo-Manueline rococo. Off the beaten track in the lovely Buçaco forest area, the Hotel-Palace remains a recent historic monument, and it is said that before it was completed, the last reigning Braganza, King Manuel II (1908-10), on more than one occasion met his French paramour there.Historical dictionary of Portugal > Buçaco, Forest and Mountain of
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16 well
1) колодец2) источник3) водоём4) скважина5) зумпф; отстойник6) металлоприёмник ( шахтной печи)7) метал. горн8) строит. шахта (напр. лифта)9) углубление11) электрон. карман( в структуре ИС)•well on the beam — скважина с насосным подъёмником;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 и т. п.);to bring a well in — вызывать приток пластового флюида в скважину;to bump off a well — отсоединять насосную скважину от группового привода;to complete a well — заканчивать скважину;to dry up a well — откачивать жидкость из скважины;to flow a well hard — эксплуатировать (фонтанирующую) скважину с максимальным возможным дебитом;to flush a well out — промывать скважину;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 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 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 — восстанавливать 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 [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;-
abandoned well
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absorption well
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anchor well
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appraisal well
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artesian well
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barren well
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beam well
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beer well
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blowing well
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branched well
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cased well
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centerboard well
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closed-in well
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cluster well
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commercial well
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completed well
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concentration well
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condensate well
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confirmation well
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controlled directional well
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cored well
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crooked well
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dead well
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development test well
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development well
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dewatering well
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directional well
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discovery well
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disposal well
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drainage well
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drain well
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drowned well
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dry well
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dual completion well
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dual-zone well
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edge well
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exploratory well
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extension well
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float well
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flowing well
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gage well
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gas well
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gravel-packed well
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head well
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high-flow-rate well
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horizontal well
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hot well
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infill well
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injection well
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in-pit well
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input well
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inspection well
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intake well
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irrigation well
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isolated well
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junked well
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key well
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killed well
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killer well
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ladle well
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landing gear well
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lift well
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line well
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loading well
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log well
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marginal well
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measuring well
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multipay well
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multiple completion well
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multiple-zone well
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noncommercial well
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nonproducing well
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n-type well
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observation well
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offset well
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offshore well
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oil well
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open well
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outpost extension well
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outpost well
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output well
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pipe well
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platform well
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potential well
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pressure observation well
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pressure well
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pressure-relief well
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producing well
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production well
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prolific well
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propeller well
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p-type well
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pumped well
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pumping well
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quantum well
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Ranney-type well
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recharge well
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relief well
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rim well
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rod-line well
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salt-water disposal well
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sanded-up well
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sandy well
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satellite well
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screened well
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settling well
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shut-in well
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single well
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slanted well
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slant well
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stair well
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step-out well
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stilling well
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stratigraphic test well
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structure test well
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suction well
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supply well
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surging well
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suspended well
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tar well
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temporarily abandoned well
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tonnage well
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tube well
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turnkey well
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underwater well
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waste-injection well
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water well
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wet well
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wheels well
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wild well
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wildcat well -
17 as-built drawing
ISO 10209- 4 <build.docu> (shows as-is dimensions of a completed building structure) ■ Bestandszeichnung f DIN ISO 10209-4 ; korrigierte Bauzeichnung f -
18 record drawing
<build.docu> (shows as-is dimensions of a completed building structure) ■ Bestandszeichnung f DIN ISO 10209-4 ; korrigierte Bauzeichnung f -
19 erection
1) строительство; возведение (здания, сооружения)2) установка; сборка; монтаж; монтирование3) монтажный•erection by protrusion and floating — сооружение ( моста) путём продвигания пролётов на плаву
erection from "wheels" — монтаж "с колёс"
erection from transport vehicles — монтаж "с колёс"
erection procedure by partially confining the movement of elements to be mounted — ограниченно-свободный монтаж
- erection of embankment - erection of equipment - erection of formwork - erection of overhead line - erection of structural steel - erection of tower type structures or equipment by sliding its supporting part on rollers - balanced erection - building erection - cantilever erection - correct erection - crane erection - disruption of the schedule of erection works - overall erection - overhang erection - overhead erection - proper erection - rapid erection - schedule of erection works - site erection - span erection - split erection - steel erection - tank erection - trial erection - vertical erectionerection without scaffolding — сборка без подмостей, навесной монтаж ( пролётного строения моста)
* * *монтаж, монтажные работы, возведение ( сооружений)- erection of cranes
- balanced cantilever erection
- bridge erection
- bridge erection on falsework
- building erection
- cantilever erection
- high-rise erection
- steelwork erection
- structural steel erection
- structure erection
- vertical erection -
20 Alcobaça, Monastery of
Located in Alcobaça, Leiria district, this is Portugal's largest church and premier religious monument in Gothic style. Alcobaça was established by the first Portuguese king, Afonso Henriques, in the 12th century. According to tradition, its foundation followed the king's wish after the relief of the town of Santarém from the Moors. The king chose Cistercian monks, recently arrived from France, to oversee the project and administer the establishment. Construction of what became a Cistercian abbey and church began only in 1178. After many delays, the church was finally completed and dedicated in 1252, although parts of the building were unfinished. The massive structure is in the shape of a Latin cross, and the naves are over 60 feet high. Various Portuguese kings and their families are buried in Alcobaça; here also are the famous tombs of the ill-fated Dona Inês de Castro and King Pedro I.Among 18th-century visitors and travelers who made the beauty and wonder of Alcobaça famous in England and elsewhere was the wealthy English eccentric and writer William Beckford, whose 1835 account of his visits to Alcobaça, in effect, put Portugal on the map of English travelers henceforth.
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