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1 furnace area
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2 furnace area
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3 active furnace area
активная площадь пода печи
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[А.С.Гольдберг. Англо-русский энергетический словарь. 2006 г.]Тематики
EN
Англо-русский словарь нормативно-технической терминологии > active furnace area
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4 area
1) площадь; пространство3) поверхность4) (производственный) участок; помещение; площадка5) рабочая ячейка ( склада)•equal in area — равновеликий;area of base — площадь основания, площадь подошвы фундаментаarea of bearing — 1. площадь опоры 2. строит. площадка опиранияarea of contact — площадь поверхности контактаarea of diagram — площадь эпюры; площадь графикаarea of fracture — 1. поверхность излома 2. площадь поперечного сечения в месте разрушенияarea of occurrence — возд. район происшествияarea of water section — гидр. площадь живого сечения потокаarea of well influence — зона влияния колодца или скважины-
absorption area
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active area
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actual contact area
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actuating area
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actuation probability area
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addressable area
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adjustment control area
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advisory area
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air intake hazard area
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aircraft parking area
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airflow separation area
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airport construction area
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airport prohibited area
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airport service area
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air-route area
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alighting area
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alloy storage area
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annulus area
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antenna effective area
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antenna area
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antinode area
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aperture area
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approach area
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ash-disposal area
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auditory area
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backwater area
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bare area
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base area
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bearing surface area
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binding area
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blade area
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blade-exit area
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blind area
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blind drainage area
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boarding area
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bolted area
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bonding area
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bond area
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bore area
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bubble-melt surface area
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buffer area
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building area
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built-up area
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burning area
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catalyst surface area
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catchment area
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caved area
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central equipment area
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centralized telecine area
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centralized traffic area
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centralized video tape area
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charge-makeup area
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charging area
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chip area
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choke-tube area
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circling approach area
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clean processing area
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clearance area
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climb-out area
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clinch area
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coal area
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coherence area
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cold area
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commanded area
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common area
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compression area
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concrete area
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cone effect area
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congested area
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connector area
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conservation area
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constant area
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contact area
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contact spot area
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contaminated area
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contamination control area
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contiguous area
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contour area of contact
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control area
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controlled access area
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cooling area
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corrosion area
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coverage area
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crimp area
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critical area
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cross-sectional area
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cross-section area
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cutting area
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cylinder annular area
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dangerous area
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data-rich area
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data-sparse area
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data-void area
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decontamination area
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demixing area
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design wing area
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developed area
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developed blade area
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development area
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die attach area
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diked area
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direct transit area
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discharge area
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display area
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disposal area
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dot area
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downstream area
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drainage area
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drainless area
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dry area
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dynamic area
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echoing area
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echo area
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effective area
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effective braking area
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effective cross-sectional area
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effective cross-section area
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effective screening area
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effects area
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electrical contact area
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electroded area
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elemental area
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enclosed working area
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end safety area
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engineering area
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environmentally fragile area
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exchange area
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exclusion area
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exhaust area
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expanded blade area
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expanded area
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exposure area
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face area
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fan blast area
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felling area
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fenced-off area
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fetch area
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fill area
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film-editing area
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filter effective area
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filter open area
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filtering area
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finished-products storage area
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fixed area
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flame area
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flooded area
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flood-free area
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flooding area
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floor area
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flow area
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focus area
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forbidden area
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free-surface area
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fringe area
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functional area
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furnace area
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fusing area
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fusion area
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gases shear area
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gasket surface area
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gassy area
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gathering area
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gob area
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graticule area
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gray-scale picture area
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gross cross-sectional area
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gross cross-section area
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gross irrigable area
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ground contact area
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gutter area
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hard-core area
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hard-to-reach area
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hearth area
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heat dissipation area
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heat-affected area
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heating area
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heat-transfer area
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high-activity area
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high-beat area
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high-radiation area
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holding area
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hot area
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housing area
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illuminated area
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image area
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impact area
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impression area
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inactive area
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ingot-stripping area
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input area
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instantaneous area of flame front
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instruction area
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intended landing area
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interfacial area
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interference area
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interlocking area
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inundated area
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junction area
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knuckle area
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land area
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landing area
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lateral area
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lift irrigation area
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lift-off area
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link overlapped area
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living area
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living floor area
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load-and-unload area
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load-carrying area
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loading area
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loadout area
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localized areas of wear
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low-radiation area
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makeup area
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maneuvering area
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man-impacted area
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manned area
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manual setting-up area
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melting area
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mesa area
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metropolitan area
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mining area
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mirror area
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mold conditioning area
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mold opening area
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moment area
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movement area
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mush area
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natural area
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net cross-sectional area
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net cross-section area
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neutron migration area
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nominal contact area
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noncontact area
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nonimage area
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nonmoving area
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nonoccupied area
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nonprinting area
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nonstorage area
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nonutilizable area
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normally occupied area
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nose area
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nuclear area
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numbering area
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obstructed landing area
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open area
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open flow area
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outgassed area
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output area
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overrun safety area
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pallet area
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patch area
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pattern area
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payable area
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percent shear area
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personnel and utility area
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phosphor area
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photolithographic area
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picture area
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poor-reception area
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port area
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presentation area
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pressing area
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prewarming area
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primary area
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primary service area
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printing area
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production area
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production control area
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programmed operating area
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prohibited area
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projectedblade area
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projected area
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propeller disk area
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protected area
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quality-control area
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quality area
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quench area
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quiet area
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radar area
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radiation-control area
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real area of contact
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recording area
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record area
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refining area
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regeneration area
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reinforcing steel area
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rerecording area
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reservoir surface area
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reservoir area
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residential area
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resident area
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residential floor area
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restricted area
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retarder area
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rig deck area
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risk area
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robot area
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roof contact area
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rubbing path area
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rudder area
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run-up area
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rural area
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safe operating area
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safety area
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sail area
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save area
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scanned area
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scrap-consuming area
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scrap-disposal area
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scrap-grading area
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scratch area
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screen area
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sealing area
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seal area
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search area
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secondary area
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sectional area
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section area
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seeking area
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segregated area
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service area
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serviceable area
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setting-up area
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shaded area
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shadow area
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shareable area
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shoe pad transition area
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shooting area
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sintering area
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site area
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skip area
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slag-line area
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slot area
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slowing-down area of neutron
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snow-covered area
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solid area
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sound area
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sound-track area
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special work permit area
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specific floor area
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specific surface area
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spliced area
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spoil area
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stack area
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stockline area
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stool conditioning area
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storage area
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stripped area
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subsidence area
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superheated area
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surface area
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switching area
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takeoff area
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takeoff flight path area
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tape area
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taphole area
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target area
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technical-equipment area
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technical area
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telecine area
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tension area
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terminal area
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terminal control area
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test area
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throat area
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tongs area of pipe
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tool service area
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tool-presetting area
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total area
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total irrigation area
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total tuyere area
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transient area
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turnaround area
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tuyere area
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type area
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unattacked area
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undershoot area
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ungaged area
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uniform area
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unobstructed landing area
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upstream area
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urban area
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usable area
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user area
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valve fillet area
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valve seating face area
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video tape recording area
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video tape area
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viewing area
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vision control area
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vulnerable area
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waste area
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waste-metal area
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waste-storage area
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water catchment area
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waterplane area
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water-surface area
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wear track area
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weld metal area
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well drainage area
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wellhead area
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wetted area
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wildlife area
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window area
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worked-out area
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working area
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yard area
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yoke area -
5 furnace plan area
площадь горизонтального сечения топки котла
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[А.С.Гольдберг. Англо-русский энергетический словарь. 2006 г.]Тематики
EN
площадь топки котла в плане
(ширина на высоту)
[А.С.Гольдберг. Англо-русский энергетический словарь. 2006 г.]Тематики
EN
Англо-русский словарь нормативно-технической терминологии > furnace plan area
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6 area
1) область
2) ареола
3) площадь
4) участок памяти
5) дифференциал
6) площадь поверхности
7) площадный
8) площадочный
9) зона
10) поверхностный
– abyssal area
– antenna area
– area alteration
– area element
– area method
– area monitor
– area monitoring
– area of action
– area of ambiguity
– area of circle
– area of force
– area of retardation
– area rule
– area sampling
– ash disposal area
– blade-swept area
– burning-surface area
– catchment area
– contour an area
– cross-section area
– cutting area
– discharge area
– disk area
– drainless area
– effective area
– emitting area
– enclosed area
– feasible area
– free area
– frontal area
– furnace-throat area
– illuminated area
– in area extent
– inlet area
– inspection area
– interface area
– inundated area
– irrigated area
– isolated area
– landing area
– lateral area
– lifting-surface area
– loading area
– measure of area
– moment area
– navigation area
– neat area
– oil-producing area
– parking area
– populated area
– production area
– prop-free area
– reduction of area
– reference area
– research area
– residential area
– service area
– shaded area
– site area
– small area
– sown area
– surface area
– surfent of area
– tail area
– testing area
– touchdown area
– uncharted area
– unit of area
– unloading area
– usable area
– water area
– water-surface area
– waterplane area
– wetted area
– working area
antenna area efficiency — <electr.> эффективность по площади
area bitumen survey — <energ.> съемка битумная площадная
primary service area — зона увереннего приема радиовещательного передатчика
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7 area
1) площадь, участок, пространство2) район, область, зона; ареал3) сфера деятельности, область специализации•to contour an area — топогр. изображать рельеф местности горизонталями
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8 furnace-throat area
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9 furnace charging area
Металлургия: участок посада в печь -
10 furnace-throat area
Техника: площадь сечения колошника (доменной печи) -
11 furnace-throat area
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12 blast-furnace hearth
English-Russian big polytechnic dictionary > blast-furnace hearth
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13 термоучасток
furnace areaБольшой англо-русский и русско-английский словарь > термоучасток
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14 термоучасток
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15 площадь сечения колошника
furnace-throat areaБольшой англо-русский и русско-английский словарь > площадь сечения колошника
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16 high
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17 Gibbons, John
SUBJECT AREA: Metallurgy[br]fl. 1800–50 Staffordshire, England[br]English ironmaster who introduced the round hearth in the blastfurnace.[br]Gibbons was an ironmaster in the Black Country, South Staffordshire, in charge of six blast furnaces owned by the family business. Until Gibbons's innovation in 1832, small changes in the form of the furnace had at times been made, but no one had seriously questioned the square shape of the hearth. Gibbons noticed that a new furnace often worked poorly by improved as time went on. When it was "blown out", i.e. taken out of commission, he found that the corners of the hearth had been rounded off and the sides gouged out, so that it was roughly circular in shape. Gibbons wisely decided to build a blast furnace with a round hearth alongside an existing one with a traditionally shaped hearth and work them in exactly the same conditions. The old furnace produced 75 tons of iron in a week, about normal for the time, while the new one produced 100 tons. Further improvements followed and in 1838 a fellow ironmaster in the same district, T. Oakes, considerably enlarged the furnace, its height attaining no less than 60ft (18m). As a result, output soared to over 200 tons a week. Most other ironmasters adopted the new form with enthusiasm and it proved to be the basis for the modern blast furnace. Gibbons made another interesting innovation: he began charging his furnace with the "rubbish", slag or cinder, from earlier ironmaking operations. It contained a significant amount of iron and was cheaper to obtain than iron ore, as it was just lying around in heaps. Some ironmasters scorned to use other people's throw-outs, but Gibbons sensibly saw it as a cheap source of iron; it was a useful source for some years during the nineteenth century but its use died out when the heaps were used up. Gibbons published an account of his improvements in ironmaking in a pamphlet entitled Practical Remarks on the Construction of the Staffordshire Blast Furnace.[br]Bibliography1839, Practical Remarks on the Construction of the Staffordshire Blast Furnace, Birmingham; reprinted 1844.Further ReadingJ.Percy, 1864, Metallurgy. Iron and Steel, London, p. 476. W.K.V.Gale, 1969, Iron and Steel, London: Longmans, pp. 44–6.LRD -
18 Champion, Nehemiah
SUBJECT AREA: Metallurgy[br]b. 1678 probably Bristol, Englandd. 9 September 1747 probably Bristol, England[br]English merchant and brass manufacturer of Bristol.[br]Several members of Champion's Quaker family were actively engaged as merchants in Bristol during the late seventeenth and the eighteenth centuries. Port records show Nehemiah in receipt of Cornish copper ore at Bristol's Crews Hole smelting works by 1706, in association with the newly formed brassworks of the city. He later became a leading partner, managing the company some time after Abraham Darby left the Bristol works to pursue his interest at Coalbrookdale. Champion, probably in company with his father, became the largest customer for Darby's Coalbrookdale products and also acted as Agent, at least briefly, for Thomas Newcomen.A patent in 1723 related to two separate innovations introduced by the brass company.The first improved the output of brass by granulating the copper constituent and increasing its surface area. A greater proportion of zinc vapour could permeate the granules compared with the previous practice, resulting in the technique being adopted generally in the cementation process used at the time. The latter part of the same patent introduced a new type of coal-fired furnace which facilitated annealing in bulk so replacing the individual processing of pieces. The principle of batch annealing was generally adopted, although the type of furnace was later improved. A further patent, in 1739, in the name of Nehemiah, concerned overshot water-wheels possibly intended for use in conjunction with the Newcomen atmospheric pumping engine employed for recycling water by his son William.Champion's two sons, John and William, and their two sons, both named John, were all concerned with production of non-ferrous metals and responsible for patented innovations. Nehemiah, shortly before his death, is believed to have partnered William at the Warmley works to exploit his son's new patent for producing metallic zinc.[br]Bibliography1723, British patent no. 454 (granulated copper technique and coal-fired furnace). 1739, British patent no. 567 (overshot water-wheels).Further ReadingA.Raistrick, 1950, Quakers in Science and Industry, London: Bannisdale Press (for the Champion family generally).J.Day, 1973, Bristol Brass, a History of the Industry, Newton Abbot: David \& Charles (for the industrial activities of Nehemiah).JD -
19 Fox, Samson
SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering, Metallurgy, Steam and internal combustion engines[br]b. 11 July 1838 Bowling, near Bradford, Yorkshire, Englandd. 24 October 1903 Walsall, Staffordshire, England[br]English engineer who invented the corrugated boiler furnace.[br]He was the son of a cloth mill worker in Leeds and at the age of 10 he joined his father at the mill. Showing a mechanical inclination, he was apprenticed to a firm of machine-tool makers, Smith, Beacock and Tannett. There he rose to become Foreman and Traveller, and designed and patented tools for cutting bevelled gears. With his brother and one Refitt, he set up the Silver Cross engineering works for making special machine tools. In 1874 he founded the Leeds Forge Company, acting as Managing Director until 1896 and then as Chairman until shortly before his death.It was in 1877 that he patented his most important invention, the corrugated furnace for steam-boilers. These furnaces could withstand much higher pressures than the conventional form, and higher working pressures in marine boilers enabled triple-expansion engines to be installed, greatly improving the performance of steamships, and the outcome was the great ocean-going liners of the twentieth century. The first vessel to be equipped with the corrugated furnace was the Pretoria of 1878. At first the furnaces were made by hammering iron plates using swage blocks under a steam hammer. A plant for rolling corrugated plates was set up at Essen in Germany, and Fox installed a similar mill at his works in Leeds in 1882.In 1886 Fox installed a Siemens steelmaking plant and he was notable in the movement for replacing wrought iron with steel. He took out several patents for making pressed-steel underframes for railway wagons. The business prospered and Fox opened a works near Chicago in the USA, where in addition to wagon underframes he manufactured the first American pressed-steel carriages. He later added a works at Pittsburgh.Fox was the first in England to use water gas for his metallurgical operations and for lighting, with a saving in cost as it was cheaper than coal gas. He was also a pioneer in the acetylene industry, producing in 1894 the first calcium carbide, from which the gas is made.Fox took an active part in public life in and around Leeds, being thrice elected Mayor of Harrogate. As a music lover, he was a benefactor of musicians, contributing no less than £45,000 towards the cost of building the Royal College of Music in London, opened in 1894. In 1897 he sued for libel the author Jerome K.Jerome and the publishers of the Today magazine for accusing him of misusing his great generosity to the College to give a misleading impression of his commercial methods and prosperity. He won the case but was not awarded costs.[br]Principal Honours and DistinctionsRoyal Society of Arts James Watt Silver Medal and Howard Gold Medal. Légion d'honneur 1889.Bibliography1877, British Patent nos. 1097 and 2530 (the corrugated furnace or "flue", as it was often called).Further ReadingObituary, 1903, Proceedings of the Institution of Mechanical Engineers: 919–21.Obituary, 1903, Proceedings of the Institution of Civil Engineers (the fullest of the many obituary notices).G.A.Newby, 1993, "Behind the fire doors: Fox's corrugated furnace 1877 and the high pressure steamship", Transactions of the Newcomen Society 64.LRD -
20 Parry, George
SUBJECT AREA: Metallurgy[br]fl. 1800–1850 Wales[br]Welsh ironmaker and inventor of the bell and hopper for blastfurnaces.[br]Until the mid-nineteenth century, blast furnaces were open at the top to facilitate loading of the iron ore, fuel and flux (the charge). However, that arrangement allowed the hot gases produced in the furnace to escape, whereas they could have been used to heat boilers or the incoming air blast. Attempts had been made to capture the fugitive gases, but they had all failed until George Parry devised his bell and hopper equipment for dosing the throat or top of the furnace. He fixed an inverted cone or hopper inside the throat and arranged inside it a cast-iron bell that could be raised or lowered. When in the raised position, it was in contact with the underside of the hopper, thus sealing the furnace. The hot gases could then be led off through a large pipe to do useful work. The charge was dropped onto the bell, and when enough had accumulated there the bell was lowered, allowing the charge to fall into the furnace. The gas escaped only for the brief period that the bell was lowered. The advantages of this arrangement were soon realized by other ironmasters and it was quite rapidly, and then generally, adopted. The device was still in use in the 1990s, with modifications.[br]Bibliography1858, "On the principal causes of derangements in blast furnaces", Proceedings of the South Wales Institute of Engineers 1:26–39 (describes his improvements to the blast furnace), 28 ff. (relates to the improvements in the charging arrangements).Further ReadingW.K.V.Gale, 1969, Iron and Steel, London: Longmans, p. 52.LRD
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