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61 asymptotic
1) асимптотический
2) асимптотика
3) полусходящийся ∙ arcwise asymptotic value ≈ дуговое асимптотическое значение asymptotic confidence interval ≈ асимптотический доверительный интервал asymptotic equipartition property ≈ свойство асимптотической равнораспределенности asymptotic essential component ≈ асимптотическая существенная компонента asymptotic expansion formula ≈ формула асимптотического разложения ( функции) asymptotic passage theorem ≈ теорема об асимптотическом поведении переходных вероятностей asymptotic power series expansion ≈ разложение в асимптотический степенной ряд asymptotic sequential design ≈ асимптотический последовательный план basic asymptotic estimate ≈ основная асимптотическая оценка central asymptotic problem ≈ центральная асимптотическая проблема doubly asymptotic triangle ≈ дважды асимптотический треугольник first asymptotic distribution ≈ первое предельное распределение multiply asymptotic series ≈ многократно асимптотический ряд negatively asymptotic point ≈ отрицательно асимптотическая точка pointwise asymptotic value ≈ точечное асимптотическое значение positively asymptotic point ≈ положительно асимптотическая точка simple asymptotic sieve ≈ простое асимптотическое решето trebly asymptotic triangle ≈ трижды асимптотический треугольник uniform asymptotic representation ≈ равномерное асимптотическое представление virtually asymptotic net ≈ виртуально асимптотическая сеть - asymptotic expression - asymptotic fairness - asymptotic fibration - asymptotic field - asymptotic flatness - asymptotic form - asymptotic formula - asymptotic frequency - asymptotic function - asymptotic geodesic - asymptotic growth - asymptotic helicity - asymptotic hexagon - asymptotic hyperplane - asymptotic inadmissibility - asymptotic independence - asymptotic inequality - asymptotic information - asymptotic integration - asymptotic interpolation - asymptotic invariance - asymptotic iteration - asymptotic law - asymptotic learning - asymptotic likelihood - asymptotic limit - asymptotic line - asymptotic linearity - asymptotic mean - asymptotic method - asymptotic mimimum - asymptotic minimax - asymptotic model - asymptotic moment - asymptotic nature - asymptotic negligibility - asymptotic net - asymptotic normalcy - asymptotic normality - asymptotic operator - asymptotic optimality - asymptotic optimum - asymptotic order - asymptotic parabola - asymptotic parallel - asymptotic path - asymptotic period - asymptotic phase - asymptotic plane - asymptotic point - asymptotic power - asymptotic prediction - asymptotic prime - asymptotic probability - asymptotic problem - asymptotic property - asymptotic proportionality - asymptotic ratio - asymptotic recurrence - asymptotic region - asymptotic relation - asymptotic representation - asymptotic resolvent - asymptotic restriction - asymptotic result - asymptotic root - asymptotic scaling - asymptotic semiform - asymptotic sequence - asymptotic series - asymptotic set - asymptotic shape - asymptotic sieve - asymptotic simplicity - asymptotic slope - asymptotic smallness - asymptotic solution - asymptotic spot - asymptotic stability - asymptotic state - asymptotic sufficiency - asymptotic sum - asymptotic surface - asymptotic symbol - asymptotic symmetry - asymptotic technique - asymptotic test - asymptotic theor - asymptotic theorem - asymptotic tract - asymptotic trajectory - asymptotic transformation - asymptotic triangle - asymptotic twistor - asymptotic unbiasedness - asymptotic value - asymptotic variable - asymptotic variance - asymptotic vector - isothermally asymptoticасимптотическийasymptotic асимптотическийБольшой англо-русский и русско-английский словарь > asymptotic
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62 valve
1) клапан; вентиль2) задвижка; затвор4) кран5) мн. ч. вентильная арматура•to time the valves — регулировать газораспределение ( двигателя)-
2-axis hydraulic contouring valve
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3-axis hydraulic contouring valve
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3-position spring-centered selector valve
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ac solenoid hydraulic directional valve
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accumulator charging valve
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accumulator unloading valve
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adjustable valve
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admission valve
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ahead maneuvering valve
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air control valve
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air filler valve
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air valve
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air-gap armature hydraulic valve
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air-operated valve
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air-starting valve
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air-steam relief valve
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air-vent valve
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alarm valve
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aligned-grid valve
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amplifier valve
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angle valve
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annular slide valve
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antibackfire valve
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antiicing shutoff valve
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astern maneuvering valve
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atmospheric steam dump valve
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automatic changeover valve
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auxiliary loop isolation valve
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auxiliary valve
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back pressure valve
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back valve
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backfire bypass valve
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backflush valve
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back-seating valve
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backwash valve
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baffle valve
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balanced needle valve
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balanced valve
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balanced-disk valve
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balanced-gate valve
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ball and scat valve
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ball seating action valve
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ball shear action valve
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ball valve
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ball-operated pneumatic valve
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beam-power valve
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bin slide valve
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blade-control valve
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bleeder valve
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bleed valve
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block valve
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blowing valve
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blowoff valve
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blowout valve
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bottom discharge valve
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bottom dump valve
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bottom-hole valve
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brake application valve
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brake cylinder release valve
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brake hydraulic valve
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brake transmission valve
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brake valve
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breathing valve
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bulkhead valve
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bullet valve
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butterfly valve
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bypass proportional valve
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bypass valve
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cam-operated pneumatic valve
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cargo oil valve
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cargo valve
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cartridge-type valve
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casing fill-up valve
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casing float valve
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casing pressure operated gas lift valve
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cement float valve
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centrifugal reducing valve
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changeover valve
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charging valve
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check valve
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chimney slide valve
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chimney valve
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choke valve
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Christmas-tree gate valve
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Christmas-tree valve
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combined stop and emergency valve
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common slide valve
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compartment valve
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compensation valve
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compression valve
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compressor bleed valve
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conditioned air emergency valve
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conductor's valve
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cone valve
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control valve
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converter valve
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coolant flow-control valve
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cooler bypass valve
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copying valve
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counterbalance valve
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crankcase valve
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crankcase ventilation valve
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crossfeed valve
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crude oil valve
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cryogenic gate valve
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cutoff valve
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cutout valve
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cylinder-operated pneumatic valve
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cylindrical valve
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damper valve
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dc solenoid hydraulic directional valve
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deceleration flow control valve
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deceleration valve
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deck drain valve
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decompression pressure control valve
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delivery valve
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depress valve
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detent-controlled valve
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diaphragm seating action valve
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diaphragm valve
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differential lock valve
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differential pressure control valve
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differential relief valve
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direct-acting valve
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direct-admission valve
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direction selector valve
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directional control valve
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directly operated valve
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discharge valve
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disk valve
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distributing valve
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distribution valve
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diverter valve
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double air-piloted valve
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double-acting valve
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double-check valve
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double-seat valve
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double-solenoid valve
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drain valve
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dual block gate valve
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dual block valve
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dump valve
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duplex valve
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duplicator valve
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eduction valve
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ejection valve
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electric valve
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electric-to-air valve
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electrohydraulic servo valve
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electromagnetic valve
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electronic valve
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emergency closing valve
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emergency valve
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emergency-braking valve
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en-bloc directional control hydraulic valve
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engine start valve
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engineer's brake valve
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equalizing tester valve
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equalizing valve
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escape valve
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evaporator refrigerant valve
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exhaust brake valve
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exhaust valve
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exit-juice valve
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expansion valve
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explosive valve
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extraction valve
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feeding valve
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feed valve
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feedwater valve
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fill valve
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five-port control valve
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five-port valve
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fixed flow control valve
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fixed-dispersion cone valve
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flap valve
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flapper action valve
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flapper valve
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flat gate valve
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flat valve
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flat-scat fuel valve
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Fleming valve
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float valve
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float-controlled gate valve
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float-controlled valve
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flooding valve
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flood valve
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flow control valve
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flow directing valve
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flow dividing valve
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flow metering valve
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flow restrictor valve
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flow safety valve
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flow summarizing valve
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flow-regulating valve
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fluid check valve
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flushing and boost valve
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follow valve
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follower-ring gate valve
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foot valve
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foot-operated pneumatic valve
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force motor valve
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forcing valve
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four/three-way hydraulic directional control valve
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four-port control valve
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four-port valve
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four-way directional control valve
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four-way valve
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free-discharge valve
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fuel shutoff valve
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fuel supply valve
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fuel valve
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fuel-lock valve
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fume valve
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gas charging valve
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gas cylinder valve
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gas lift starting valve
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gas lift valve
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gas reversing valve
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gate valve
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geared valve
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globe valve
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guard valve
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guard's valve
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gulp valve
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hand-operated valve
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heat control valve
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high-head regulating valve
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high-pressure gate valve
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high-pressure relief valve
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holding valve
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hollow-jet valve
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hydraulic copying valve
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hydraulic pressure gage selector valve
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hydraulic valve
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inclined valve
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indirect-action valve
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induction valve
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injection valve
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injector valve
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inlet valve
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in-line air valve
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intake valve
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intercept valve
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interior differential needle valve
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intermediate-plate type valve
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internal check valve
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inverted valve
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ionic valve
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isolation valve
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jet action valve
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jet-pipe valve
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jettison valve
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kelly safety valve
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king valve
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kingston valve
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leak valve
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lever safety valve
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light valve
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liquid-crystal valve
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load dividing pressure control valve
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lock emptying valve
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lock filling valve
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lock valve
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low-cracking check valve
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magnetic valve
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main feedwater control valve
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main loop isolation valve
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main penstock valve
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main pipeline gate valve
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main pipeline valve
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main steam stop valve
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main tester valve
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make-up valve
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maneuvering valve
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manifold air valve
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manifold valve
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manual valve
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masked inlet valve
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master control gate valve
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master gate valve
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master valve
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measuring valve
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membrane valve
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mercury arc valve
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mercury valve
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metering valve
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mixer valve
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mod-logic pneumatic valve
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modular hydraulic valves
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modular-type control valve
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modulating valve
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moisture drain valve
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motor-operated valve
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multiple station isolator valve
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multiple valve
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multiway valve
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mushroom valve
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needle seating action valve
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needle valve
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neutralizer valve
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new fuel entry valve
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nonreturn valve
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nozzle control valve
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nozzle valve
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oil drain valve
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oil-controlled valve
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oil-overflow valve
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oil-pressure relief valve
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oil-pressure valve
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one-port control valve
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one-port valve
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one-stage valve
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one-way control valve
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one-way valve
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on-off valve
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open center valve
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orchard valve
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outboard valve
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outlet valve
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overflow valve
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overlapped valve
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overload valve
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overrun valve
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overspeed valve
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palm button operated pneumatic valve
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penstock valve
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pet valve
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pig scraper launching valve
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pig launching valve
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pig scraper receiver valve
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pig receiver valve
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pilot overspeed valve
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pilot valve
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pilot-actuated valve
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pilot-controlled valve
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pilot-operated check valve
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pilot-operated valve
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pipe valve
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pipeline valves
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piston valve
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piston-operated spool valve
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plug seating action valve
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plug shear action valve
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plug valve
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pneumatic control valve
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pneumatic time delay valve
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pneumatic valve
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poppet valve
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poppet-operated pneumatic valve
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power valve
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pressure control valve
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pressure reducing valve
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pressure regulating valve
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pressure sequenced valve
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pressure valve
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pressure-vacuum vent valve
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pressure vent valve
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pressure-and-vacuum valve
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pressure-compensated flow control valve
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pressure-compensated valve
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pressure-limiting valve
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pressure-operated pneumatic valve
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pressure-relief valve
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pressurizer isolation valve
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pressurizing cabin valve
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priming valve
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priority valve
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production gate valve
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production valve
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proportional control hydraulic valve
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proportional pressure control valve
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proportioning valve
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pump discharge valve
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purge valve
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push-button operated pneumatic valve
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push-button valve
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quarter-turn valve
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quick exhaust air valve
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rebound valve
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rectifier valve
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reducing valve
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reed-type valve
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reed valve
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re-entry valve
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register valve
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regulating valve
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relay valve
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release valve
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relief valve
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replenishing valve
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restrictor valve
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retaining valve
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retardation valve
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retarder valve
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retrievable valve
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return valve
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reverse Tainter valve
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reverse valve
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reversible flow metering valve
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revolving valve
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ride control valve
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roller-operated pneumatic valve
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rolling lift valve
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rotary directional hydraulic valve
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rotary disk operated pneumatic valve
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rotary valve
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safety valve
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sampling valve
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sand valve
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scour valve
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screw-down valve
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screw valve
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scupper valve
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sea-suction valve
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seating action valve
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seat valve
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selection valve
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selector directional control valve
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selector valve
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self-sealing hydraulic valve
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sequence valve
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shaft valve
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shear action valve
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shrouded valve
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shutoff gate valve
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shutoff valve
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singe-seat valve
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single solenoid valve
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single-acting valve
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single-stage valve
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sleeve valve
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slide valve
-
sliding plate shear action valve
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sluice valve
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snap-in valve
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snort valve
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sodium-filled exhaust valve
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solar panel valve
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solenoid valve
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solenoid-operated hydraulic valve
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sphere valve
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spherical valve
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sphincter valve
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spool operated pneumatic valve
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spool valve
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spray valve
-
spring centering directional control hydraulic valve
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spring centralized air valve
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spring offset valve
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spring operated valve
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spring-loaded valve
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standing valve
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start valve
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steam dump valve
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steam valve
-
steering-damping control valve
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stop valve
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straight flow valve
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straight-through valve
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suction valve
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supply valve
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surface-controlled gas lift valve
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surge damping valve
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swing disk seating action valve
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swing-check valve
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tank manifold valves
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tank valves
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tank-pipeline valve
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tapered-seat valve
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taper-seat valve
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telescopic valve
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telltale valve
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thermionic valve
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thermostatic expansion valve
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thermostatic valve
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three-port control valve
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three-port valve
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throttle valve
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throttling direction control valve
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thyristor valve
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tidal valve
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tilting disk check valve
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time delay valve
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toggle valve
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tractor breakaway valve
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transmission spark control valve
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traveling valve
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treadle-operated pneumatic valve
-
trip tester valve
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tube valve
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tubing pressure operated gas lift valve
-
tubing safety valve
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turbine inlet valve
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turbine shutoff valve
-
twinned-regenerator valve
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two/two-way hydraulic valve
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two-port control valve
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two-port valve
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two-position pneumatic valve
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two-stage valve
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two-way control valve
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two-way valve
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uncoupling valve
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underlapped valve
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unloading valve
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vacuum valve
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vapor valve
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variable load valve
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variable valve
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vent valve
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ventilation valve
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venting valve
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washout valve
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water valve
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water-gate valve
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waveguide valve
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wedge gate valve
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wedge valve
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wedge-action valve
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wet armature hydraulic valve
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whistle valve
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zero-lapped valve -
63 thermal
1) термический
2) радиотепловой
3) теплосиловой
4) термальный
5) термозэрозольный
6) термоопреснительный
7) термошумовой
8) термо-
9) калорический
10) температурный
11) пиролитический
– thermal battery
– thermal black
– thermal break-down
– thermal broadening
– thermal cabinet
– thermal capacity
– thermal coagulation
– thermal column
– thermal conductivity
– thermal convection
– thermal converter
– thermal crack
– thermal cracking
– thermal cut-out
– thermal decomposition
– thermal diffusion
– thermal dissociation
– thermal drift
– thermal effect
– thermal efficiency
– thermal equilibrium
– thermal equivalent
– thermal etching
– thermal expansion
– thermal fatigue
– thermal flotations
– thermal flux
– thermal gasoline
– thermal imager
– thermal imaging
– thermal instrument
– thermal insulation
– thermal ion
– thermal ionization
– thermal lag
– thermal microphone
– thermal motion
– thermal naphtha
– thermal neutron
– thermal noise
– thermal ohm
– thermal overload
– thermal phonon
– thermal physics
– thermal plasma
– thermal plasticization
– thermal property
– thermal radiation
– thermal radiator
– thermal reactor
– thermal relay
– thermal resistance
– thermal runaway
– thermal spike
– thermal stability
– thermal strain
– thermal stress
– thermal switch
– thermal test
– thermal trap
– thermal tuning
– thermal water
– thermal wattmeter
– thermal wind
coefficient of thermal conductivity — <phys.> коэффициент теплопроводности
coefficient of thermal expansion — коэффициент теплового расширения, коэффициент теплового удлинения
thermal imaging unit — <math.> прибор тепловизионный, <tech.> тепловизор
thermal reduction methods — <metal.> металлотермия
thermal stability factor — коэффициент температурной стабильности
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64 thermal
1. adjectivethermisch [Erscheinung, Anforderungen]; Wärme[dämmung, -strahlung]2. nounThermik, die* * *[əƟə:məl](of heat: thermal springs (= natural springs of warm or hot water); thermal units.) Thermal-..., Heiz-...* * *ther·mal[ˈθɜ:məl, AM ˈθɜ:rm-]I. n2. (underwear)1. MED thermal, Thermal-\thermal bath Thermalbad nt2. PHYS, CHEM thermisch, Thermo-, Wärme-\thermal degradation CHEM thermischer Abbau\thermal efficiency PHYS thermischer Wirkungsgrad\thermal pollution PHYS thermische Verunreinigung* * *['Tɜːməl]1. adj1) (PHYS) Wärme-; neutron, reactor, equilibrium thermisch2) clothing Thermo-2. n1) (AVIAT, MET) Thermik f no pl2) pl (inf: thermal underwear) Thermounterwäsche f* * *A adj (adv thermally)1. PHYS thermisch, Wärme…, Hitze…:thermal analysis Thermoanalyse f;thermal breeder thermischer Brüter;thermal current → 4;thermal diffusion Thermodiffusion f;thermal efficiency Wärmewirkungsgrad m;thermal equator METEO thermischer Äquator;thermal expansion Wärmeausdehnung f;thermal insulation Wärmeisolierung f;thermal neutron thermisches Neutron;thermal pollution Umweltschädigung f durch Wärme;thermal power station Wärmekraftwerk n;thermal reactor thermischer Reaktor;thermal shock Thermoschock m;thermal underwear Thermounterwäsche f;thermal unit Wärmeeinheit f;thermal value Heizwert m (von Brennstoffen)2. warm, heiß:thermal spring Thermalquelle fB s FLUG, PHYS Thermik f* * *1. adjectivethermisch [Erscheinung, Anforderungen]; Wärme[dämmung, -strahlung]2. nounThermik, die* * *adj.Thermal- präfix.Wärme- präfix.thermisch adj.thermischer adj.warm adj. -
65 ratio
отношение; соотношение; пропорция; степень; коэффициент ratio - of mixture соотношение компонентов смеси, состав (качество) смеси ratio absorption - коэффициент поглощения ratio air(-to-)fuel - состав горючей смеои, (массовое) отношение воздуха к топливу ratio area expansion - относительное расширение, отношение площадей двух поперечных сечений ratio charge - коэффициент наполнения; соотношение реагирующих веществ ratio compression - of foam кратность (плотность) пены ratio cooling - коэффициент охлаждения ratio density - относительная плотность ratio dilute (dilution) - степень разбавления ratio direct - прямая пропорциональность ratio divergence - степень расширения (напр. диффузора, сопла) ratio expansion - коэффициент или степень (теплового) расширения; кратность (пены) ratio explosion - взрывной состав (горючей смеси) ratio fineness - относительное удлинение; гранулометрический состав ratio foam expansion - кратность пены ratio fuel(-to-)air - состав горючей смеси, (массовое) отношение топлива к воздуху ratio fuel(-to-)oxidizer - соотношение горючего и окислителя ratio heat-transfer - коэффициент теплопередачи ratio hydrostatic pressure - коэффициент гидростатического давления ratio mixing - коэффициент смешения; степень перемешивания ratio mixture - соотношение компонентов смеси, состав (качества) смеси ratio nozzle-expansion - степень расширения сопла ratio oxidizer-to-fuel - соотношение окислителя и горючего ratio Poisson's - коэффициент Пуассона ratio power(-to-)weight - мощность на единицу массы, удельная МОЩНОСТЬ ratio pressure - степень сжатия; перепад давления ratio reflux - флегмовое число, коэффициент дефлегмации ratio specific heat - отношение теплоемкости при постоянном давлении к теплоемкости при постоянном объеме, показатель адиабаты ratio stoichiometric mixture - стехиометрическое соотношение компонентов топлива, стехио-мeтрический коэффициент состава топлива ratio theoretical mixture - теоретическое соотношение (компонентов топлива), теоретический коэффициент (состава топлива) ratio thermal diffusion - термодиффузионное отношение ratio transport - коэффициент или число переноса ratio viscosity - отношение вязкостен, относительная вязкость; коэффициент вязкости ratio void(s) -' коэффициент пористости; пористость ratio volume(tric) - объемное отношение или доля ratio water - относительное содержание воды -
66 heat
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67 The Lusiads
Portugal's national epic poem of the Age of Discoveries, written by the nation's most celebrated poet, Luís de Camões. Published in 1572, toward the end of the adventurous life of Camões, Os Lusíadas is the most famous and most often-quoted piece of literature in Portugal. Modeled in part on the style and format of Virgil's Aeneid, Os Lusíadas is the story of Portugal's long history, and features an evocation of the Portuguese navigator Vasco da Gama's epic discovery of the sea route from Portugal to Asia. Part of the epic poem was composed when Camões was in royal service in Portugal's Asian empire, including in Goa and Macau. While the dramatic framework is dominated by various deities from classical literature, much of what is described in Portugal, Africa, and Asia is real and accurately rendered by the classically educated (at Coimbra University) Camões, who witnessed both the apogee and the beginning of decline of Portugal's seaborne empire and world power.While the poet praises imperial power and greatness, Camões features a prescient naysayer: "The Old Man of Restelo," on the beach where Vasco da Gama is about to embark for Indian adventures, criticizes Portuguese expansion beyond Africa to Asia. Camões was questioning the high price of an Asian empire, and gave voice to those anti-imperialists and "Doubting Thomases" in the country who opposed more overseas expansion beyond Africa. It is interesting to note that in the Portuguese language usage and tradition since the establishment of The Lusiads as a national poem, "The Old Man of Restelo" ("O Velho do Restelo") came to symbolize not a wise Cassandra with timely warnings that Portugal would be fatally weakened by empire and might fall prey to neighboring Spain, but merely a Doubting Thomas in popular sentiment. The Lusiads soon became universally celebrated and accepted, and it has been translated into many languages. In the history of criticism in Portugal, more has been written about Camões and The Lusiads than about any other author or work in Portuguese literature, now more than a thousand years in the making. -
68 Carnot, Nicolas Léonard Sadi
SUBJECT AREA: Steam and internal combustion engines[br]b. 1 June 1796 Paris, Franced. 24 August 1831 Paris, France[br]French laid the foundations for modern thermodynamics through his book Réflexions sur la puissance motrice du feu when he stated that the efficiency of an engine depended on the working substance and the temperature drop between the incoming and outgoing steam.[br]Sadi was the eldest son of Lazare Carnot, who was prominent as one of Napoleon's military and civil advisers. Sadi was born in the Palais du Petit Luxembourg and grew up during the Napoleonic wars. He was tutored by his father until in 1812, at the minimum age of 16, he entered the Ecole Polytechnique to study stress analysis, mechanics, descriptive geometry and chemistry. He organized the students to fight against the allies at Vincennes in 1814. He left the Polytechnique that October and went to the Ecole du Génie at Metz as a student second lieutenant. While there, he wrote several scientific papers, but on the Restoration in 1815 he was regarded with suspicion because of the support his father had given Napoleon. In 1816, on completion of his studies, Sadi became a second lieutenant in the Metz engineering regiment and spent his time in garrison duty, drawing up plans of fortifications. He seized the chance to escape from this dull routine in 1819 through an appointment to the army general staff corps in Paris, where he took leave of absence on half pay and began further courses of study at the Sorbonne, Collège de France, Ecole des Mines and the Conservatoire des Arts et Métiers. He was inter-ested in industrial development, political economy, tax reform and the fine arts.It was not until 1821 that he began to concentrate on the steam-engine, and he soon proposed his early form of the Carnot cycle. He sought to find a general solution to cover all types of steam-engine, and reduced their operation to three basic stages: an isothermal expansion as the steam entered the cylinder; an adiabatic expansion; and an isothermal compression in the condenser. In 1824 he published his Réflexions sur la puissance motrice du feu, which was well received at the time but quickly forgotten. In it he accepted the caloric theory of heat but pointed out the impossibility of perpetual motion. His main contribution to a correct understanding of a heat engine, however, lay in his suggestion that power can be produced only where there exists a temperature difference due "not to an actual consumption of caloric but to its transportation from a warm body to a cold body". He used the analogy of a water-wheel with the water falling around its circumference. He proposed the true Carnot cycle with the addition of a final adiabatic compression in which motive power was con sumed to heat the gas to its original incoming temperature and so closed the cycle. He realized the importance of beginning with the temperature of the fire and not the steam in the boiler. These ideas were not taken up in the study of thermodynartiics until after Sadi's death when B.P.E.Clapeyron discovered his book in 1834.In 1824 Sadi was recalled to military service as a staff captain, but he resigned in 1828 to devote his time to physics and economics. He continued his work on steam-engines and began to develop a kinetic theory of heat. In 1831 he was investigating the physical properties of gases and vapours, especially the relationship between temperature and pressure. In June 1832 he contracted scarlet fever, which was followed by "brain fever". He made a partial recovery, but that August he fell victim to a cholera epidemic to which he quickly succumbed.[br]Bibliography1824, Réflexions sur la puissance motrice du feu; pub. 1960, trans. R.H.Thurston, New York: Dover Publications; pub. 1978, trans. Robert Fox, Paris (full biographical accounts are provided in the introductions of the translated editions).Further ReadingDictionary of Scientific Biography, 1971, Vol. III, New York: C.Scribner's Sons. T.I.Williams (ed.), 1969, A Biographical Dictionary of Scientists, London: A. \& C.Black.Chambers Concise Dictionary of Scientists, 1989, Cambridge.D.S.L.Cardwell, 1971, from Watt to Clausius. The Rise of Thermodynamics in the Early Industrial Age, London: Heinemann (discusses Carnot's theories of heat).RLHBiographical history of technology > Carnot, Nicolas Léonard Sadi
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69 Chevenard, Pierre Antoine Jean Sylvestre
SUBJECT AREA: Metallurgy[br]b. 31 December 1888 Thizy, Rhône, Franced. 15 August 1960 Fontenoy-aux-Roses, France[br]French metallurgist, inventor of the alloys Elinvar and Platinite and of the method of strengthening nickel-chromium alloys by a precipitate ofNi3Al which provided the basis of all later super-alloy development.[br]Soon after graduating from the Ecole des Mines at St-Etienne in 1910, Chevenard joined the Société de Commentry Fourchambault et Decazeville at their steelworks at Imphy, where he remained for the whole of his career. Imphy had for some years specialized in the production of nickel steels. From this venture emerged the first austenitic nickel-chromium steel, containing 6 per cent chromium and 22–4 per cent nickel and produced commercially in 1895. Most of the alloys required by Guillaume in his search for the low-expansion alloy Invar were made at Imphy. At the Imphy Research Laboratory, established in 1911, Chevenard conducted research into the development of specialized nickel-based alloys. His first success followed from an observation that some of the ferro-nickels were free from the low-temperature brittleness exhibited by conventional steels. To satisfy the technical requirements of Georges Claude, the French cryogenic pioneer, Chevenard was then able in 1912 to develop an alloy containing 55–60 per cent nickel, 1–3 per cent manganese and 0.2–0.4 per cent carbon. This was ductile down to −190°C, at which temperature carbon steel was very brittle.By 1916 Elinvar, a nickel-iron-chromium alloy with an elastic modulus that did not vary appreciably with changes in ambient temperature, had been identified. This found extensive use in horology and instrument manufacture, and even for the production of high-quality tuning forks. Another very popular alloy was Platinite, which had the same coefficient of thermal expansion as platinum and soda glass. It was used in considerable quantities by incandescent-lamp manufacturers for lead-in wires. Other materials developed by Chevenard at this stage to satisfy the requirements of the electrical industry included resistance alloys, base-metal thermocouple combinations, magnetically soft high-permeability alloys, and nickel-aluminium permanent magnet steels of very high coercivity which greatly improved the power and reliability of car magnetos. Thermostatic bimetals of all varieties soon became an important branch of manufacture at Imphy.During the remainder of his career at Imphy, Chevenard brilliantly elaborated the work on nickel-chromium-tungsten alloys to make stronger pressure vessels for the Haber and other chemical processes. Another famous alloy that he developed, ATV, contained 35 per cent nickel and 11 per cent chromium and was free from the problem of stress-induced cracking in steam that had hitherto inhibited the development of high-power steam turbines. Between 1912 and 1917, Chevenard recognized the harmful effects of traces of carbon on this type of alloy, and in the immediate postwar years he found efficient methods of scavenging the residual carbon by controlled additions of reactive metals. This led to the development of a range of stabilized austenitic stainless steels which were free from the problems of intercrystalline corrosion and weld decay that then caused so much difficulty to the manufacturers of chemical plant.Chevenard soon concluded that only the nickel-chromium system could provide a satisfactory basis for the subsequent development of high-temperature alloys. The first published reference to the strengthening of such materials by additions of aluminium and/or titanium occurs in his UK patent of 1929. This strengthening approach was adopted in the later wartime development in Britain of the Nimonic series of alloys, all of which depended for their high-temperature strength upon the precipitated compound Ni3Al.In 1936 he was studying the effect of what is now known as "thermal fatigue", which contributes to the eventual failure of both gas and steam turbines. He then published details of equipment for assessing the susceptibility of nickel-chromium alloys to this type of breakdown by a process of repeated quenching. Around this time he began to make systematic use of the thermo-gravimetrie balance for high-temperature oxidation studies.[br]Principal Honours and DistinctionsPresident, Société de Physique. Commandeur de la Légion d'honneur.Bibliography1929, Analyse dilatométrique des matériaux, with a preface be C.E.Guillaume, Paris: Dunod (still regarded as the definitive work on this subject).The Dictionary of Scientific Biography lists around thirty of his more important publications between 1914 and 1943.Further Reading"Chevenard, a great French metallurgist", 1960, Acier Fins (Spec.) 36:92–100.L.Valluz, 1961, "Notice sur les travaux de Pierre Chevenard, 1888–1960", Paris: Institut de France, Académie des Sciences.ASDBiographical history of technology > Chevenard, Pierre Antoine Jean Sylvestre
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70 PEP
1) Биология: phosphoenole pyruvate2) Медицина: phosphoenolpyruvate, preejection period (период изоволюмического сокращения), Public Education Program, постконтактная (химио)профилактика (post-exposure (chemo)prophylaxis)3) Американизм: Peace, Economy, Prosperity4) Военный термин: Photographic Exploitation Products, Post Event Plan, Power Entry Panel, Production Engineering and Planning, Productivity Enhancement Program, performance evaluation and prediction, performance evaluation program, personnel exchange program, physical education program, plant equipment package, platform electronic package, platform evaluation program, point expanding projectile, power evaluation program, power extension plant, proficiency examination program, program element plan, program evaluation procedure, program evaluation process, promotion evaluation pattern5) Техника: pentaethylphenol, performance enhancement program, peripheral entry panel, positron, electron, proton, power extension package, producibility engineering planning, productivity enhancement package, programmable entry panel, prosphoenole pyruvate, proton-electron-positron storage ring, prototyping, evaluation and programming system6) Сельское хозяйство: Poultry & Egg Promotion, Poultry Expansion Program7) Шутливое выражение: Python Enhancement Proposal8) Химия: Physical Equivalent Practice9) Строительство: Promotion of European Passive Houses10) Бухгалтерия: Productivity Efficiency And Profits11) Финансы: модель привязки валютных курсов стран-экспортеров к стоимости экспортируемого товара (Peg the Exprot Price, предложена в начале 2000-х годов Джеффри Франкелем (http://ksghome.harvard.edu/\PEPjfrankel/PEP%20Index-JPM.pdf)), политически значимое лицо (politically exposed person)12) Телекоммуникации: Partitioned Emulation Program, Policy Enforcement Point13) Сокращение: Peak Envelope Power, Political and Economic Planning, Post Exposure Prophylaxis (antibiotic treatment after exposure to biohazard), Productivity Enhancement Program (USA), Productivity Enhancement Project, productibility, engineering, planning, planar epitaxial passivated (transistor), Paternalistic, Economic, Participative (The three main motivational styles found in organizations and management.), Politically Exposed Person14) Университет: Personal Elective Project, Personalized Education Plan, Pharmacology Education Partnership, Pre Engineering Program, Professional Experience Program, Project Exploration Program, Publications, Education, And Presentations15) Физика: Pauli Exclusion Principle16) Физиология: Positive Expiratory Pressure, Post Exposure Prophylaxis17) Электроника: Parent And Educator Partnership, Providing For Exceptional Potential18) Вычислительная техника: Polymer Electronic Printing, методика оценки программ, Personal Employee Portal (IBM), Personal Exam Prep (MS, ATEC), Python Enhancement Proposal (Python), Packetized Ensemble Protocol (Telebit)19) Биохимия: Primate Equilibrium Platform20) Банковское дело: программа льготной продажи акций служащим компании (personal equity plan)21) Воздухоплавание: Propulsion and Energetics Panel22) Фирменный знак: Precision Engine Parts, Professional Event Photography23) Экология: Precipitation Enhancement Project, phosphorus elimination plant25) Деловая лексика: Profit Enhancement Process, программа продажи акций служащим компании (personal equity plan)26) Глоссарий компании Сахалин Энерджи: Performance Enhancement Plan27) Образование: Parent Educator Partnership, Parents Educating Parents, Parents Educators And Publishers, Personal Education Plan, Personal Enrichment Program, Potentially English Proficient, Primary Enrichment Program, Public Education Partnership, Pupil Esteem Program28) Инвестиции: personal equity plan29) Сетевые технологии: Packet Encoding Protocol, протокол пакетного кодирования30) ЕБРР: private equity plan31) Автоматика: Precision Engineering Program32) Контроль качества: product excellence program33) Сахалин Р: Project Execution Plan34) Расширение файла: Packet Exchange Protocol, Programme Evaluation Procedure35) Эволюция: ПЭП, популярная эволюционная психология, popular evolutionary psychology36) Электротехника: pulse effective power37) Высокочастотная электроника: primary entry point38) Должность: Personal Education Partner, Personal Efficiency Program, Positive Enhanced Performance, Professional Employer Panel39) Чат: People Enjoying People, Pester Every Person40) NYSE. Pepsico, Inc.41) НАСА: Propellant Equilibrium Program42) Клинические исследования: primary endpoint (основная конечная точка) -
71 pep
1) Биология: phosphoenole pyruvate2) Медицина: phosphoenolpyruvate, preejection period (период изоволюмического сокращения), Public Education Program, постконтактная (химио)профилактика (post-exposure (chemo)prophylaxis)3) Американизм: Peace, Economy, Prosperity4) Военный термин: Photographic Exploitation Products, Post Event Plan, Power Entry Panel, Production Engineering and Planning, Productivity Enhancement Program, performance evaluation and prediction, performance evaluation program, personnel exchange program, physical education program, plant equipment package, platform electronic package, platform evaluation program, point expanding projectile, power evaluation program, power extension plant, proficiency examination program, program element plan, program evaluation procedure, program evaluation process, promotion evaluation pattern5) Техника: pentaethylphenol, performance enhancement program, peripheral entry panel, positron, electron, proton, power extension package, producibility engineering planning, productivity enhancement package, programmable entry panel, prosphoenole pyruvate, proton-electron-positron storage ring, prototyping, evaluation and programming system6) Сельское хозяйство: Poultry & Egg Promotion, Poultry Expansion Program7) Шутливое выражение: Python Enhancement Proposal8) Химия: Physical Equivalent Practice9) Строительство: Promotion of European Passive Houses10) Бухгалтерия: Productivity Efficiency And Profits11) Финансы: модель привязки валютных курсов стран-экспортеров к стоимости экспортируемого товара (Peg the Exprot Price, предложена в начале 2000-х годов Джеффри Франкелем (http://ksghome.harvard.edu/\PEPjfrankel/PEP%20Index-JPM.pdf)), политически значимое лицо (politically exposed person)12) Телекоммуникации: Partitioned Emulation Program, Policy Enforcement Point13) Сокращение: Peak Envelope Power, Political and Economic Planning, Post Exposure Prophylaxis (antibiotic treatment after exposure to biohazard), Productivity Enhancement Program (USA), Productivity Enhancement Project, productibility, engineering, planning, planar epitaxial passivated (transistor), Paternalistic, Economic, Participative (The three main motivational styles found in organizations and management.), Politically Exposed Person14) Университет: Personal Elective Project, Personalized Education Plan, Pharmacology Education Partnership, Pre Engineering Program, Professional Experience Program, Project Exploration Program, Publications, Education, And Presentations15) Физика: Pauli Exclusion Principle16) Физиология: Positive Expiratory Pressure, Post Exposure Prophylaxis17) Электроника: Parent And Educator Partnership, Providing For Exceptional Potential18) Вычислительная техника: Polymer Electronic Printing, методика оценки программ, Personal Employee Portal (IBM), Personal Exam Prep (MS, ATEC), Python Enhancement Proposal (Python), Packetized Ensemble Protocol (Telebit)19) Биохимия: Primate Equilibrium Platform20) Банковское дело: программа льготной продажи акций служащим компании (personal equity plan)21) Воздухоплавание: Propulsion and Energetics Panel22) Фирменный знак: Precision Engine Parts, Professional Event Photography23) Экология: Precipitation Enhancement Project, phosphorus elimination plant25) Деловая лексика: Profit Enhancement Process, программа продажи акций служащим компании (personal equity plan)26) Глоссарий компании Сахалин Энерджи: Performance Enhancement Plan27) Образование: Parent Educator Partnership, Parents Educating Parents, Parents Educators And Publishers, Personal Education Plan, Personal Enrichment Program, Potentially English Proficient, Primary Enrichment Program, Public Education Partnership, Pupil Esteem Program28) Инвестиции: personal equity plan29) Сетевые технологии: Packet Encoding Protocol, протокол пакетного кодирования30) ЕБРР: private equity plan31) Автоматика: Precision Engineering Program32) Контроль качества: product excellence program33) Сахалин Р: Project Execution Plan34) Расширение файла: Packet Exchange Protocol, Programme Evaluation Procedure35) Эволюция: ПЭП, популярная эволюционная психология, popular evolutionary psychology36) Электротехника: pulse effective power37) Высокочастотная электроника: primary entry point38) Должность: Personal Education Partner, Personal Efficiency Program, Positive Enhanced Performance, Professional Employer Panel39) Чат: People Enjoying People, Pester Every Person40) NYSE. Pepsico, Inc.41) НАСА: Propellant Equilibrium Program42) Клинические исследования: primary endpoint (основная конечная точка) -
72 cycle
2) цикл, круговой процесс ( в термодинамике)•cycles per second — герц, Гц;cycle of operation — 1. рабочий цикл 2. цикл заряд - разряд-
ac cycle
-
access cycle
-
ammonia cycle
-
automatic lubrication cycle
-
automatic probing cycle
-
automatic repeat cycle
-
binary cycle
-
binary-vapor cycle
-
biological cycle
-
braking cycle
-
Brayton cycle
-
brine cycle
-
burning cycle
-
burn-out cycle
-
canned milling cycle
-
Carno cycle
-
catalyst cycle
-
charge/discharge cycle
-
charging cycle
-
clock cycle
-
closed cycle
-
closed fuel cycle
-
CNC cycle
-
coal gasification-combined cycle
-
code generation cycle
-
co-located fuel cycle
-
completely reversed stress cycle
-
component drain cycle
-
composite cycle
-
compression ignition cycle
-
compression refrigeration cycle
-
computer cycle
-
constant-pressure cycle
-
continuous face cycle
-
CPU cycle
-
cross-progeny fuel cycle
-
denatured fuel cycle
-
digging cycle
-
direct steam cycle
-
direct-expansion cycle
-
display cycle
-
diurnal cycle
-
drawdown-refill cycle
-
drifting cycle
-
drive cycle
-
duty cycle
-
energy conversion cycle
-
equilibrium fuel cycle
-
equipressure cycle
-
extended-burnup fuel cycle
-
fatigue cycle
-
fetch cycle
-
filter cycle
-
fixed control cycle
-
fluctuation cycle
-
four-stroke cycle
-
freeze-thaw cycle
-
fuel cycle
-
fuel-breeding cycle
-
fusion fuel cycle
-
gas turbine cycle
-
gas-turbine power cycle
-
generator cycle
-
glacial cycle
-
half cycle
-
haul cycle
-
heat cycle
-
heat power cycle
-
heat reclaim cycle
-
heating cycle
-
helium cycle
-
highway driving cycle
-
hydrogen cycle
-
hydrologic cycle
-
hysteresis cycle
-
ideal adiabatic cycle
-
ideal cycle
-
indirect-fired gas turbine cycle
-
injection refrigeration cycle
-
inspection cycle
-
instruction cycle
-
intermittent cycle
-
interstate driving cycle
-
Joule cycle
-
life cycle
-
limit cycle
-
Linde cycle
-
load-haul-dump cycle
-
loading cycle
-
low-proliferation risk fuel cycle
-
machine cycle
-
machining cycle
-
magnetic cycle
-
mean cycles between failures
-
mechano-chemical cycle
-
memory cycle
-
moisture cycle
-
multipressure cycle
-
neutron cycle
-
nitrogen cycle
-
NTSC four-field cycle
-
nuclear fuel cycle
-
null cycle
-
once-through fuel cycle
-
on-duty cycle
-
on-off use cycle
-
open cycle
-
open fuel cycle
-
operating cycle
-
operation cycle
-
operational cycle
-
out-of-pile fuel cycle
-
PAL eight-field cycle
-
pallet transfer cycle
-
photographic cycle
-
picture cycle
-
Plank cycle
-
postreactor fuel cycle
-
power generation cycle
-
power cycle
-
precoat cycle
-
preprogrammed cycle
-
pressure cycle
-
processing cycle
-
program cycle
-
programming cycle
-
quasi-biennial cycle
-
Rankine cycle
-
redox cycle
-
refrigeration cycle
-
regeneration cycle
-
regrind cycle
-
reheating cycle
-
reheat cycle
-
repeated-stress cycle
-
repetitive dressing cycle
-
retention cycle
-
reversed-stress cycle
-
reversible cycle
-
ringing cycle
-
search cycle
-
SECAM twelve-field cycle
-
service cycle
-
setup cycle
-
shutter cycle
-
single turbo-compressor rotor cycle
-
single-loop steam cycle
-
single-reheat cycle
-
sinking cycle
-
skipped cycle
-
sodium cycle
-
software life cycle
-
specialized machining cycle
-
standard rating cycle
-
steam cycle
-
steam-jet refrigeration cycle
-
steam-power cycle
-
steam-water cycle
-
Stirling cycle
-
storage cycle
-
strain cycle
-
stress cycle
-
suburban driving cycle
-
sunspot cycle
-
symbiotic fuel cycle
-
tailout cycle
-
tap-to-tap cycle
-
test cycle
-
thermal cycle
-
thermal fatigue cycle
-
thermodynamic cycle
-
thorium-based fuel cycle
-
thorium fuel cycle
-
three-loop steam cycle
-
throw-away fuel cycle
-
tidal cycle
-
timing cycle
-
tool inspection cycle
-
total cycle
-
Tripol ammonia cycle
-
two-loop steam cycle
-
two-stroke cycle
-
typical machining cycle
-
uranium cycle
-
urban driving cycle
-
vapor-compression refrigerating cycle
-
vapor-compression refrigeration cycle
-
vital cycle
-
voltage cycle
-
water cycle
-
work cycle
-
xenon poisoning cycle
-
zero-to-compression stress cycle
-
zero-to-tension stress cycle -
73 device
1) устройство2) установка; агрегат3) аппарат4) механизм5) прибор; измерительное устройство7) компонент; элемент8) схема•devices identical in design — конструктивные аналоги;-
alphanumeric display device-
automatic exposure control device-
bubble memory device-
bucket brigade charge-coupled device-
decision-making device-
drilling bit feed device-
electrical device-
exposure control device-
Gunn-effect device-
Hall-effect device-
hard-copy output device-
household electrical device-
humidity detecting device-
hybrid-type device-
Josephson-effect device-
maneuvering propulsion device-
materials-handling device-
multiport device-
night observation device-
noise dampening device-
photoconducting device-
propulsion device-
protection device-
raster-display device-
registering pin device-
reversible film feeding device-
seed-feeding device-
supply reel braking device-
three-axis device -
74 hand
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75 brake
тормоз; тормозное устройство; с.х. тяжёлая борона; II тормозить; притормаживать; разбивать комья (бороной); месить; мять- brake actuating piston - brake anchor plate - brake anchorage - brake application time - brake band clevis - brake band lining - brake bell crank - brake bleed nipple spanner - brake bleeder tank - brake bleeder tube - brake cable - brake caliper - brake caliper lever - brake cam - brake camshaft - brake camshaft lever - brake chamber - brake chatter - brake cheek - brake clevis - brake clip - brake compressor - brake conduit - brake cone - brake control - brake controller - brake controls - brake coupling - brake cross lever - brake cylinder - brake cylinder lever - brake cylinder piston - brake cylinder piston cup - brake cylinder pressure - brake cylinder release valve - brake diagram - brake disk - brake disk pack - brake drag - brake drum - brake drum anvil - brake drum dust cover - brake drum fin - brake drum lathe - brake-drum liner - brake dynamometer - brake equalizer - brake expander - brake fade - brake fluid - brake fluid header tank - brake fluid reservoir - brake fluid warning light - brake force - brake force limiter - brake fuel consumption - brake gear - brake governor - brake hand lever - brake handle - brake hard - brake head - brake hop - brake hood - brake horsepower - brake horsepower efficiency - brake horsepower-hour - brake hose - brake hose clip - brake housing - brake hub - brake hydraulic valve - brake intermediate shaft - brake latch - brake latch rod - brake latch spoon - brake latch spring - brake lever - brake lever pawl - brake lever quadrant - brake lever sector - brake lever segment - brake lights - brake line - brake lining - brake linkage - brake load - brake lug - brake master cylinder - brake mean effective pressure - brake motor - brake operating cam - brake operating lever - brake operating spindle - brake pad - brake pawl - brake pedal - brake pedal arm - brake pedal shaft - brake pipe - brake piston - brake power - brake pressure - brake pull-rod - brake pulley - brake push rod - brake ratchet - brake release - brake release spring - brake reliner - brake reservoir - brake resistance - brake rigging - brake ring - brake rod - brake rod yoke - brake scotch - brake shaft - brake shoe - brake shoe adjusting cam - brake shoe anchor bolt - brake shoe carrier - brake shoe expander - brake shoe facing - brake shoe fulcrum pin - brake shoe grinder - brake shoe hinge pin - brake shoe lining - brake shoe return spring - brake slack - brake specific fuel consumption - brake spring - brake spring pliers - brake squeak - brake support - brake surface - brake test - brake tester - brake thermal efficiency - brake thrust ring - brake thrust screw - brake toggle - brake torque - brake tube flaring tool set - brake up - brake value - brake valve - brake with two leading shoes - release the brake - air-brake failure - air-brake hose - air-over-hydraulic brake - baking brake plate - cable-operated brake - cable-operated hand brake - cam brake - cam-actuated brake - cam-operated brake - Carpenter brake - centrifugal brake - chain brake - cheek brake - clasp brake - clip brake - clutch brake - coaster brake - combined compressed-air and hydraulic brake - compressed-air brake - cone brake - contracting band brake - crane brake - dead-weight brake - differential brake - differential steering brake - disc brake - double-block brake - drum brake - duo-servo brake - dynamometer brake - eddy-current brake - effective brake - electric brake - electromagnetic brake - electromagnetic brake with clamping jaws - electropneumatic brake - emergency brake - emergency contracting brake - engine brake - exhaust brake - expanding brake - expanding band brake - expanding inside brake - expanding wedge brake - expansion brake - external brake - external block brake - external cheek brake - external contracting brake - externally acting brake - fan brake - fluid brake - foot brake - four-wheel brakes - friction brake - front-wheel brake - grip brake - gripper brake - half servo brake - hand brake - hand lever brake - hoist brake - hoisting gear brake - hub brake - hydraulic brake - hydraulic brake with vacuum power - hydraulic foot brake - inboard brake - inner brake - inside brake - internal brake - internal block brake - internal-expanding brake - internal wheel brake - internally acting brake - key-operated brake - knee brake - Kunze-Knorr brake - lever brake - lift brake - link brake - liquid brake - load-pressure brake - load reaction brake - lowering brake - magnetic brake - Maley brake - master clutch brake - mechanical brake - multiple-disc brake - needle brake - oil brake - outer brake - outer band brake - outside-mounted brake - overrunning trailer brake - parking brake - pedal brake - plate brake - pneumatic brake - power brake - progressive brake - Prony brake - quick-action air brake - regenerative brake - rim brake - rope brake - safety brake - screw brake - segmented rotor brake - self-acting brake - self-actuating brake - self-energizing brake - service brake - servo brake - servo and power brake - servo-assisted brake - shoe brake - single-block brake - skate brake - slipper brake - solenoid brake - speed brake - steering brake - steering-clutch brake - stopping brake - strap brake - thrust brake - toggle brake - track brake - transmission brake - triple servo brake - tyre brake - unbalanced brake - vacuum brake - vacuum power brake - V-block brake - water brake - water-cooled brake - wedge brake - wedge-operated brake - weight brake - Westinghouse brake - wheel brake - wing brake -
76 Ewart, Peter
SUBJECT AREA: Textiles[br]b. 14 May 1767 Traquair, near Peebles, Scotlandd. September 1842 London, England[br]Scottish pioneer in the mechanization of the textile industry.[br]Peter Ewart, the youngest of six sons, was born at Traquair manse, where his father was a clergyman in the Church of Scotland. He was educated at the Free School, Dumfries, and in 1782 spent a year at Edinburgh University. He followed this with an apprenticeship under John Rennie at Musselburgh before moving south in 1785 to help Rennie erect the Albion corn mill in London. This brought him into contact with Boulton \& Watt, and in 1788 he went to Birmingham to erect a waterwheel and other machinery in the Soho Manufactory. In 1789 he was sent to Manchester to install a steam engine for Peter Drinkwater and thus his long connection with the city began. In 1790 Ewart took up residence in Manchester as Boulton \& Watt's representative. Amongst other engines, he installed one for Samuel Oldknow at Stockport. In 1792 he became a partner with Oldknow in his cotton-spinning business, but because of financial difficulties he moved back to Birmingham in 1795 to help erect the machines in the new Soho Foundry. He was soon back in Manchester in partnership with Samuel Greg at Quarry Bank Mill, Styal, where he was responsible for developing the water power, installing a steam engine, and being concerned with the spinning machinery and, later, gas lighting at Greg's other mills.In 1798, Ewart devised an automatic expansion-gear for steam engines, but steam pressures at the time were too low for such a device to be effective. His grasp of the theory of steam power is shown by his paper to the Manchester Literary and Philosophical Society in 1808, On the Measure of Moving Force. In 1813 he patented a power loom to be worked by the pressure of steam or compressed air. In 1824 Charles Babbage consulted him about automatic looms. His interest in textiles continued until at least 1833, when he obtained a patent for a self-acting spinning mule, which was, however, outclassed by the more successful one invented by Richard Roberts. Ewart gave much help and advice to others. The development of the machine tools at Boulton \& Watt's Soho Foundry has been mentioned already. He also helped James Watt with his machine for copying sculptures. While he continued to run his own textile mill, Ewart was also in partnership with Charles Macintosh, the pioneer of rubber-coated cloth. He was involved with William Fairbairn concerning steam engines for the boats that Fairbairn was building in Manchester, and it was through Ewart that Eaton Hodgkinson was introduced to Fairbairn and so made the tests and calculations for the tubes for the Britannia Railway Bridge across the Menai Straits. Ewart was involved with the launching of the Liverpool \& Manchester Railway as he was a director of the Manchester Chamber of Commerce at the time.In 1835 he uprooted himself from Manchester and became the first Chief Engineer for the Royal Navy, assuming responsibility for the steamboats, which by 1837 numbered 227 in service. He set up repair facilities and planned workshops for overhauling engines at Woolwich Dockyard, the first establishment of its type. It was here that he was killed in an accident when a chain broke while he was supervising the lifting of a large boiler. Engineering was Ewart's life, and it is possible to give only a brief account of his varied interests and connections here.[br]Further ReadingObituary, 1843, "Institution of Civil Engineers", Annual General Meeting, January. Obituary, 1843, Manchester Literary and Philosophical Society Memoirs (NS) 7. R.L.Hills, 1987–8, "Peter Ewart, 1767–1843", Manchester Literary and PhilosophicalSociety Memoirs 127.M.B.Rose, 1986, The Gregs of Quarry Bank Mill The Rise and Decline of a Family Firm, 1750–1914, Cambridge (covers E wart's involvement with Samuel Greg).R.L.Hills, 1970, Power in the Industrial Revolution, Manchester; R.L.Hills, 1989, Powerfrom Steam, Cambridge (both look at Ewart's involvement with textiles and steam engines).RLH -
77 BES
- уравновешенный раствор электролита
- серверная служба
- план развития предпринимательства
- Объединенная энергосистема
- биоэнергетическая установка
биоэнергетическая установка
БЭУ
Комплекс оборудования, предназначенный для получения биогаза и преобразования его энергии в другие виды энергии.
[ ГОСТ Р 52808-2007]Тематики
Обобщающие термины
Синонимы
EN
Объединенная энергосистема
ОЭС
—
[А.С.Гольдберг. Англо-русский энергетический словарь. 2006 г.]Тематики
Синонимы
EN
объединённая энергосистема
ОЭС
—
[Я.Н.Лугинский, М.С.Фези-Жилинская, Ю.С.Кабиров. Англо-русский словарь по электротехнике и электроэнергетике, Москва, 1999]Тематики
- электротехника, основные понятия
Синонимы
EN
план развития предпринимательства
Принятый британским правительством план предоставления налоговых льгот с целью поощрения инвестиций в компании, не включенные в биржевой листинг, но желающие расширить свою деятельность. Налоговая льгота доступна только резидентам Великобритании, которые подписались на акции таких компаний от своего собственного имени и не имеют с данной компанией никаких связей. Инвестиции в ценные бумаги такой компании должны представлять собой новый рисковый капитал; все налоговые льготы отменяются, если инвестор продаст свои акции до истечения 5-летнего периода с момента их приобретения либо получит от компании какие-либо льготы, выгоды и т.д. Одному человеку разрешалось максимально вычитать из своего налогооблагаемого дохода суммы до 40 000 ф. ст., а максимальный капитал, который могла привлечь таким образом компания, составлял 500 000 ф. ст. (для компаний, действующих в сфере фрахта судов, и компаний, занимающихся сдачей в аренду домов, максимальный капитал был установлен в размере 5 млн ф. ст.). План прекратил действовать в 1993 г.
[ http://www.vocable.ru/dictionary/533/symbol/97]Тематики
EN
серверная служба
(МСЭ-Т Н.235.0, МСЭ-Т Н.235).
[ http://www.iks-media.ru/glossary/index.html?glossid=2400324]Тематики
- электросвязь, основные понятия
EN
уравновешенный раствор электролита
—
[Я.Н.Лугинский, М.С.Фези-Жилинская, Ю.С.Кабиров. Англо-русский словарь по электротехнике и электроэнергетике, Москва, 1999 г.]Тематики
- электротехника, основные понятия
EN
Англо-русский словарь нормативно-технической терминологии > BES
-
78 dam
- dam
- nплотина; дамба
- A-frame dam
- arch dam
- arch-gravity dam
- bag dam
- bank protection dam
- basket dam
- bear-trap dam
- blind dam
- boulder dam
- box dam
- building pit dam
- buttress dam
- cantilever deck dam
- cantilevered-type steel dam
- cavity dam
- cellular dam
- closure dam
- coast-protection dam
- concrete dam
- connecting dam
- counterfort dam
- crib dam
- crib and deck dam
- cupola dam
- debris dam
- detention dam
- diamond-head buttress dam
- dike dam
- diversion dam
- dome dam
- drop-inlet dam
- dry masonry dam
- earth-and-rockfill dam
- earth-fill dam
- earth dam
- earth-fill timber dam
- expansion dam
- faggot dam
- fence dam
- fill dam
- finger joint expansion dam
- finger dam
- fixed dam
- flat-slab buttress dam
- floating dam
- flood-control dam
- floodwater retarding dam
- framed dam
- gabion dam
- gravity dam
- gravity-arch dam
- groundwater dam
- hanging dam
- high-head dam
- hollow dam
- homogeneous earth dam
- hydraulic fill dam
- hydroelectric dam
- ice dam
- impounding dam
- inflatable dam
- intake dam
- leaf dam
- loose rock dam
- low-head dam
- masonry dam
- massive head buttress dam
- measuring dam
- mud dam
- multiarch dam
- multiple-dome dam
- nonoverflow dam
- ogee dam
- overfall dam
- overflow dam
- penstock dam
- plate expansion dam
- power dam
- retaining dam
- ring dam
- rockfill dam
- roller dam
- sausage dam
- sediment control dam
- self-acting movable flood dam
- storage dam
- subsidiary dam
- tailings dam
- T-headed buttress dam
- thick arch dam
- thin core earth dam
- timber dam
- weir dam
- wicket dam
- wing dam
- wire dam
- zoned earth dam
Англо-русский строительный словарь. — М.: Русский Язык. С.Н.Корчемкина, С.К.Кашкина, С.В.Курбатова. 1995.
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79 clutch
•-
air-actuated friction clutch
-
air-assisted hydraulic operated clutch
-
air-conditioning clutch
-
automate clutch
-
automatic control clutch
-
bevel clutch
-
brake actuating clutch
-
cable control clutch
-
cable-operated clutch
-
cam clutch
-
centrifugal clutch
-
cold weather disconnect clutch
-
cone clutch
-
constantly engaged clutch
-
countershaft transmission clutch
-
cutoff clutch
-
diaphragm clutch
-
differential lock clutch
-
direct drive clutch
-
direction clutch
-
disengaging clutch
-
disk clutch
-
dog clutch
-
double-cone clutch
-
double-disk clutch
-
dry clutch
-
dual impeller clutch
-
elastic clutch
-
electromagnetic clutch
-
electromagnetic friction clutch
-
expansion clutch
-
external connection clutch
-
fan drive clutch
-
fluid actuated clutch
-
flywheel clutch
-
forward clutch
-
freewheel clutch
-
friction clutch
-
gear clutch
-
gripping clutch
-
high-speed clutch
-
hydraulic clutch
-
hydraulic-operated clutch
-
impeller clutch
-
input clutch
-
internal connection clutch
-
internal gear clutch
-
jaw clutch
-
jaw-type overload-release clutch
-
large perimeter-mounted clutch
-
lever-actuated friction clutch
-
lock-up clutch
-
manual shirt transmission clutch
-
marine transmission clutch
-
multicone friction clutch
-
multidisk clutch
-
multiplate steering clutch
-
multiple disk clutch
-
nonreversible clutch
-
oil bath clutch
-
oil-actuated friction clutch
-
oil-type clutch
-
one-way clutch
-
one-way rotation clutch
-
overload release clutch
-
overload shearing clutch
-
overrunning clutch
-
overtime clutch
-
pinion clutch
-
piston actuated clutch
-
planetary clutch
-
plate clutch
-
pneumatic clutch
-
power clutch
-
power takeoff clutch
-
pressure circulated oil clutch
-
radiator fan clutch
-
release clutch
-
retaining clutch
-
reverse clutch
-
ring gear clutch
-
rotating clutch
-
safety clutch
-
safety friction clutch
-
safety notch clutch
-
self-actuated clutch
-
shearing clutch
-
single-disk clutch
-
sleeve-type clutch
-
slicing dog clutch
-
slipping clutch
-
slip clutch
-
solenoid clutch
-
speed clutch
-
split power clutch
-
starting clutch
-
starting engine clutch
-
steering clutch
-
toggle clutch
-
tooth clutch
-
torque converter clutch
-
torque converter lockup clutch
-
transmission clutch
-
transmission power shift clutch
-
twin disk clutch
-
vacuum clutch
-
wet-type clutch
-
winch clutch
-
winch directional clutch -
80 ratio
коэффициент распределения
– affinity ratio
– anharmonic ratio
– aperture ratio
– area-distortion ratio
– area-moment ratio
– aspect ratio
– atomic ratio
– barter-price ratio
– blade-area ratio
– breeding ratio
– brightness ratio
– compression ratio
– contraction ratio
– contrast ratio
– conversion ratio
– correlation ratio
– count-down ratio
– cross ratio
– crystal ratio
– Damkohler's ratio
– daylight ratio
– deformation ratio
– dilution ratio
– double ratio
– downtime ratio
– draft ratio
– drift ratio
– excess air ratio
– expansion ratio
– extension ratio
– failure ratio
– fatigue ratio
– fineness ratio
– fission ratio
– frequency ratio
– front-to-back ratio
– fuel-air ratio
– fuel-weight ratio
– gear ratio
– golden ratio
– gyromagnetic ratio
– image ratio
– in the ratio
– incremental ratio
– inverse ratio
– inversion ratio
– isotopic ratio
– lay ratio
– lift-drag ratio
– likelihood ratio
– magnification ratio
– mesh ratio
– mixture ratio
– noise ratio
– permeability ratio
– picture ratio
– pitch ratio
– Poisson's ratio
– power-to-displacement ratio
– power-to-size ratio
– power-to-volume ratio
– power-to-weight ratio
– propagation ratio
– pulse ratio
– pumping ratio
– ratio detector
– ratio discriminator
– ratio of exaggeration
– ratio of reduction
– ratio of slope
– ratio scale
– read-around ratio
– reciprocal ratio
– reduction ratio
– reflux ratio
– reset ratio
– resetting ratio
– resolution ratio
– ripple ratio
– scaling ratio
– selection ratio
– selector ratio
– shape-distortion ratio
– shrinkage ratio
– signal-to-noise ratio
– similarity ratio
– Strehl ratio
– Student s ratio
– suppression ratio
– thickness ratio
– thrust-to-weight ratio
– transformation ratio
– turnover ratio
– turns ratio
– variance ratio
– velocity ratio
– void ratio
– void-solid ratio
– voids ratio
– volume ratio
– water-cement ratio
common-mode rejection ratio — < radio> коэффициент ослабления синфазных сигналов, коэффициент попадания синфазной помехи, коэффициент подавления синфазной помехи
depth/width weld ratio — <tech.> кинжальность, степень кинжальности
excess oxidant ratio — <engin.> коэффициент избытка окислителя
fineness ratio of fuselage — относительное удлинение фюзеляжа
high thrust-to-weight ratio — <engin.> избыток тяги
image interference ratio — < radio> коэффициент зеркальных помех
image-frequency rejection ratio — < radio> селективность по зеркальному каналу
pulse scaling ratio — < radio> коэффициент понижения частоты
reciprocal transfer ratio — <tech.> коэффициент преобразования двойной
supercharging pressure ratio — <engin.> степень наддува, степень форсировки наддувом
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