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1 cylinder-boiler
ketel silinder -
2 cylinder boiler
nHYDRAUL caldera cilíndrica f -
3 cylinder
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4 cylinder end
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5 cylinder capacity
1. рабочий объем цилиндра2. объем цилиндраEnglish-Russian big polytechnic dictionary > cylinder capacity
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6 hot water cylinder
hot wa·ter ˈcyl·in·der -
7 hot water cylinder
hot wa·ter 'cyl·in·der n -
8 Warmwasserspeicher
Warmwasserspeicher m hot-water storage tank, hot-water cylinder, boiler, thermal storage water heater, (sl) hot wellDeutsch-Englisch Fachwörterbuch Architektur und Bauwesen > Warmwasserspeicher
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9 wall
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10 барабан
basket пищ., barrel, ( кипоразбивателя) beater, ( моталки) block метал., bowl, cylinder, ( блока вращающихся головок) recording drum, drum, (напр. якорного шпиля) head, reel, roll, wheel* * *бараба́н м.1. маш. drum, barrel, cylinder2. архит. dome drumбесшо́вный бараба́н — seamless drumволочи́льный бараба́н — draw(ing) blockволочи́льный, веду́щий бараба́н — intermediate blockволочи́льный, отде́лочный бараба́н — finishing blockволочи́льный, приё́мный бараба́н — take-up blockволочи́льный, промежу́точный бараба́н — intermediate blockволочи́льный, тя́нущий бараба́н — intermediate blockволочи́льный, чистово́й бараба́н — finishing blockворсова́льный бараба́н текст. — pile cylinderвулканизацио́нный бараба́н — curing drumгалто́вочный бараба́н — tumbling barrel, tumblerочища́ть в галто́вочном бараба́не — tumbleгра́бельный бараба́н с.-х. — rake drum, rake cylinderгравиесортиро́вочный бараба́н — gravel-screening trommelгребнево́й бараба́н с.-х. — comber cylinderгрузово́й бараба́н — load(-lifting) drumгрузоподъё́мный бараба́н — load(-lifting) drumдели́тельный бараба́н — graduated [index] barrelдробестру́йный бараба́н — short-blasting barrelдроби́льный бараба́н — crushing drumдуби́льный бараба́н кож. — tan(ning) drum, (tanning) tumblerжело́бчатый бараба́н — grooved [fluted] drumжирова́льный бараба́н кож. — oiling drumзагру́зочный бараба́н — load barrelзернообди́рочный бараба́н — scourer cylinderзо́льный бараба́н кож. — liming drumзубча́тый бараба́н кфт. — sprocket (roller)зубча́тый, заде́рживающий бараба́н кфт. — holdback sprocketзубча́тый, подаю́щий бараба́н кфт. — feed sprocketзубча́тый, скачко́вый бараба́н кфт. — intermittent sprocketзубча́тый, транспорти́рующий бараба́н кфт. — drive sprocketизмельча́ющий бараба́н с.-х. — shredding drumкана́тный бараба́н — rope drumклеема́зальный бараба́н полигр. — pasting cylinderко́довый бараба́н свз. — coding drumбараба́н конве́йера, отклоня́ющий — snub pulleyбараба́н конве́йера, хвостово́й — tail pulleyбараба́н котла́ — boiler drum; мор. boiler barrelкраси́льный бараба́н — dyeing [colouring] drumкупа́жный бараба́н пищ. — drum mixer, blenderмагни́тный бараба́н — magnetic drumмолоти́льный бараба́н — thrashing drumмолоти́льный, би́льный бараба́н — beater drumмолоти́льный, бичево́й бараба́н — beater drumмолоти́льный, зубча́тый бараба́н — peg-tooth drumмолоти́льный, тё́рочный бараба́н — rubbing drumмолоти́льный, штифтово́й бараба́н — peg-tooth drumбараба́н мота́лки ( в волочильном стане) — reel blockбараба́н мота́лки, нама́тывающий ( в волочильном стане) — coiling blockнави́вочный бараба́н ( в подъёмно-транспортных машинах) — winding drumнамо́точный бараба́н1. winding [wind-up] drum2. ( патентировочной печи) take-up frameнатяжно́й бараба́н прок. — tension reelножево́й бараба́н с.-х. — cutting drumобмо́точный бараба́н ( в подъёмно-транспортных машинах) — winding drumобо́ечный бараба́н с.-х. — scouring cageобрыва́ющий бараба́н с.-х. — picker drum, picker cylinderоко́рочный бараба́н лес. — barker, barking drumотсчё́тный бараба́н геод., топ. — measuring drumочё́сывающий бараба́н с.-х. — stripping cylinder, rotary-comb dresserочистно́й бараба́н литейн. — fettling barrel, fettling drumпескостру́йный бараба́н — sandblast barrelпи́льный бараба́н с.-х. — saw cylinderподаю́щий бараба́н с.-х. — feed roll(er)подбо́рочный бараба́н с.-х. — gathering cylinderбараба́н подъё́мной маши́ны горн. — hoist(ing) drumбараба́н подъё́мной маши́ны, кони́ческий горн. — conical hoist(ing) drumбараба́н подъё́мной маши́ны, плоскоремё́нный горн. — (flat-rope) reelбараба́н подъё́мной маши́ны, цилиндри́ческий горн. — cylindrical hoist(ing) drumбараба́н подъё́мной маши́ны, цилиндрокони́ческий горн. — cylindro-conical hoist(ing) drumполирова́льный бараба́н — burnishing barrelполудо́рновый бараба́н рез. — shoulder drumприё́мный бараба́н текст. — taker-in, licker-inпромывно́й бараба́н — washing drumразвё́ртывающий бараба́н ( фототелеграфа) — scanning drumразгру́зочный бараба́н тепл. — balance [dummy] pistonразра́внивающий бараба́н текст. — evener cylinderразъё́мный бараба́н — split drumремё́нный бараба́н — belt drumрешё́тчатый бараба́н — grate drumбараба́н рулонодержа́теля ( для стальной полосы) — coil-holder headсамозаруба́ющийся бараба́н горн. — self-sumping cutter drumсбо́рочный бараба́н рез. — assembly drumбараба́н с во́гнутой пове́рхностью — concave drumсепарацио́нный бараба́н тепл. — steam-and-water separating drumсилосоре́зный бараба́н — silage chopping drumсмеси́тельный бараба́н — mixing drumснова́льный бараба́н текст. — warping drumсолодорасти́льный бараба́н — germinating drumсортирова́льный бараба́н — sorting drum, grading cylinderстерилизацио́нный бараба́н — steam sterilizerсуши́льный бараба́н — drying drumсъё́мный бараба́н1. с.-х. doffing drum2. текст. dofferтрепа́льный бараба́н — scutching drum, scutching cylinderту́ковый бараба́н — fertilizer(-spreading) drumтя́говый бараба́н горн. — hauling [traction] drumувлажни́тельный бараба́н ( для табака) — humidifying [moistening] drumфре́зерный бараба́н1. ( фрезы культиватора) rotor2. ( навозоразбрасывателя) shredding drumбараба́н хлопкоубо́рочной маши́ны — cotton-picker drumце́вочный бараба́н — spool drumцепно́й бараба́н — chain drumцепово́й бараба́н с.-х. — flail rotorцифрово́й бараба́н вчт. — digital drumбараба́н часо́в, дополни́тельный — fuseeчешуеочисти́тельный бараба́н с.-х. — rotary drum scalerшварто́вный бараба́н мор. — warping drumшлифова́льный бараба́н — grinding drumбараба́н шпи́ля мор. — capstan drum -
11 барабан
1. м. маш. drum, barrel, cylinder2. м. архит. dome drumбарабан котла — boiler drum; boiler barrel
Синонимический ряд:тамбур (сущ.) тамбур -
12 Seguin, Marc
[br]b. 20 April 1786 Annonay, Ardèche, Franced. 24 February 1875 Annonay, Ardèche, France[br]French engineer, inventor of multi-tubular firetube boiler.[br]Seguin trained under Joseph Montgolfier, one of the inventors of the hot-air balloon, and became a pioneer of suspension bridges. In 1825 he was involved in an attempt to introduce steam navigation to the River Rhône using a tug fitted with a winding drum to wind itself upstream along a cable attached to a point on the bank, with a separate boat to transfer the cable from point to point. The attempt proved unsuccessful and was short-lived, but in 1825 Seguin had decided also to seek a government concession for a railway from Saint-Etienne to Lyons as a feeder of traffic to the river. He inspected the Stockton \& Darlington Railway and met George Stephenson; the concession was granted in 1826 to Seguin Frères \& Ed. Biot and two steam locomotives were built to their order by Robert Stephenson \& Co. The locomotives were shipped to France in the spring of 1828 for evaluation prior to construction of others there; each had two vertical cylinders, one each side between front and rear wheels, and a boiler with a single large-diameter furnace tube, with a watertube grate. Meanwhile, in 1827 Seguin, who was still attempting to produce a steamboat powerful enough to navigate the fast-flowing Rhône, had conceived the idea of increasing the heating surface of a boiler by causing the hot gases from combustion to pass through a series of tubes immersed in the water. He was soon considering application of this type of boiler to a locomotive. He applied for a patent for a multi-tubular boiler on 12 December 1827 and carried out numerous experiments with various means of producing a forced draught to overcome the perceived obstruction caused by the small tubes. By May 1829 the steam-navigation venture had collapsed, but Seguin had a locomotive under construction in the workshops of the Lyons-Sain t- Etienne Railway: he retained the cylinder layout of its Stephenson locomotives, but incorporated a boiler of his own design. The fire was beneath the barrel, surrounded by a water-jacket: a single large flue ran towards the front of the boiler, whence hot gases returned via many small tubes through the boiler barrel to a chimney above the firedoor. Draught was provided by axle-driven fans on the tender.Seguin was not aware of the contemporary construction of Rocket, with a multi-tubular boiler, by Robert Stephenson; Rocket had its first trial run on 5 September 1829, but the precise date on which Seguin's locomotive first ran appears to be unknown, although by 20 October many experiments had been carried out upon it. Seguin's concept of a multi-tubular locomotive boiler therefore considerably antedated that of Henry Booth, and his first locomotive was completed about the same date as Rocket. It was from Rocket's boiler, however, rather than from that of Seguin's locomotive, that the conventional locomotive boiler was descended.[br]BibliographyFebruary 1828, French patent no. 3,744 (multi-tubular boiler).1839, De l'Influence des chemins de fer et de l'art de les tracer et de les construire, Paris.Further ReadingF.Achard and L.Seguin, 1928, "Marc Seguin and the invention of the tubular boiler", Transactions of the Newcomen Society 7 (traces the chronology of Seguin's boilers).——1928, "British railways of 1825 as seen by Marc Seguin", Transactions of the Newcomen Society 7.J.B.Snell, 1964, Early Railways, London: Weidenfeld \& Nicolson.J.-M.Combe and B.Escudié, 1991, Vapeurs sur le Rhône, Lyons: Presses Universitaires de Lyon.PJGR -
13 Edwards, Humphrey
SUBJECT AREA: Steam and internal combustion engines[br]fl. c.1808–25 London (?), Englandd. after 1825 France (?)[br]English co-developer of Woolf s compound steam engine.[br]When Arthur Woolf left the Griffin Brewery, London, in October 1808, he formed a partnership with Humphrey Edwards, described as a millwright at Mill Street, Lambeth, where they started an engine works to build Woolf's type of compound engine. A number of small engines were constructed and other ordinary engines modified with the addition of a high-pressure cylinder. Improvements were made in each succeeding engine, and by 1811 a standard form had been evolved. During this experimental period, engines were made with cylinders side by side as well as the more usual layout with one behind the other. The valve gear and other details were also improved. Steam pressure may have been around 40 psi (2.8 kg/cm2). In an advertisement of February 1811, the partners claimed that their engines had been brought to such a state of perfection that they consumed only half the quantity of coal required for engines on the plan of Messrs Boulton \& Watt. Woolf visited Cornwall, where he realized that more potential for his engines lay there than in London; in May 1811 the partnership was dissolved, with Woolf returning to his home county. Edwards struggled on alone in London for a while, but when he saw a more promising future for the engine in France he moved to Paris. On 25 May 1815 he obtained a French patent, a Brevet d'importation, for ten years. A report in 1817 shows that during the previous two years he had imported into France fifteen engines of different sizes which were at work in eight places in various parts of the country. He licensed a mining company in the north of France to make twenty-five engines for winding coal. In France there was always much more interest in rotative engines than pumping ones. Edwards may have formed a partnership with Goupil \& Cie, Dampierre, to build engines, but this is uncertain. He became a member of the firm Scipion, Perrier, Edwards \& Chappert, which took over the Chaillot Foundry of the Perrier Frères in Paris, and it seems that Edwards continued to build steam engines there for the rest of his life. In 1824 it was claimed that he had made about 100 engines in England and another 200 in France, but this is probably an exaggeration.The Woolf engine acquired its popularity in France because its compound design was more economical than the single-cylinder type. To enable it to be operated safely, Edwards first modified Woolf s cast-iron boiler in 1815 by placing two small drums over the fire, and then in 1825 replaced the cast iron with wrought iron. The modified boiler was eventually brought back to England in the 1850s as the "French" or "elephant" boiler.[br]Further ReadingMost details about Edwards are to be found in the biographies of his partner, Arthur Woolf. For example, see T.R.Harris, 1966, Arthur Woolf, 1766–1837, The Cornish Engineer, Truro: D.Bradford Barton; Rhys Jenkins, 1932–3, "A Cornish Engineer, Arthur Woolf, 1766–1837", Transactions of the Newcomen Society 13. These use information from the originally unpublished part of J.Farey, 1971, A Treatise on the Steam Engine, Vol. II, Newton Abbot: David \& Charles.RLH -
14 насос
* * *насо́с м.
pumpнасо́с вса́сывает, напр. во́здух, во́ду — the pump draws in, e. g., air, waterзалива́ть насо́с — prime a pumpнасо́с отса́сывает, напр. во́здух, во́ду — the pump exhausts, e. g., air, waterподава́ть насо́сом — pump (up)насо́с подаё́т, напр. во́здух, во́ду — the pump discharges, e. g., air, waterнасо́с создаё́т давле́ние или ва́куум в … мм рт. ст. — a pump develops a pressure or vacuum of … mm Hgавари́йный насо́с — emergency pumpаксиа́льно-кулачко́вый насо́с — swash plate operated pumpаксиа́льно-поршнево́й насо́с — axial-plunger pumpаксиа́льно-поршнево́й, ротацио́нный насо́с — axial-plunger rotary pumpба́герный насо́с — dredging pumpбалла́стный насо́с — ballast pumpбензи́новый насо́с — fuel pumpбурово́й насо́с геол. — slush [mud] pumpбу́стерный насо́с — booster pumpва́куумный насо́с — vacuum pumpва́куумный, адсорбцио́нный насо́с — adsorption (vacuum) pumpва́куумный, ма́сляный насо́с — oil vacuum pumpва́куумный, парома́сляный насо́с — diffusion pumpва́куумный, рту́тный насо́с — mercury vacuum pumpва́куумный, стру́йный насо́с — ejectorва́льный насо́с — power pumpвинтово́й насо́с — screw pumpвихрево́й насо́с — peripheral [regenerative] pumpводокольцево́й насо́с — liquid-packed ring [water-packed ring(-type), liquidpiston] pumpводостру́йный насо́с — water-jet pumpводяно́й насо́с — water pumpвозвра́тно-поступа́тельный насо́с — reciprocating [piston] pumpвозду́шный насо́с — air pumpвпры́скивающий насо́с — injection pumpвраща́тельный насо́с — rotary pumpвстро́енный насо́с — integral pumpвысокова́куумный насо́с — high-vacuum pumpнасо́с высо́кого давле́ния насо́с — high-pressure pumpвысоконапо́рный насо́с — high-lift pumpга́зовый насо́с — gas pump; ( коксовой батареи) exhausterгермети́чный насо́с — glandless pumpге́ттерно-ио́нный насо́с — getter-ion pumpглуби́нный насо́с нефт. — well pumpгрузово́й насо́с мор. — cargo pumpгрунтово́й насо́с ( землесос) — suction dredgeнасо́с двукра́тного де́йствия — double-acting pumpнасо́с двусторо́ннего вхо́да — double-entry pumpнасо́с двусторо́ннего де́йствия — double-acting pumpдвухступе́нчатый насо́с — two-stage pumpдвухцили́ндровый насо́с — duplex [two-cylinder] pumpдиагона́льный насо́с — mixed-flow pumpдиафра́гменный насо́с — diaphragm(-type) pumpдинами́ческий насо́с — rotodynamic pumpди́сковый насо́с — disk pumpдиффере́нтный насо́с мор. — trim(ming) pumpдифференциа́льный насо́с — differential piston pumpдиффузио́нный насо́с — diffusion pumpнасо́с для впры́ска то́плива — fuel injection pumpнасо́с для холоди́льного аге́нта — refrigerant pumpдозиро́вочный насо́с — proportioning pumpдрена́жный насо́с — drain(age) pumpжо́мовый насо́с — beet pulp pumpзаливно́й насо́с — priming pumpзачистно́й насо́с ( в танкере) — stripping pumpзубча́тый насо́с — gear (wheel) pumpиндукцио́нный насо́с — induction pumpио́нно-сорбцио́нный насо́с — getter ion pumpио́нный насо́с — ion(ic) pumpколовра́тный насо́с — lobe [lobar] rotary pumpконденса́тный насо́с — condensate [hot-well] pumpконсо́льный насо́с — cradle-mounted pumpко́рпусно-секцио́нный насо́с — barrel-type pumpкреново́й насо́с мор. — heeling pumpкривоши́пный насо́с — crank pumpкриоге́нный насо́с — cryogenic pumpкриосорбцио́нный насо́с — cryogetter pumpкры́льчатый насо́с — semi-rotary pumpло́пастный насо́с — impeller pumpмагнитогидродинами́ческий насо́с — MHD-pumpма́сляный насо́с — oil pumpмашинопита́тельный насо́с мор. — boiler-feed plunger-type steam-power pumpмембра́нный насо́с — membrane pumpмногоступе́нчатый насо́с — multistage pumpмокровозду́шный насо́с — wet-and-dry pumpмолекуля́рный насо́с — molecular pumpнасо́с непосре́дственного впры́ска то́плива — direct-injection pumpнасо́с ни́зкого давле́ния — low-pressure pumpобъё́мный насо́с — (positive) displacement pompнасо́с одина́рного де́йствия — single-acting pumpодновинтово́й насо́с — helical rotor pumpнасо́с однокра́тного де́йствия — single-acting pumpнасо́с односторо́ннего де́йствия — single-acting pumpодноступе́нчатый насо́с — single-stage pumpодноцили́ндровый насо́с — simplex [single-cylinder] pumpосево́й насо́с — axial-flow pumpотка́чивающий насо́с ( в вакуумной системе) — exhaust pumpпарово́й насо́с — steam pumpпарома́сляный насо́с — oil-vapour pumpперека́чивающий насо́с — transfer pumpпита́тельный предвключё́нный насо́с — primary boiler-feed pumpпита́ющий насо́с — feed pumpпласти́нчатый насо́с — guided-vane [sliding-vane] pumpплу́нжерный насо́с — plunger(-type) pumpповоро́тно-ло́пастный насо́с — axial flow pump with adjustable pitch bladesпогружно́й насо́с — immersion [submersible] pumpподаю́щий насо́с ав. — delivery pumpподка́чивающий насо́с ав. — booster pumpподпи́точный насо́с тепл. — make-up pumpпожа́рный насо́с — fire (service) pumpпоршнево́й насо́с — piston pumpприводно́й насо́с — power pumpприводно́й парово́й насо́с — steam pumpнасо́с приё́мистости ав. — accelerator pumpпроду́вочный насо́с — scavenge pump; ( респиратора) cleansing pumpпрямоде́йствующий насо́с — direct-acting pumpреверси́вный насо́с — reversible pumpрегули́руемый насо́с — variable capacity pumpро́торный насо́с — rotary pumpро́торный, поршнево́й осево́й насо́с — swash-plate pumpро́торный, поршнево́й радиа́льный насо́с — radial-plunger pumpрту́тный насо́с — mercury pumpручно́й насо́с — hand(-operated) pumpсамовса́сывающий насо́с — self-priming pumpнасо́с с боковы́м вхо́дом — side suction pumpсвободновихрево́й насо́с — torque flow pumpсекцио́нный насо́с — stage chamber pumpсильфо́нный насо́с — bellows pumpнасо́с систе́мы жи́дкой сма́зки — oil lubrication pumpсма́зочный насо́с — lubrication pumpсмывно́й насо́с — sluice (way) pumpсорбцио́нный насо́с — sorption pumpнасо́с с проходны́м по́ршнем — lift [suction] pumpнасо́с сто́чной систе́мы — sanitary pumpстру́йный насо́с — jet(-type) pumpсудово́й насо́с — marine pumpнасо́с с электропри́водом — motor [electric] pumpтеплово́й насо́с — thermocompressorто́пливный насо́с — fuel pumpтормозно́й насо́с ж.-д. — brake pumpтрёхцилиндро́вый насо́с — triplex [three-cylinder] pumpтрю́мный насо́с — bilge pumpускори́тельный насо́с авто — acceleration pumpфа́новый насо́с мор. — sewage(-disposal) pumpфека́льный насо́с — sanitary pumpфорва́куумный насо́с — roughing-down [backing] pumpфутеро́ванный насо́с — lined pumpцементацио́нный насо́с с пневмати́ческим при́водом — air-operated grouting pumpцементацио́нный насо́с с ручны́м при́водом — hand-operated grouting pumpцентробе́жный насо́с — centrifugal pumpцентробе́жный насо́с с двусторо́нним вса́сыванием — double-suction pumpцентробе́жный насо́с с лопа́точным отво́дом — turbine centrifugal pumpцентробе́жный насо́с со спира́льным отво́дом — volute centrifugal pumpцентробе́жный, спира́льный насо́с — volute centrifugal pumpцентробе́жный, турби́нный насо́с — turbine centrifugal pumpциркуляцио́нный насо́с — circulating pump, circulatorчервя́чный насо́с ( шнековый насос с обоймой без нарезки) — scoop pumpша́хтный насо́с — mine [shaft] pumpшестерё́нный насо́с — gear(-type) pumpши́берный насо́с — guided-vane [sliding-vane] pumpшла́мовый насо́с — mud [slush, slurry] pumpшла́нговый насо́с — hose-type pumpшне́ковый насо́с — inclined Archimedean screw pumpшта́нговый насо́с — sucker-rod pumpэйрли́фтный насо́с — air-lift pumpэксце́нтриковый насо́с — eccentric pumpэлектромагни́тный насо́с — electromagnetic pump -
15 Giffard, Baptiste Henry Jacques (Henri)
[br]b. 8 February 1825 Paris, Franced. 14 April 1882 Paris, France[br]French pioneer of airships and balloons, inventor of an injector for steam-boiler feedwater.[br]Giffard entered the works of the Western Railway of France at the age of 16 but became absorbed by the problem of steam-powered aerial navigation. He proposed a steam-powered helicopter in 1847, but he then turned his attention to an airship. He designed a lightweight coke-burning, single-cylinder steam engine and boiler which produced just over 3 hp (2.2 kW) and mounted it below a cigar-shaped gas bag 44 m (144 ft) in length. A triangular rudder was fitted at the rear to control the direction of flight. On 24 September 1852 Giffard took off from Paris and, at a steady 8 km/h (5 mph), he travelled 28 km (17 miles) to Trappes. This can be claimed to be the first steerable lighter-than-air craft, but with a top speed of only 8 km/h (5 mph) even a modest headwind would have reduced the forward speed to nil (or even negative). Giffard built a second airship, which crashed in 1855, slightly injuring Giffard and his companion; a third airship was planned with a very large gas bag in order to lift the inherently heavy steam engine and boiler, but this was never built. His airships were inflated by coal gas and refusal by the gas company to provide further supplies brought these promising experiments to a premature end.As a draughtsman Giffard had the opportunity to travel on locomotives and he observed the inadequacies of the feed pumps then used to supply boiler feedwater. To overcome these problems he invented the injector with its series of three cones: in the first cone (convergent), steam at or below boiler pressure becomes a high-velocity jet; in the second (also convergent), it combines with feedwater to condense and impart high velocity to it; and in the third (divergent), that velocity is converted into pressure sufficient to overcome the pressure of steam in the boiler. The injector, patented by Giffard, was quickly adopted by railways everywhere, and the royalties provided him with funds to finance further experiments in aviation. These took the form of tethered hydrogen-inflated balloons of successively larger size. At the Paris Exposition of 1878 one of these balloons carried fifty-two passengers on each tethered "flight". The height of the balloon was controlled by a cable attached to a huge steam-powered winch, and by the end of the fair 1,033 ascents had been made and 35,000 passengers had seen Paris from the air. This, and similar balloons, greatly widened the public's interest in aeronautics. Sadly, after becoming blind, Giffard committed suicide; however, he died a rich man and bequeathed large sums of money to the State for humanitarian an scientific purposes.[br]Principal Honours and DistinctionsCroix de la Légion d'honneur 1863.Bibliography1860, Notice théorique et pratique sur l'injecteur automoteur.1870, Description du premier aérostat à vapeur.Further ReadingDictionnaire de biographie française.Gaston Tissandier, 1872, Les Ballons dirigeables, Paris.—1878, Le Grand ballon captif à vapeur de M. Henri Giffard, Paris.W.de Fonvielle, 1882, Les Ballons dirigeables à vapeur de H.Giffard, Paris. Giffard is covered in most books on balloons or airships, e.g.: Basil Clarke, 1961, The History of Airships, London. L.T.C.Rolt, 1966, The Aeronauts, London.Ian McNeill (ed.), 1990, An Encyclopaedia of the History of Technology, London: Routledge, pp. 575 and 614.J.T.Hodgson and C.S.Lake, 1954, Locomotive Management, Tothill Press, p. 100.PJGR / JDSBiographical history of technology > Giffard, Baptiste Henry Jacques (Henri)
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16 Trevithick, Richard
[br]b. 13 April 1771 Illogan, Cornwall, Englandd. 22 April 1833 Dartford, Kent, England[br]English engineer, pioneer of non-condensing steam-engines; designed and built the first locomotives.[br]Trevithick's father was a tin-mine manager, and Trevithick himself, after limited formal education, developed his immense engineering talent among local mining machinery and steam-engines and found employment as a mining engineer. Tall, strong and high-spirited, he was the eternal optimist.About 1797 it occurred to him that the separate condenser patent of James Watt could be avoided by employing "strong steam", that is steam at pressures substantially greater than atmospheric, to drive steam-engines: after use, steam could be exhausted to the atmosphere and the condenser eliminated. His first winding engine on this principle came into use in 1799, and subsequently such engines were widely used. To produce high-pressure steam, a stronger boiler was needed than the boilers then in use, in which the pressure vessel was mounted upon masonry above the fire: Trevithick designed the cylindrical boiler, with furnace tube within, from which the Cornish and later the Lancashire boilers evolved.Simultaneously he realized that high-pressure steam enabled a compact steam-engine/boiler unit to be built: typically, the Trevithick engine comprised a cylindrical boiler with return firetube, and a cylinder recessed into the boiler. No beam intervened between connecting rod and crank. A master patent was taken out.Such an engine was well suited to driving vehicles. Trevithick built his first steam-carriage in 1801, but after a few days' use it overturned on a rough Cornish road and was damaged beyond repair by fire. Nevertheless, it had been the first self-propelled vehicle successfully to carry passengers. His second steam-carriage was driven about the streets of London in 1803, even more successfully; however, it aroused no commercial interest. Meanwhile the Coalbrookdale Company had started to build a locomotive incorporating a Trevithick engine for its tramroads, though little is known of the outcome; however, Samuel Homfray's ironworks at Penydarren, South Wales, was already building engines to Trevithick's design, and in 1804 Trevithick built one there as a locomotive for the Penydarren Tramroad. In this, and in the London steam-carriage, exhaust steam was turned up the chimney to draw the fire. On 21 February the locomotive hauled five wagons with 10 tons of iron and seventy men for 9 miles (14 km): it was the first successful railway locomotive.Again, there was no commercial interest, although Trevithick now had nearly fifty stationary engines completed or being built to his design under licence. He experimented with one to power a barge on the Severn and used one to power a dredger on the Thames. He became Engineer to a project to drive a tunnel beneath the Thames at Rotherhithe and was only narrowly defeated, by quicksands. Trevithick then set up, in 1808, a circular tramroad track in London and upon it demonstrated to the admission-fee-paying public the locomotive Catch me who can, built to his design by John Hazledine and J.U. Rastrick.In 1809, by which date Trevithick had sold all his interest in the steam-engine patent, he and Robert Dickinson, in partnership, obtained a patent for iron tanks to hold liquid cargo in ships, replacing the wooden casks then used, and started to manufacture them. In 1810, however, he was taken seriously ill with typhus for six months and had to return to Cornwall, and early in 1811 the partners were bankrupt; Trevithick was discharged from bankruptcy only in 1814.In the meantime he continued as a steam engineer and produced a single-acting steam engine in which the cut-off could be varied to work the engine expansively by way of a three-way cock actuated by a cam. Then, in 1813, Trevithick was approached by a representative of a company set up to drain the rich but flooded silver-mines at Cerro de Pasco, Peru, at an altitude of 14,000 ft (4,300 m). Low-pressure steam engines, dependent largely upon atmospheric pressure, would not work at such an altitude, but Trevithick's high-pressure engines would. Nine engines and much other mining plant were built by Hazledine and Rastrick and despatched to Peru in 1814, and Trevithick himself followed two years later. However, the war of independence was taking place in Peru, then a Spanish colony, and no sooner had Trevithick, after immense difficulties, put everything in order at the mines then rebels arrived and broke up the machinery, for they saw the mines as a source of supply for the Spanish forces. It was only after innumerable further adventures, during which he encountered and was assisted financially by Robert Stephenson, that Trevithick eventually arrived home in Cornwall in 1827, penniless.He petitioned Parliament for a grant in recognition of his improvements to steam-engines and boilers, without success. He was as inventive as ever though: he proposed a hydraulic power transmission system; he was consulted over steam engines for land drainage in Holland; and he suggested a 1,000 ft (305 m) high tower of gilded cast iron to commemorate the Reform Act of 1832. While working on steam propulsion of ships in 1833, he caught pneumonia, from which he died.[br]BibliographyTrevithick took out fourteen patents, solely or in partnership, of which the most important are: 1802, Construction of Steam Engines, British patent no. 2,599. 1808, Stowing Ships' Cargoes, British patent no. 3,172.Further ReadingH.W.Dickinson and A.Titley, 1934, Richard Trevithick. The Engineer and the Man, Cambridge; F.Trevithick, 1872, Life of Richard Trevithick, London (these two are the principal biographies).E.A.Forward, 1952, "Links in the history of the locomotive", The Engineer (22 February), 226 (considers the case for the Coalbrookdale locomotive of 1802).See also: Blenkinsop, JohnPJGR -
17 oil
1. нефть || нефтяной2. масло ( растительное или минеральное) || масляный3. жидкая смазка, смазочное масло || смазыватьoil struck at... — нефть встречена на глубине...
— hot oil— base oil— cut oil— dead oil— form oil— fuel oil— lean oil— live oil— load oil— lock oil— net oil— oil in— raw oil— rich oil— rock oil— seep oil— sour oil— tank oil— tar oil— wet oil
* * *
нефть (все жидкие углеводороды, получаемые из скважин, и конденсаты, извлекаемые из природного газа)pipeline quality crude oil — нефть, соответствующая требованиям транспортирования по трубопроводу (упругость паров по Рейду в подвижном состоянии -100)
tanker specification crude oil — нефть, соответствующая требованиям транспортирования танкерами (упругость паров по Рейду в подвешенном состоянии -10)
to hold back oil in the reservoir — удерживать нефть в коллекторе;
— bad oil— base oil— cut oil— dead oil— dry oil— dump oil— fuel oil— hot oil— live oil— load oil— raw oil— rock oil— sour oil— tank oil— wet oil— wild oil
* * *
1. нефть
* * *
нефть (<<жидкие углеводороды, извлекаемые из природного газа) || нефтянойoil in bulk — 1) нефть наливом; нефтепродукты наливом 2) нефть в резервуаре;
oil in hole — нефть в стволе скважины;
oil in place — нефть в пласте; пластовая нефть; нефть, предположительно находящаяся в коллекторе;
oil in reserve — 1) нефть, заполняющая трубопроводы и резервуары 2) нефтепродукт, заполняющий систему заводских резервуаров и трубопроводов;
oil in sight — видимые запасы нефти;
oil in situ — нефть в пласте;
oil in storage — 1) нефть в трубопроводах 2) избыточная ( не отправленная потребителям) нефть на нефтебазах;
oil initially in place — первоначальные запасы нефти в коллекторе;
oil originally in reservoir — начальное содержание нефти в пласте;
to carry oil — содержать нефть;
to flood oil toward production well — вытеснять нефть ( водой) к добывающей скважине;
to hold back oil in the reservoir — удерживать нефть в коллекторе;
to make oil — добывать нефть;
to run the oil — 1) измерять количество нефти в промысловых резервуарах 2) перекачивать нефть из промысловых резервуаров по трубопроводу;
to skim off oil — собирать нефть, разлившуюся на поверхности воды;
to strike oil — обнаруживать месторождение нефти;
- oil of paraffinoil to surface — нефть, поступающая на поверхность;
- abandoned oil
- absorbent oil
- adsorbed oil
- absorption oil
- acid oil
- acid-refined oil
- acid-stage oil
- additive blended oil
- additive motor oil
- additive treated oil
- additive-type oil
- admiralty fuel oil
- aeroengine oil
- air filter oil
- aircraft oil
- airplane oil
- all-purpose engine oil
- alpha oil
- American paraffin oil
- Appalachian oil
- aqueous-soluble oil
- Arctic oil
- aromatic-base crude oil
- asphalt-base oil
- asphalt-free oil
- asphaltic road oil
- asphaltum oil
- automobile oil
- average-quality oil
- axle oil
- bad oil
- base oil
- batch oil
- Beaumont oil
- bentonite diesel oil
- benzolized oil
- benzyl mustard oil
- black oil
- blasting oil
- blended fuel oil
- blue oil
- bobbin oil
- bodied oil
- boiler oil
- branded oil
- break-in oil
- bright oil
- bubble point oil
- burner oil
- burning oil
- by-passed oil
- capacitor oil
- car oil
- carbon oil
- cargo oil
- catalytic gas oil
- circuit-breaker oil
- clay-filtered oil
- clean oil
- cleaning oil
- cleansing oil
- coal oil
- coastal oil
- coker gas oil
- cold-settled oil
- cold-test oil
- commercial oil
- compressor oil
- concrete form oil
- condensed oil
- condenser oil
- conventional oil
- cordage oil
- corrected oil
- crankcase oil
- crevice oil
- crude oil
- crude mineral oil
- crude petroleum fuel oil
- crude shale oil
- crystal oil
- cut oil
- cutter oil
- cutting oil
- cycle oil
- cycle gas oil
- cylinder oil
- dangerous oil
- dead oil
- debenzolized oil
- degassed oil
- denuded oil
- desalinized oil
- development oil
- dielectrical oil
- diesel oil
- diesel-fuel oil
- dispersed oil
- dissolved oil
- distillate oil
- distillate fuel oil
- domestic oil
- doped oil
- dry oil
- dual-purpose oil
- dump oil
- earth oil
- economically recoverable oil
- electrical switch oil
- emulsified crude oil
- emulsion oil
- engine oil
- enriched oil
- entrained oil
- equilibrium oil
- estimated original oil in place
- explosive oil
- extra-heavy crude oil
- first-quality oil
- fluid oil
- flush oil
- fluxing oil
- foam oil
- foot's oil
- foreign oil
- form oil
- fossil oil
- free oil
- fuel oil
- furnace oil
- gaged oil
- gas oil
- gas absorber oil
- gas and mud-cut oil
- gas-cut oil
- gas-cut load oil
- gear oil
- gearbox oil
- gearcase oil
- gelled oil
- graphite lubrication oil
- grease oil
- grease-spoiled oil
- green bloom oil
- green cast oil
- hard oil
- heating oil
- heavy oil
- heavy-cycle gas oil
- heavy-duty supplement oil
- heavy gas oil
- heavy lubricating oil
- heavy neutral oil
- high-gravity oil
- high-pour-point oil
- high-pour-test oil
- high-pressure oil
- high-temperature shale oil
- highly detergent oil
- highly refined oil
- highly resinous oil
- hot oil
- hybrid-base oil
- hydraulic oil
- hydraulic system oil
- hydrocarbon oils
- hydrofined oil
- hydrogen-deficient gas oil
- illuminating oil
- imported oil
- inactive oil
- incremental oil
- industrial white oil
- initial oil in place
- initial oil in reservoir
- in-place oil
- inspissated oil
- instrument oil
- insulating oil
- intermediate oil
- irreducible oil
- kerosene oil
- lake oil
- lamp oil
- lean oil
- lease oil
- light oil
- light crude oil
- light cycle gas oil
- light engine oil
- light fuel oil
- light gas oil
- light viscosity oil
- lightwood oil
- limestone oil
- live oil
- livered oil
- load oil
- lock oil
- long-time burning oil
- loom oil
- low-gravity oil
- low-viscosity oil
- lubricating oil
- machinery oil
- make-up oil
- marine oil
- marine engine oil
- merchantable oil
- middle oil
- Middle East oil
- migratory oil
- mineral oil
- mineral earth oil
- mineral seal oil
- miner's oil
- mixed asphaltic base oil
- mixed-base oil
- mother oil
- motor oil
- moveable oil
- mud oil
- mud-cut oil
- multigrade oil
- noncongealable oil
- nondrying oil
- opal oil
- naphthalene oil
- naphthene oil
- natural oil
- net oil
- net residual oil
- nonabsorbent oil
- nonfoaming oil
- nonrecoverable oil
- nonresinous oil
- nonsulfurous oil
- occluded oil
- offshore oil
- original oil in place
- original stock tank oil in place
- oxydized oil
- oxygenated oil
- pale oil
- paraffin-base oil
- paraffin-base crude oil
- paraffinic oil
- pattern oil
- penetrating oil
- petrolatum oil
- petroleum fuel oil
- petroleum gas oil
- pilot oil
- piped oil
- pipeline oil
- pipeline quality crude oil
- polybase oil
- power oil
- primary oil
- produced oil
- prospective oil
- pumping load oil
- pure oil
- range oil
- raw oil
- recirculating oil
- reclaimed lubricating oil
- recoverable oil
- recovered oil
- red oil
- reduced oil
- reduced fuel oil
- refined oil
- residual oil
- retained oil
- returning circulation oil
- rich oil
- road oil
- rock oil
- roily oil
- rustproof oil
- saturated oil
- scavenge oil
- scrubbing oil
- secondary oil
- seep oil
- selective solvent-extracted oil
- selective solvent-refined oil
- separator oil
- service DG oil
- service DM oil
- service DS oil
- service ML oil
- service MM oil
- service MS oil
- shafting oil
- shale oil
- Sherwood oil
- short oil
- shrinked oil
- skunk oil
- slightly gas-cut oil
- sludge oil
- slurry oil
- slush oil
- slushing oil
- solar oil
- solid oil
- solidified oil
- soluble oil
- sorbed oil
- sour oil
- spindle oil
- steam-distillable oil
- steam-refined oil
- stock-tank oil
- stock-tank oil in place
- stoker's oil
- stone oil
- stove oil
- straight mineral oil
- straw oil
- stripped oil
- stripping oil
- subzero oil
- sulfonated oil
- sulfur-bearing oil
- sulfurous oil
- summer oil
- surplus oil
- sweat oil
- sweet oil
- switch oil
- tank oil
- tanker specification crude oil
- tar oil
- tarry oil
- tertiary oil
- thin oil
- thinned oil
- topped oil
- torch oil
- tractor oil
- transformer oil
- trapped oil
- trimming oil
- trolly oil
- turkey-red oil
- undiluted engine oil
- univis oil
- unrecovered oil
- unrefinable oil
- unrefinable crude oil
- unstripped oil
- untreated oil
- vaporizing oil
- vulcan oil
- washed blue oil
- waste oil
- water-cut oil
- watered oil
- watery oil
- wax oil
- wet oil
- white oil
- wild oil
- winter oil
- wirerope oil* * *• нефть• нефтяной -
18 McNaught, William
SUBJECT AREA: Steam and internal combustion engines[br]b. 27 May 1813 Sneddon, Paisley, Scotlandd. 8 January 1881 Manchester, England[br]Scottish patentee of a very successful form of compounding beam engine with a high-pressure cylinder between the fulcrum of the beam and the connecting rod.[br]Although born in Paisley, McNaught was educated in Glasgow where his parents had moved in 1820. He followed in his father's footsteps and became an engineer through an apprenticeship with Robert Napier at the Vulcan Works, Washington Street, Glasgow. He also attended science classes at the Andersonian University in the evenings and showed such competence that at the age of 19 he was offered the position of being in charge of the Fort-Gloster Mills on the Hoogly river in India. He remained there for four years until 1836, when he returned to Scotland because the climate was affecting his health.His father had added the revolving cylinder to the steam engine indicator, and this greatly simplified and extended its use. In 1838 William joined him in the business of manufacturing these indicators at Robertson Street, Glasgow. While advising textile manufacturers on the use of the indicator, he realized the need for more powerful, smoother-running and economical steam engines. He provided the answer by placing a high-pressure cylinder midway between the fulcrum of the beam and the connecting rod on an ordinary beam engine. The original cylinder was retained to act as the low-pressure cylinder of what became a compound engine. This layout not only reduced the pressures on the bearing surfaces and gave a smoother-running engine, which was one of McNaught's aims, but he probably did not anticipate just how much more economical his engines would be; they often gave a saving of fuel up to 40 per cent. This was because the steam pipe connecting the two cylinders acted as a receiver, something lacking in the Woolf compound, which enabled the steam to be expanded properly in both cylinders. McNaught took out his patent in 1845, and in 1849 he had to move to Manchester because his orders in Lancashire were so numerous and the scope was much greater there than in Glasgow. He took out further patents for equalizing the stress on the working parts, but none was as important as his original one, which was claimed to have been one of the greatest improvements since the steam engine left the hands of James Watt. He was one of the original promoters of the Boiler Insurance and Steam Power Company and was elected Chairman in 1865, a position he retained until a short time before his death.[br]Bibliography1845, British patent no. 11,001 (compounding beam engine).Further ReadingObituary, Engineer 51.Obituary, Engineering 31.R.L.Hills, 1989, Power from Steam. A History of the Stationary Steam Engine, Cambridge University Press (the fullest account of McNaught's proposals for compounding).RLH -
19 pump
1) насос || подавать [нагнетать\] насосом, качать2) электрон. накачка, возбуждение || накачивать, возбуждать3) электрон. генератор накачки4) электрон. излучение накачки•to pump in — накачивать;to pump off — 1. откачивать 2. (быстро) опоражнивать ( скважину скважинным насосом);to port the pump — подсоединять линию к насосу;to supercharge pump — подпитывать насос, создавать давление на всасывании насоса-
absorption heat pump
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accelerating pump
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accelerator pump
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acid treatment pump
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adjustable pump
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adsorption pump
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aeration jet pump
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afteroiling pump
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air pump
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air-driven pump
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air-to-air heat pump
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air-water heat pump
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American pump
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angular flow pump
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appendage pump
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atmospheric inlet pump
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autopriming pump
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auxiliary feedwater pump
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auxiliary turbine-driven feed pump
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axial-flow pump
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axial-piston pump
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axial-suction pump
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backing pump
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ball piston pump
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ballast pump
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beet lifting pump
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beet pump
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beet pulp pump
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bent axis-piston pump
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bilge pump
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blade sideshift pump
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blower pump
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boojee pump
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boost pump
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borehole pump
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brake release pump
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brine injection pump
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Butterworth pump
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cam-vane pump
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canned pump
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cargo pump
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cartridge pump
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casing sucker rod pump
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casing pump
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centrifugal pump
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charging pump
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chemical cleaning pump
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chemical heat pump
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chemical proportioning pump
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chemical pump
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circular casing pump
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circulating pump
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clean ballast pump
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clean pump
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coal pump
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coherent pump
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coil pump
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cold pump
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cold-cathode getter-ion pump
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combination fuel pump
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combination gear pump
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compensated pump
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compression pump
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concrete pump
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condensate pump
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condenser pump
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constant horsepower output pump
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constant pressure pump
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continuous flow pump
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control pump
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controlled pump
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controlled-circulating pump
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controlled-volume pump
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coolant pump
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corrosion-resistant water pump
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crank pump
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cryogenic pump
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cryosorption pump
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deep-well pump
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delivery pump
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dewatering pump
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diagonal-flow pump
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diaphragm lift pump
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diaphragm pump
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diffuser pump
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diffusion pump
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direct-acting pump
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direct-injection pump
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discharge pump
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dispensing pump
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displacement pump
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donkey pump
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dope transfer pump
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dosing pump
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double pump
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double-acting pump
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double-entry pump
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double-stage pump
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double-stroke pump
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double-suction pump
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double-volute pump
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drainage pump
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dredge pump
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drilling mud transfer pump
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drowned pump
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drum pump
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dry pump
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dual-pressure pump
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duplex pump
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dye laser pump
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earth-coupled heat pump
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ejector pump
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ejector-compression heat pump
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electric pump
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electromagnetic pump
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electroosmotic pump
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emulsifying pump
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end-suction pump
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energy pump
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evaporation pump
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exhaust pump
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external gear pump
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extraction pump
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feathering pump
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feeding pump
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feed pump
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feedwater pump
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fire pump
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fire-and-bilge pump
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fish pump
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fixed frequency pump
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fixed-delivery pump
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flexible hose pump
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fluid jet pump
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fluming water pump
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flushing pump
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focused pump
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foot-mounted pump
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force pump
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fore pump
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Francis-type pump
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fresh feed pump
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fuel backup pump
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fuel feed pump
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fuel injection pump
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fuel lift pump
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fuel priming pump
-
fuel pump
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fuel transfer pump
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fuel-oil pump
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full-size boiler feed pump
-
gasoline pump
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gas-powered pump
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gear-type pump
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getter pump
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getter-ion pump
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gravel pump
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ground-driven steer pump
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grouting pump
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grout pump
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half-size boiler feed pump
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hand-operated pump
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hand pump
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hand-priming pump
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harbor pump
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heat pump
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heeling pump
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helical rotor pump
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high-capacity pump
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high-lift pump
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high-pressure injection pump
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high-pressure intensifier pump
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high-speed pump
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high-vacuum pump
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horizontal pump
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hot melt pump
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house service pump
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hydraulic pump
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hypothetical pump
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ice-cream pump
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ice-maker heat pump
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immersed pump
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impeller pump
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inclined rotor pump
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incoherent pump
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individual injection pump
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injection pump
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ink pump
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in-line pump
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insert oil-well pump
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insert pump
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integral auxiliary pump
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internal gear pump
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ion pump
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jerk pump
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jerker pump
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jet pump
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Kaplan-type pump
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light pump
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line pump
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linearly polarized pump
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liquid jet pump
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liquid metal pump
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lobe pump
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low-lift pump
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low-pressure injection pump
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low-speed pump
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lubricant pump
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magnetic heat pump
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magnetic-drive pump
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main circulating pump
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makeup pump
-
manual pump
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marine pump
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mash pump
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mercury vapor diffusion pump
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mercury diffusion pump
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metal hydride heat pump
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metering pump
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mine pump
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mixed-flow pump
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molecular pump
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monitor feed pump
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mortar pump
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motor pump
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mud pump
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multicellular pump
-
multicircuit pump
-
multicylinder pump
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multiflow lubricating pump
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multiple gear pump
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multiple-impeller pump
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multiple-piston pump
-
multiplunger pump
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multiscrew pump
-
multistage pump
-
noncompensated pump
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nonpositive displacement pump
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nonuplex pump
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normal-speed pump
-
oil fuel pump
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oil pump
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oil well pump
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oil-diffusion pump
-
oil-free pump
-
oil-measuring pump
-
oil-sealed rotary pump
-
oil-transfer pump
-
oil-vapor pump
-
open circuit pump
-
optical pump
-
overboard pump
-
packaged heat pump
-
packmix pump
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Penning type pump
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Penning pump
-
peripheral pump
-
peristaltic pump
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photovoltaic water pump
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pickup pump
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piston pump
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Pitot tube pump
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plunger pump
-
positive displacement pump
-
power control pump
-
power pump
-
precharge pump
-
preevacuation pump
-
pressure balanced pump
-
pressure pump
-
primary boiler-feed pump
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primary circuit pump
-
priming pump
-
propeller pump
-
proportioning pump
-
pulse-free pump
-
pulverized-coal pump
-
purge pump
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pusher pump
-
push-pull stem control pump
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quench pump
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quintuplex pump
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radial piston pump
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radial-flow pump
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ram-type pump
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ram pump
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raw oil pump
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reactor containment sump pump
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reactor coolant pump
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recharging manual pump
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recharging pump
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reciprocating pump
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recirculating pump
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recycling pump
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reflux pump
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replenishing pump
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reverser pump
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reversible pump
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rodless pump
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rod-line pump
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roller-vane pump
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Roots blower pump
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Roots pump
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rotary pump
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rotating swash-plate pump
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rotodynamic pump
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rotor-type pump
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roughing pump
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rough pump
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salt-water pump
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salt-water-service pump
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salvage pump
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sand pump
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sanitary pump
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satellite pump
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scavenge pump
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scavenging oil pump
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scoop pump
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screen-wash pump
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screw pump
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scum pump
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sealing water pump
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sea-water pump
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self-contained heat pump
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self-priming pump
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semirotary pump
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septuplex pump
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service pump
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servo-controlled pump
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sewage pump
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shell pump
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shuttle-block oil pump
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side-channel pump
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side-suction pump
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simplex pump
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single direct-acting pump
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single-boiler feed pump
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single-cylinder pump
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single-entry pump
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single-plunger pump
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single-stage pump
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single-stroke pump
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sinking pump
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sliding-vane pump
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sludge pump
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slurry pump
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slush pump
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soda-circulating pump
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solar diaphragm pump
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solar-assisted neat pump
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sorption pump
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space conditioning heat pump
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spinning pump
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split-packaged heat pump
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squirt pump
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steam jet air pump
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steam jet pump
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steam-driven pump
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steam-oil pump
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steering pump
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storage pump
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straight-flow pump
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stripping pump
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submerged-type pump
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submerged pump
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submersible pump
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subsurface pump
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sucker-rod pump
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suction pump
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sump pump
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swinging-vane oil pump
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tandem pump
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tank cleaning pump
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test pump
-
thermal pump
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thermoelectric heat pump
-
three-screws pump
-
thrust augmentor pump
-
tilted-body pump
-
torque flow pump
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transfer pump
-
traveling-barrel pump
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trimming pump
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trim pump
-
triplex pump
-
tubing oil-well pump
-
tubing pump
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turbine pump
-
turbo-molecular pump
-
two-lobe rotary pump
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two-stage pump
-
two-volume pump
-
unit pump
-
vacuum pump
-
valveless pump
-
vane pump
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vapor-jet pump
-
vapor pump
-
variable-capacity pump
-
variable-displacement pump
-
variable-stroke plunger pump
-
vertical pump
-
volumetric pump
-
volute pump
-
vortex pump
-
vortex-free pump
-
wash-deck pump
-
water pump
-
water-air heat pump
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water-jet air pump
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well pump
-
wellpoint pump
-
wet-pit pump
-
wheel pump
-
wind pump
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wing pump
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wrecking pump
-
yoke-type bent-axis pump
-
zeolite pump -
20 газовий
gas; gassy, gaseousгазовий анестетик — inhalation anesthetic, inhalation agent
газовий вимикач — gas-blast circuit-breaker, gas-blast circuit interrupter
газовий котел — gas-fire boiler, gas boiler, natural gas boiler
газовий лічильник — gasometer, gas meter
газовий манометр — gas gage; absolute manometer
газовий пальник — gas-jet, gas-ring, candle
газовий поклад — gas deposit, gas pool
газовий ріжок — gas-burner, gas-bracket
газовий теплоносій — gas(eous) coolant, coolant gas
газовий факел — smoke jet, ( для спалювання нафтового газу) flambeau light
См. также в других словарях:
Cylinder boiler — Boiler Boil er, n. 1. One who boils. [1913 Webster] 2. A vessel in which any thing is boiled. [1913 Webster] Note: The word boiler is a generic term covering a great variety of kettles, saucepans, clothes boilers, evaporators, coppers, retorts,… … The Collaborative International Dictionary of English
Boiler — Boil er, n. 1. One who boils. [1913 Webster] 2. A vessel in which any thing is boiled. [1913 Webster] Note: The word boiler is a generic term covering a great variety of kettles, saucepans, clothes boilers, evaporators, coppers, retorts, etc.… … The Collaborative International Dictionary of English
Boiler iron — Boiler Boil er, n. 1. One who boils. [1913 Webster] 2. A vessel in which any thing is boiled. [1913 Webster] Note: The word boiler is a generic term covering a great variety of kettles, saucepans, clothes boilers, evaporators, coppers, retorts,… … The Collaborative International Dictionary of English
Boiler plate — Boiler Boil er, n. 1. One who boils. [1913 Webster] 2. A vessel in which any thing is boiled. [1913 Webster] Note: The word boiler is a generic term covering a great variety of kettles, saucepans, clothes boilers, evaporators, coppers, retorts,… … The Collaborative International Dictionary of English
Barrel of a boiler — Boiler Boil er, n. 1. One who boils. [1913 Webster] 2. A vessel in which any thing is boiled. [1913 Webster] Note: The word boiler is a generic term covering a great variety of kettles, saucepans, clothes boilers, evaporators, coppers, retorts,… … The Collaborative International Dictionary of English
Locomotive boiler — Boiler Boil er, n. 1. One who boils. [1913 Webster] 2. A vessel in which any thing is boiled. [1913 Webster] Note: The word boiler is a generic term covering a great variety of kettles, saucepans, clothes boilers, evaporators, coppers, retorts,… … The Collaborative International Dictionary of English
Multiflue boiler — Boiler Boil er, n. 1. One who boils. [1913 Webster] 2. A vessel in which any thing is boiled. [1913 Webster] Note: The word boiler is a generic term covering a great variety of kettles, saucepans, clothes boilers, evaporators, coppers, retorts,… … The Collaborative International Dictionary of English
Sectional boiler — Boiler Boil er, n. 1. One who boils. [1913 Webster] 2. A vessel in which any thing is boiled. [1913 Webster] Note: The word boiler is a generic term covering a great variety of kettles, saucepans, clothes boilers, evaporators, coppers, retorts,… … The Collaborative International Dictionary of English
Tubular boiler — Boiler Boil er, n. 1. One who boils. [1913 Webster] 2. A vessel in which any thing is boiled. [1913 Webster] Note: The word boiler is a generic term covering a great variety of kettles, saucepans, clothes boilers, evaporators, coppers, retorts,… … The Collaborative International Dictionary of English
Tubulous boiler — Boiler Boil er, n. 1. One who boils. [1913 Webster] 2. A vessel in which any thing is boiled. [1913 Webster] Note: The word boiler is a generic term covering a great variety of kettles, saucepans, clothes boilers, evaporators, coppers, retorts,… … The Collaborative International Dictionary of English
Cylinder stresses — Circumferential stress is a type of mechanical stress of a cylindrically shaped part as a result of internal or external pressure. The classic example of circumferential stress is the tension applied to the iron bands, or hoops, of a wooden… … Wikipedia