solution generator

Solution Generator

Software: SG

пенообразователь

1) Engineering: blowing agent, foam former, foam maker, foam-forming admixture, foamer, foaming additive, frother, frothing agent

2) Metallurgy: foam-producing agent, frothing reagent

3) Oil: foamer ( foaming agent), foaming, foaming agent

4) Food industry: froth former

5) Silicates: cellulating agent, foaming substance

6) Perfume: foam booster

7) Ecology: blowing agent foaming agent, foam generator, foam-blowing agent

8) Oilfield: foam inductor (устройство)

9) Labor protection: foaming generator

10) Makarov: foamgenerator, frother (по флотации), trother

11) oil&gas: foamer solution

образовывать

. давать

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Hydrogen chloride forms ions in aqueous solution.

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The roof collapsed giving rise to a crater (геол.).

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As the seawater evaporates, the remaining salt and water make up a brine that is denser than seawater.

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Aldehyde sugars give rise to (or produce) sugar acids.

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The red and green images combine into a black image.

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The three instruments form (or comprise, or make up) a signal generator assembly.

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As Δ_0 v_z changes, the circles generate a surface, which...

बीजम् _bījam

बीजम् 1 Seed (fig. also), seedcorn, grain; अरण्य- बीजाञ्जलिदानलालिताः Ku.5.15; बीजाञ्जलिः पतति कीटमुखावलीढः Mk.1.9; R.19.57; Ms.9.33.

-2 A germ, element.

-3 Origin, source, cause; बीजप्रकृतिः Ś.1.1 (v. l.).

-4 Semen virile; यदमोघमपामन्तरुप्तं बीजमज त्वया Ku.2.5,6.

-5 The seed or germ of the plot of a play, story &c.; see S. D.318.

-6 Marrow.

-7 Algebra.

-8 The mystical letter forming the essential part of the Mantra of a deity.

-9 Truth, divine truth.

-1 A receptacle, place of deposit.

-11 Calculation of primary germs.

-12 Analysis.

-13 The position of the arms of a child at birth.

-जः The citron tree. (बीजाकृ means

1 To sow with seed; व्योमनि बीजाकुरुते Bv.1.98.

-2 To plough over after sowing).

-Comp. -अक्षरम् the first syllable of a Mantra.

-अङ्कुरः a seed-shoot, first shoot; अपेक्षते प्रत्ययमुत्तमं त्वां बीजाङ्कुरः प्रागुदयादिवाम्भः Ku.3.18; Pt.1.223. (

-रौ) seed and sprout. ˚न्यायः the maxim of seed and sprout; see under न्याय.

-अङ्घ्रिकः a camel.

-अध्यक्षः an epithet of Śiva.

-उपहारिणी a witch.

-अम्लम् the fruit of Spondias Magnifera (Mar. कोकंबी).

-अर्थ a. desirous of procreation.

-अश्वः a stallion.

-आढ्यः, -पूरः, -पूरकः the citron tree. (

-रम्, -रकम् the fruit of citron.

-उत्कृष्टम् good seed; अबीज- विक्रयी चैव बीजोत्कृष्टं तथैव च Ms.9.291.

-उदकम् hail.

-उप्तिः f. sowing seed. ˚चक्रम् a kind of astrological diagram for indicating good or bad luck following on the sowing of seed.

-कर्तृ m. an epithet of Śiva.

-कृत् a. producing semen. (-n.) an aphrodisiac.

-कोशः, -कोषः 1 the seed-vessel.

-2 the seed-vessel of the lotus. (

-शी) a pod, legume.

-क्रिया algebraic operation or solution.

-गणितम् 1 analysis of primary causes.

-2 the science of Algebra.

-3 N. of the 2 nd part of सिद्धान्तशिरोमणि.

-गर्भः Trichosanthes Dioeca (Mar. पडवळ).

-गुप्तिः f. a pod, legume.

-दर्शकः a stage-manager.

-द्रव्यम् primary or original matter.

-धान्यम् coriander (Mar. धने).

-निर्वापणम् sowing seed.

-न्यासः making known the germ of the plot of a play.

-पादपः Semecarpus Anacardium (Mar. बिब्बा).

-पुरुषः the progenitor of a family.

-पुष्पः, -पूरणः the citron tree; Rām.2.91.3.

-पुष्पिका Andropogon Saccharatus (Mar. जोंधळा, ऊंस).

-पेशिका the scrotum.

-प्रदः a procreator, generator.

-प्रभावः the power of the seed; यस्माद्बीजप्रभावेण तिर्यग्जा ऋषयो$भवन् Ms.1.72.

-प्ररोहिन् a, growing from seed.

-प्रसूः the earth.

-फलकः the citron tree.

-मतिः f. a mind capable of analysis, the power of penetrating into the very first principles.

-मन्त्रः a mystical syllable with which a Mantra begins.

-मातृका the pericarp of a lotus.

-मात्रम् only as much as is required for seed (for the preservation of a family).

-रत्नम् a kind of seed.

-रुहः grain, corn.

-वपनम् 1 a field.

-2 the act of sowing seed.

-वरः a kidney-bean (Mar. उडीद).

-वापः 1 a sower of seed; an agriculturist (कृषीवल); कालं प्रतीक्षस्व सुखोदयस्य पङ्क्तिं फलानामिव बीजवापः Mb.3.34. 19.

-2 sowing seed.

-वाहनः an epithet of Śiva.

-सूः The earth.

-सेक्तृ m. a procreator, progenitor; cf. Ms. 9.51 (com.)

-स्नेहः the Palāśa tree (Mar. पळस).

-हरा, -हारिणी a witch.

газ

fluid, gas

* * *

газ м.

1. ( агрегатное состояние вещества) gas

внеза́пное выделе́ние га́за ( в шахте) — (violent) gas outburst

газ выделя́ется из раство́ра — a dissolved gas flashes out of solution

выделя́ть газ — evolve [liberate, give up] gas

выпуска́ть ли́шний газ ( в атмосферу) — allow surplus gas to escape

напо́лненный га́зом — gas-filled

очища́ть газ — ( от механических примесей) clean a gas; ( от нежелательных соединений) purify a gas

охлажда́емый га́зом — gas-cooled

промыва́ть газ — scrub [wash] a gas

рабо́тать на га́зе (о двигателе и т. п.) — gas-fire

разбавля́ть газ — dilute a gas

сжига́ть газ в фа́келе (напр. на промысле) — flare a gas

сжижа́ть газ — liquefy a gas

трави́ть ( выпускать) [m2]газ из аэроста́та — valve the gas

2. авто:

дава́ть по́лный газ — give full throttle

рабо́тать на по́лном газу́ — operate at full throttle

сбавля́ть газ — throttle down

сбра́сывать газ — release the accelerator

агресси́вный газ — corrosive [aggressive] gas

адсорби́рованный газ — adsorbed gas

балло́нный газ — bottled [cylinder] gas

бе́дный газ — lean gas

безокисли́тельный газ — noncorrosive gas

биологи́ческий газ — sewage [sludge] gas

биохими́ческий газ — biochemical gas

благоро́дный газ — noble [inert] gas

бога́тый газ — rich gas

боло́тный газ — marsh gas

бу́ферный газ — buffer gas

бу́ферный, неразориенти́рующий газ — nondisorienting buffer gas

бу́ферный, разориенти́рующий газ — disorienting buffer gas

вагра́ночный газ — cupola gas

веселя́щий газ — laughing gas, nitrous oxide

га́зы в запле́чиках ( доменной печи) — bosh gases

взрывоопа́сный газ — explosive gas

вла́жный газ — wet gas

водяно́й газ — water gas

возбуждё́нный газ — pumped gas

возду́шный газ ( полученный на воздушном дутье) — air-blast gas

восстанови́тельный газ — reducing gas

вре́дный газ — noxious gas

газ втори́чной очи́стки — secondary gas

выделя́ющийся газ — evolved gas

вы́рожденный газ — degenerate gas

высококалори́йный газ — rich [high calorific] gas

выхлопно́й газ — exhaust gas

генера́торный газ — produced gas

генера́торный, эндотерми́ческий газ — RX [generator] gas

горново́й газ ( доменной печи) — hearth gas

городско́й газ — town gas

горю́чий газ — ( используемый в качестве топлива) fuel gas; ( обладающий способностью к горению) combustible gas

грему́чий газ — fire-damp

газ гру́бой очи́стки — primary cleaned gas

гря́зный газ — ( неочищенный) fume-laden gas; ( колошниковый) crude gas

газ для коммуна́льно-бытовы́х нужд — gas for public-utility use(s)

до́менный газ — blast-furnace [top] gas

до́менный, чи́стый газ — clean blast-furnace [top] gas

дутьево́й газ — blast gas

дымово́й газ — flue [stack] gas

запылё́нный газ — dust-laden gas; метал. ash-laden gas

заторможё́нный газ — stagnated gas

защи́тный газ — shielding gas

в среде́ защи́тного га́за — in an atmosphere of shielding gas

идеа́льный газ — ideal [perfect] gas

ине́ртный газ — inert [noble] gas

иску́сственный газ — artificial [manufactured] gas

каменноу́гольный газ — coal gas

канализацио́нный газ — sewer gas

карбюри́рованный газ — carburetted gas

кислоро́дно-конве́ртерный газ — oxygen-converter gas

ко́ксовый газ — coke-oven gas

ко́ксовый, прямо́й газ — volatile matter (of the coking process)

колошнико́вый газ — blast-furnace [top] gas

конве́ртерный газ — converter (waste) gas

коте́льный газ — boiler flue gas

газ ле́гче во́здуха — lighter-than-air [lifting] gas

магнитоио́нный газ — magnetoionic gas

невы́рожденный газ — nondegenerate gas

неконденси́рующийся газ — permanent gas

неочи́щенный газ — raw [crude] gas

газ нефтеперерабо́тки — (oil-)refinery gas

нефтяно́й газ — oil [petroleum] gas

нефтяно́й, попу́тный газ — casing-head gas

низкокалори́йный газ — poor [low calorific] gas

о́бжиговый газ — roaster gas

оборо́тный газ — recycle gas

одноа́томный газ — monatomic gas

озолё́нный газ — ash-laden gas

окклюди́рованный газ — occluded gas

оста́точный газ — residual gas

отрабо́тавший газ — exhaust [burnt] gas

отходя́щий газ — waste [flue, exit, effluent] gas, off-gas

печно́й газ — kiln gas

пло́тный газ — solid gas

полуводяно́й газ — Dowson [semi-water] gas

приро́дный газ — natural gas

псевдоожижа́ющий газ — fluidizing gas

рабо́чий газ — working fluid; ( в плазменном напылении) plasma-forming gas

разрежё́нный газ — rarefied gas

реа́льный газ — real [imperfect] gas

ре́дкий газ — rare gas

ре́жущий газ — cutting gas

релакси́рующий газ — relaxing gas

рудни́чный газ — mine gas

рудни́чный газ по́сле взры́ва — afterdamp

свети́льный газ — illuminating [lighting] gas

свобо́дный газ — free gas

газ с возбуждё́нными колеба́тельными степеня́ми свобо́ды — vibrationally excited gas

серни́стый газ — (gaseous) sulphur dioxide

се́рный газ — (gaseous) sulphur trioxide

сжа́тый газ — compressed gas

сжи́женный газ — liquefied [condensed] gas

силово́й газ — power gas

сме́шанный газ — mixed gas

газ, содержа́щий дым — fume-laden gas

сухо́й газ — residue gas

суши́льный газ — drying gas

технологи́ческий газ — process gas

токси́чный газ — toxic gas

газ то́нкой очи́стки — finally cleaned gas

то́пливный газ — fuel gas

то́почный газ — flue gas

торфяно́й газ — peat gas

то́щий газ — lean gas

транспорти́рующий газ — carrier gas

трёха́томный газ — triatomic gas

тропосфе́рный газ — tropospheric gas

уга́рный газ — carbon monoxide; горн. whitedamp

углеки́слый газ — carbon dioxide

уду́шливый газ — chokedamp

фреати́ческий газ — phreatic gas

фу́рменный газ — tuyere gas

хвостово́й газ — tail gas

электро́нный газ — electron gas

электроотрица́тельный газ — electronegative gas

энергети́ческий газ — power gas

газ ядови́тый газ — poison gas

Sperry, Elmer Ambrose

SUBJECT AREA: Aerospace, Electricity, Land transport, Ports and shipping

[br]

b. 21 October 1860 Cincinnatus, Cortland County, New York, USA

d. 16 June 1930 Brooklyn, New York, USA

[br]

American entrepreneur who invented the gyrocompass.

[br]

Sperry was born into a farming community in Cortland County. He received a rudimentary education at the local school, but an interest in mechanical devices was aroused by the agricultural machinery he saw around him. His attendance at the Normal School in Cortland provided a useful theoretical background to his practical knowledge. He emerged in 1880 with an urge to pursue invention in electrical engineering, then a new and growing branch of technology. Within two years he was able to patent and demonstrate his arc lighting system, complete with its own generator, incorporating new methods of regulating its output. The Sperry Electric Light, Motor and Car Brake Company was set up to make and market the system, but it was difficult to keep pace with electric-lighting developments such as the incandescent lamp and alternating current, and the company ceased in 1887 and was replaced by the Sperry Electric Company, which itself was taken over by the General Electric Company.

In the 1890s Sperry made useful inventions in electric mining machinery and then in electric street-or tramcars, with his patent electric brake and control system. The patents for the brake were important enough to be bought by General Electric. From 1894 to 1900 he was manufacturing electric motor cars of his own design, and in 1900 he set up a laboratory in Washington, where he pursued various electrochemical processes.

In 1896 he began to work on the practical application of the principle of the gyroscope, where Sperry achieved his most notable inventions, the first of which was the gyrostabilizer for ships. The relatively narrow-hulled steamship rolled badly in heavy seas and in 1904 Ernst Otto Schuck, a German naval engineer, and Louis Brennan in England began experiments to correct this; their work stimulated Sperry to develop his own device. In 1908 he patented the active gyrostabilizer, which acted to correct a ship's roll as soon as it started. Three years later the US Navy agreed to try it on a destroyer, the USS Worden. The successful trials of the following year led to widespread adoption. Meanwhile, in 1910, Sperry set up the Sperry Gyroscope Company to extend the application to commercial shipping.

At the same time, Sperry was working to apply the gyroscope principle to the ship's compass. The magnetic compass had worked well in wooden ships, but iron hulls and electrical machinery confused it. The great powers' race to build up their navies instigated an urgent search for a solution. In Germany, Anschütz-Kämpfe (1872–1931) in 1903 tested a form of gyrocompass and was encouraged by the authorities to demonstrate the device on the German flagship, the Deutschland. Its success led Sperry to develop his own version: fortunately for him, the US Navy preferred a home-grown product to a German one and gave Sperry all the backing he needed. A successful trial on a destroyer led to widespread acceptance in the US Navy, and Sperry was soon receiving orders from the British Admiralty and the Russian Navy.

In the rapidly developing field of aeronautics, automatic stabilization was becoming an urgent need. In 1912 Sperry began work on a gyrostabilizer for aircraft. Two years later he was able to stage a spectacular demonstration of such a device at an air show near Paris.

Sperry continued research, development and promotion in military and aviation technology almost to the last. In 1926 he sold the Sperry Gyroscope Company to enable him to devote more time to invention.

[br]

Principal Honours and Distinctions

John Fritz Medal 1927. President, American Society of Mechanical Engineers 1928.

Bibliography

Sperry filed over 400 patents, of which two can be singled out: 1908. US patent no. 434,048 (ship gyroscope); 1909. US patent no. 519,533 (ship gyrocompass set).

Further Reading

T.P.Hughes, 1971, Elmer Sperry, Inventor and Engineer, Baltimore: Johns Hopkins University Press (a full and well-documented biography, with lists of his patents and published writings).

LRD