steam-heated still

steam-heated still

паровой куб; куб с паровым обогревом

she was still ashiver — она всё ещё дрожала

upright still — вертикальный перегонный куб

continuous still — куб непрерывной перегонки

vertical still — вертикальный перегонный куб

batch still — куб для периодической перегонки

steam-heated still

1) Химия: паровой куб

2) Нефть: куб с паровым обогревом

3) Парфюмерия: перегонный куб с паровым обогревом

steam-heated still

куб с паровым обогревом

steam-heated still

• 1) паровой куб; 2) куб с паровым обогревом

• паровой куб

steam-heated still

перегонный куб с паровым обогревом

steam-heated still

перегонный куб с паровым обогревом

steam heated water still

1. паровой аквадистиллятор

 

паровой аквадистиллятор
Аквадистиллятор, в котором нагревание воды осуществляется теплом, получаемым от пара.
[ ГОСТ 20887-75]

Тематики

• аквадистилляторы

EN

• steam heated water still
• steam powered water still

DE

• Destillierapparat mit Dampfbeheizung

steam heated water still

Охрана труда: паровой аквадистиллятор

still

1. n поэт. тишина, безмолвие

in the still of night — в ночной тиши

2. n кино рекламный кадр, фотореклама

to collect movie star stills — собирать фото кинозвёзд

3. n тлв. студийная заставка

4. a неподвижный, спокойный

still waters of the lake — неподвижная гладь озера

still rain — дождь без ветра

still photography — неподвижная фотография

still air freezing — замораживание в спокойном воздухе

still air thawing — размораживание в спокойном воздухе

still air defrosting — размораживание в спокойном воздухе

5. a тихий, безмолвный, бесшумный

still evening — тихий вечер

still small voice — тихий и кроткий голос

still air freezer — камера тихого замораживания

still air cooler — холодильная камера тихого охлаждения

6. a тихий, негромкий, приглушённый

still voice — тихий голос

7. a неигристый

8. adv неподвижно, спокойно, тихо

time stood still — время остановилось

his heart stood still — у него замерло сердце

still fermentation — тихое брожение

still retort — неподвижный автоклав

still water speed — скорость на тихой воде

still water rolling — бортовая качка на тихой воде

9. v успокаивать, утихомиривать

10. v заставить замолчать, заставить остановиться

11. v утолять, унимать, успокаивать

to still hunger — утолить голод

12. v редк. успокаиваться

the storm had stilled — буря утихла

13. adv до сих пор, ещё, по-прежнему

he is still busy — он ещё занят

he is still working — он все ещё работает

I am still looking for an explanation — я всё ещё ищу объяснения

her face was still unlined — у неё ещё не было морщин

the custom still survives — этот обычай ещё существует

the ship is still unsighted — корабля всё ещё не видно

he is old but still quite able — он стар, по ещё крепок

she still continues in weak health — она всё ещё нездорова

14. adv ещё

still taller, taller still — ещё выше

we are still hoping — мы ещё не потеряли надежды

the crops are still unreaped — урожай ещё не снят

he is still in the land of the living — он ещё жив

the treaty was still pending — договор был ещё не заключён

there are still grounds for hope — всё ещё можно надеяться;

15. adv кроме того, ещё

he gave another reason still — он привёл ещё одну причину

my tooth still hurts a little — зуб всё ещё болит немного

my doubts are still unsolved — мои сомнения ещё не разрешены

the table is still unlaid — стол ещё не накрыт

he is still above-ground — он ещё не в могиле

the wound still rankles — рана ещё не зажила

16. cj всё же, тем не менее, однако

the pain was bad still he did not complain — боль была сильной, однако он не жаловался

the war still went on — война всё шла

she was still ashiver — она всё ещё дрожала

still the same queer old fellow — он всё такой же чудак

17. n перегонный куб, дистиллятор

steam-heated still — паровой куб; куб с паровым обогревом

steam-bottom still — перегонный куб с нижним вводом пара

pomace still — перегонный аппарат для обработки выжимок

direct fired still — перегонный куб с огневым обогревом

still with water bath — перегонный куб с водяной баней

18. n винокуренный завод

19. v перегонять, дистиллировать

Синонимический ряд:

1. airless (adj.) airless; windless

2. motionless (adj.) at rest; immobile; in place; inert; motionless; quiescent; stationary; stock-still; stone-still; unmoving

3. peaceful (adj.) calm; halcyon; pacific; peaceable; peaceful; placid; quiet; serene; stilly; tranquil; untroubled

4. silent (adj.) hush; hushed; hushful; inaudible; mute; noiseless; quiet; silent; soundless; stilly; whist

5. silence (noun) hush; noiselessness; peace; quiet; quietness; quietude; silence; soundlessness; stillness; tranquility

6. calm (verb) allay; appease; balm; becalm; calm; comfort; compose; pacify; settle; smooth; soothe; tranquilize; tranquillise; tranquillize

7. silence (verb) choke off; hush; muffle; mute; quiet; shush; shut up; silence; smother; stifle

8. stop (verb) arrest; check; curb; lull; slack; stall; stop

9. also (other) additionally; again; along; also; and yet; as well; besides; but; further; furthermore; futhermore; into the bargain; item; likewise; more; moreover; then; to boot; too; yea; yet

10. motionlessly (other) motionlessly; stock-still

11. nevertheless (other) after all; after all is said and done; all the same; anyhow; anyway; at any rate; be that as it may; even; even so; howbeit; however; in any case; in any event; in spite of everything; nevertheless; nonetheless; notwithstanding; per contra; regardless; still and all; still and all (US); though; withal; yet

Антонимический ряд:

activity; exacerbate; excite; loud; mobile; moved; moving; noise; noisy; stirring; stormy; transitional; tumultuous

steam powered water still

1. паровой аквадистиллятор

 

паровой аквадистиллятор
Аквадистиллятор, в котором нагревание воды осуществляется теплом, получаемым от пара.
[ ГОСТ 20887-75]

Тематики

• аквадистилляторы

EN

• steam heated water still
• steam powered water still

DE

• Destillierapparat mit Dampfbeheizung

rectifying still

куб ректификационного аппарата

steam-heated still — паровой куб; куб с паровым обогревом

steam-bottom still — перегонный куб с нижним вводом пара

pomace still — перегонный аппарат для обработки выжимок

direct fired still — перегонный куб с огневым обогревом

still with water bath — перегонный куб с водяной баней

reducing still

куб для отгона легких фракций

steam-heated still — паровой куб; куб с паровым обогревом

steam-bottom still — перегонный куб с нижним вводом пара

pomace still — перегонный аппарат для обработки выжимок

direct fired still — перегонный куб с огневым обогревом

still with water bath — перегонный куб с водяной баней

vertical still

вертикальный перегонный куб

steam-heated still — паровой куб; куб с паровым обогревом

steam-bottom still — перегонный куб с нижним вводом пара

pomace still — перегонный аппарат для обработки выжимок

direct fired still — перегонный куб с огневым обогревом

still with water bath — перегонный куб с водяной баней

Fourdrinier, Henry

SUBJECT AREA: Paper and printing

[br]

b. 11 February 1766 London, England

d. 3 September 1854 Mavesyn Ridware, near Rugeley, Staffordshire, England

[br]

English pioneer of the papermaking machine.

[br]

Fourdrinier's father was a paper manufacturer and stationer of London, from a family of French Protestant origin. Henry took up the same trade and, with his brother Sealy (d. 1847), devoted many years to developing the papermaking machine. Their first patent was taken out in 1801, but success was still far off. A machine for making paper had been invented a few years previously by Nicolas Robert at the Didot's mill at Essonnes, south of Paris. Robert quarrelled with the Didots, who then contacted their brother-in-law in England, John Gamble, in an attempt to raise capital for a larger machine. Gamble and the Fourdriniers called in the engineer Bryan Donkin, and between them they patented a much improved machine in 1807. In the new machine, the paper pulp flowed on to a moving continuous woven wire screen and was then squeezed between rollers to remove much of the water. The paper thus formed was transferred to a felt blanket and passed through a second press to remove more water, before being wound while still wet on to a drum. For the first time, a continuous sheet of paper could be made. Other inventors soon made further improvements: in 1817 John Dickinson obtained a patent for sizing baths to improve the surface of the paper; while in 1820 Thomas Crompton patented a steam-heated drum round which the paper was passed to speed up the drying process. The development cost of £60,000 bankrupted the brothers. Although Parliament extended the patent for fourteen years, and the machine was widely adopted, they never reaped much profit from it. Tsar Alexander of Russia became interested in the papermaking machine while on a visit to England in 1814 and promised Henry Fourdrinier £700 per year for ten years for super-intending the erection of two machines in Russia; Henry carried out the work, but he received no payment. At the age of 72 he travelled to St Petersburg to seek recompense from the Tsar's successor Nicholas I, but to no avail. Eventually, on a motion in the House of Commons, the British Government awarded Fourdrinier a payment of £7,000. The paper trade, sensing the inadequacy of this sum, augmented it with a further sum which they subscribed so that an annuity could be purchased for Henry, then the only surviving brother, and his two daughters, to enable them to live in modest comfort. From its invention in ancient China (see Cai Lun), its appearance in the Middle Ages in Europe and through the first three and a half centuries of printing, every sheet of paper had to made by hand. The daily output of a hand-made paper mill was only 60–100 lb (27–45 kg), whereas the new machine increased that tenfold. Even higher speeds were achieved, with corresponding reductions in cost; the old mills could not possibly have kept pace with the new mechanical printing presses. The Fourdrinier machine was thus an essential element in the technological developments that brought about the revolution in the production of reading matter of all kinds during the nineteenth century. The high-speed, giant paper-making machines of the late twentieth century work on the same principle as the Fourdrinier of 1807.

[br]

Further Reading

R.H.Clapperton, 1967, The Paper-making Machine, Oxford: Pergamon Press. D.Hunter, 1947, Papermaking. The History and Technique of an Ancient Craft, London.

LRD

Cowper, Edward Alfred

SUBJECT AREA: Metallurgy

[br]

b. 10 December 1819 London, England

d. 9 May 1893 Weybridge, Surrey, England

[br]

English inventor of the hot-blast stove used in ironmaking.

[br]

Cowper was apprenticed in 1834 to John Braithwaite of London and in 1846 obtained employment at the engineers Fox \& Henderson in Birmingham. In 1851 he was engaged in the contract drawings for the Crystal Palace housing the Great Exhibition, and in the same year he set up in London as a consulting engineer. Cowper designed the 211 ft (64.3 m) span roof of Birmingham railway station, the first large-span station roof to be constructed. Cowper had an inventive turn of mind. While still an apprentice, he devised the well-known railway fog-signal and, at Fox \& Henderson, he invented an improved method of casting railway chairs. Other inventions included a compound steam-engine with receiver, patented in 1857; a bicycle wheel with steel spokes and rubber tyre (1868); and an electric writing telegraph (1879). Cowper's most important invention by far was the hot-blast stove, the first application of C.W. Siemens's regenerative principle to ironmaking, patented in 1857. Waste gases from the blast furnace were burnt in an iron chamber lined with a honeycomb of firebricks. When they were hot, the gas was directed to a second similar chamber while the incoming air blast for the blast furnace was heated by passing it through the first chamber. The stoves alternatively received and gave up heat and the heated blast, introduced by J.B. Neilson, led to considerable fuel economies in blast-furnace operation; the system is still in use. Cowper played an active part in the engineering institutions of his time, becoming President of the Institution of Mechanical Engineers in 1880–1. He was commissioned by the Science and Art Department to catalogue the collections of machinery and inventions at the South Kensington Museum, whose science collections now form the Science Museum, London.

[br]

Principal Honours and Distinctions

President, Institution of Mechanical Engineers 1880–1.

Further Reading

Obituary, 1893, Journal of the Iron and Steel Institute: 172–3, London.

W.K.V.Gale, 1969, Iron and Steel, London: Longmans, pp. 42, 75 (describes his hot-blast stoves).

LRD

Hero of Alexandria

SUBJECT AREA: Architecture and building, Mechanical, pneumatic and hydraulic engineering, Photography, film and optics, Steam and internal combustion engines

[br]

fl. c.62 AD Alexandria

[br]

Alexandrian mathematician and mechanician.

[br]

Nothing is known of Hero, or Heron, apart from what can be gleaned from the books he wrote. Their scope and style suggest that he was a teacher at the museum or the university of Alexandria, writing textbooks for his students. The longest book, and the one with the greatest technological interest, is Pneumatics. Some of its material is derived from the works of the earlier writers Ctesibius of Alexandria and Philo of Byzantium, but many of the devices described were invented by Hero himself. The introduction recognizes that the air is a body and demonstrates the effects of air pressure, as when air must be allowed to escape from a closed vessel before water can enter. There follow clear descriptions of a variety of mechanical contrivances depending on the effects of either air pressure or heated gases. Most of the devices seem trivial, but such toys or gadgets were popular at the time and Hero is concerned to show how they work. Inventions with a more serious purpose are a fire pump and a water organ. One celebrated gadget is a sphere that is set spinning by jets of steam—an early illustration of the reaction principle on which modern jet propulsion depends.

M echanics, known only in an Arabic version, is a textbook expounding the theory and practical skills required by the architect. It deals with a variety of questions of mechanics, such as the statics of a horizontal beam resting on vertical posts, the theory of the centre of gravity and equilibrium, largely derived from Archimedes, and the five ways of applying a relatively small force to exert a much larger one: the lever, winch, pulley, wedge and screw. Practical devices described include sledges for transporting heavy loads, cranes and a screw cutter.

Hero's Dioptra describes instruments used in surveying, together with an odometer or device to indicate the distance travelled by a wheeled vehicle. Catoptrics, known only in Latin, deals with the principles of mirrors, plane and curved, enunciating that the angle of incidence is equal to that of reflection. Automata describes two forms of puppet theatre, operated by strings and drums driven by a falling lead weight attached to a rope wound round an axle. Hero's mathematical work lies in the tradition of practical mathematics stretching from the Babylonians through Islam to Renaissance Europe. It is seen most clearly in his Metrica, a treatise on mensuration.

Of all his works, Pneumatics was the best known and most influential. It was one of the works of Greek science and technology assimilated by the Arabs, notably Banu Musa ibn Shakir, and was transmitted to medieval Western Europe.

[br]

Bibliography

All Hero's works have been printed with a German translation in Heronis Alexandrini opera quae supersunt omnia, 1899–1914, 5 vols, Leipzig. The book on pneumatics has been published as The Pneumatics of Hero of Alexandria, 1851, trans. and ed. Bennet Wood-croft, London (facs. repr. 1971, introd. Marie Boas Hall, London and New York).

Further Reading

A.G.Drachmann, 1948, "Ktesibios, Philon and Heron: A Study in Ancient Pneumatics", Acta Hist. Sci. Nat. Med. 4, Copenhagen: Munksgaard.

T.L.Heath, 1921, A History of Greek Mathematics, Oxford (still useful for his mathematical work).

LRD