pipe mill engineering

pipe mill engineering

pipe mill engineering HÜTT/WALZ Rohrwerks-Engineering n

Rohrwerks-Engineering

Rohrwerks-Engineering n HÜTT/WALZ pipe [tube] mill engineering

отходы трубного производства

Engineering: pipe-mill scrap

самоходный трубосварочный агрегат

Engineering: portable pipe mill (для формовки, сварки и укладки труб из полосовой стали)

стан для стыковой сварки труб

Engineering: butt-weld pipe mill

трубопрокатное оборудование

Engineering: pipe-mill machinery

электротрубосварочный стан

Engineering: electric-weld pipe mill

трубопрокатный стан

1) Engineering: pipe mill, pipe-and-tube mill, pipe-rolling mill, tube mill, tube-rolling mill

2) Sakhalin energy glossary: tubular rolling

трубопрокатный завод

1) Engineering: tube-rolling mill

2) Railway term: tube mill

3) Drilling: pipe mill, pipe plant

фрезер для бурильных труб

1) Engineering: drill pipe mill

2) Oil&Gas technology drill-pipe mill

непрерывный стан для стыковой сварки труб

1) Engineering: continuous butt-weld mill

2) Oil&Gas technology continuous butt-weld pipe mill

shop

1) цех

2) мастерская; (небольшой) завод

3) склад

4) швейн. секция сборки и окончательной отделки изделия

5) магазин

6) бригада стеклодувов

•

-
arc-furnace melting shop
-
arc-furnace shop
-
assembly shop
-
auto repair shop
-
blank production shop
-
blowing shop
-
boat-building shop
-
boat shop
-
bolt and rivet shop
-
calender shop
-
closed shop
-
CNC shop
-
computer shop
-
computerized machine shop
-
cooper's shop
-
electrical repair shop
-
engineering shop
-
erecting shop
-
fitting shop
-
fitting-out shop
-
floating shop
-
food shop
-
forging shop
-
frozen food shop
-
high-style shop
-
hull shop
-
instrument shop
-
jobbing shop
-
job shop
-
kiln shop
-
ladle-repair shop
-
locomotive shop
-
machine shop
-
mill guide shop
-
mine maintenance shop
-
mixture-preparation shop
-
molding shop
-
open shop
-
overhaul shop
-
painting shop
-
pipe control shop
-
pipe shop
-
polishing shop
-
press shop
-
printing shop
-
recapping shop
-
repairing shop
-
repair shop
-
roll shop
-
roll-turning shop
-
sagger shop
-
scene shop
-
stamping shop
-
staple product shop
-
test shop
-
tire repair shop
-
toolmaker's shop
-
trade shop
-
wheel shop
-
winding shop

установка

adjustment, apparatus, arrangement, array геофиз., complex, configuration, device, erection, facility, fitting, mill, gear, incorporation, insertion электрон., installation, layout, mount, mounting, outfit, placement, plant, rig, rigging, set, set-in, setting, setup, site, system, unit

* * *

устано́вка ж.

1. ( оборудование) installation; ( агрегат) plant, set; (в зависимости от производства, получения какого-л. продукта, материала и т. п.) plant

2. (процесс сборки, монтажа) installation, erection, mounting, assembly

3. ( регулировка величины по прибору) adjustment; ( конкретной величины) setting

абсорбцио́нная устано́вка — absorption plant, absorption unit

устано́вка авари́йного пита́ния — emergency power supply unit

агломери́рующая устано́вка — sintering plant

бо́йлерная устано́вка — heating-water converter plant

бурова́я устано́вка — drilling rig

быстрозамора́живающая устано́вка — quick-freeze plant

устано́вка валко́в — roll adjustment; roll setting

ветроэнергети́ческая устано́вка — wind-driven electric plant

винтомото́рная устано́вка ав. — power plant

водоподготови́тельная устано́вка — water-treatment system

водоумягчи́тельная устано́вка — water softener

возду́шно-трелё́вочная устано́вка — flying machine, aerial skidder

вулканизацио́нная устано́вка — vulcanizing plant

выпарна́я устано́вка — evaporator system

выпарна́я, многоко́рпусная устано́вка — multiple-effect evaporator battery, multiple-effect evaporator system

выпарна́я, одноко́рпусная устано́вка — single-effect evaporator system

выпарна́я, прямото́чная устано́вка — forward-feed evaporator battery, forward-feed evaporator system

выпарна́я устано́вка с паралле́льным пита́нием — parallel-feed evaporator battery, parallel-feed evaporator system

выпарна́я устано́вка с паралле́льным то́ком ( не путать с устано́вкой паралле́льного пита́ния) — forward-feed evaporator battery, forward-feed system (not to be confused with a parallel-feed system)

выпарна́я устано́вка с противото́ком — backward-feed evaporator battery, backward-feed evaporator system

устано́вка высотоме́ра ав. — altimeter setting

устано́вка высотоме́ра по давле́нию на аэродро́ме ав. — QFE setting

устано́вка высотоме́ра по давле́нию на у́ровне мо́ря — QNH setting

газогенера́торная устано́вка — gas generator, gas-generating plant

газотурби́нная устано́вка — gas-turbine plant

генера́торная устано́вка — generating plant, generating set

гидрогенизацио́нная устано́вка — hydrogenation unit

гидросилова́я устано́вка — water-power plant

гребна́я устано́вка мор. — propulsion plant

дви́гательная устано́вка — propulsion system, power plant, power unit

дви́гательная, турби́нная устано́вка — turbine propulsion unit

дегазацио́нная устано́вка — decontamination plant

дезинфекцио́нно-душева́я устано́вка — disinfecting shower unit

ди́зельная устано́вка — diesel (engine) plant

ди́зель-электри́ческая устано́вка — diesel-electric plant

устано́вка для вакууми́рования метал. — degassing plant

устано́вка для вакууми́рования в ковше́ метал. — ladle degassing plant

устано́вка для кондициони́рования во́здуха — см. установка кондиционирования воздуха

устано́вка для приготовле́ния формо́вочного песка́ — sand-conditioning plant

устано́вка для размора́живания — thawer, defroster

устано́вка для сублимацио́нной су́шки — freeze-drier, freeze-drying plant

дождева́льная устано́вка — sprinkler installation, sprinkler system

дозиро́вочная устано́вка стр. — proportioning plant

дои́льная устано́вка — milking installation, milking plant

дои́льная устано́вка для дое́ния в молокопрово́д — pipe-line milking installation

дои́льная устано́вка для дое́ния во фля́ги — in-churn milking outfit

дои́льная, передвижна́я устано́вка — movable milking installation

дои́льная, стациона́рная устано́вка — parlour milking installation

дои́льная устано́вка ти́па ё́лочка — herring-bone (milking) bail

дробестру́йная устано́вка — shot-blast unit

устано́вка жи́дкого азо́та — liquid-nitrogen (production) plant

устано́вка жи́дкого во́здуха — liquid-air (production) plant

индукцио́нная электротерми́ческая устано́вка — induction (electrothermic) plant

устано́вка интерва́лов ( в печатающем устройстве) вчт. — line adjustment

испари́тельная устано́вка — evaporator installation

испыта́тельная устано́вка — test unit

кислоро́дная устано́вка — oxygen plant

компле́ктная устано́вка — package plant

компре́ссорная устано́вка — compressor plant

устано́вка кондициони́рования во́здуха — air conditioning installation, air conditioning plant, air conditioner

кормоприготови́тельная устано́вка — feed-processing plant

корообди́рочная устано́вка дер.-об. — barker

коте́льная устано́вка — boiler installation, boiler plant

криоге́нная устано́вка — cryogenic plant

лаборато́рная устано́вка — laboratory-scale plant

ла́зерная, голографи́ческая устано́вка — hololaser

модели́рующая устано́вка — simulator

морози́льная устано́вка — freezing installation, freezing plant

мусоросжига́тельная устано́вка — (refuse) incinerator

нагрева́тельная устано́вка — heating installation, heating plant, heating unit

насо́сная устано́вка — pump(ing) plant

устано́вка на фо́кус — focusing

устано́вка непреры́вного о́тжига — continuous annealing installation

устано́вка непреры́вной разли́вки — continuous casting plant

устано́вка нивели́ра — level set-up, level setting

… тре́буется не́сколько устано́вок нивели́ра … — several level set-ups [level settings] may be necessary

устано́вка нулевы́х у́ровней ( в операционном усилителе) — zero adjustment, zero setting, balance check, balancing

устано́вка нуля́ — zero adjustment

обеспы́ливающая устано́вка — dust catcher, dust-collecting plant

обессо́ливающая устано́вка ( в водообработке) — demineralizing plant

о́бжиговая устано́вка — метал., хим. calcining [roasting] plant; (в производстве огнеупоров и др. керамических изделий) burning [firing] plant

обраба́тывающая устано́вка — processing plant

устано́вка опо́р эл. — support erection

опресни́тельная устано́вка — (water-)desalinating plant

о́пытная устано́вка ( не путать с эксперимента́льной устано́вкой) — pilot(-scale) plant (not to be confused with experimental plant)

ороси́тельная устано́вка — sprinkler installation, sprinkler system

освети́тельная устано́вка — lighting installation, lighting plant, lighting equipment

отопи́тельная устано́вка — heating installation, heating plant

устано́вка паралле́льного пита́ния — parallel-feed system

паросилова́я устано́вка — steam power plant

паротурби́нная устано́вка — steam-turbine plant

перего́нная устано́вка — distillation plant, distillation unit

пла́зменная, электродугова́я устано́вка — archeated plasma chamber

устано́вка подтона́льного телеграфи́рования — брит. sub-audio telegraph set; амер. composite set

подъё́мная устано́вка — hoisting plant

устано́вка пожаротуше́ния — extinguishing installation

устано́вка по перерабо́тке — processing plant

устано́вка по перерабо́тке тряпья́ — rag-processing plant

предвари́тельная устано́вка — presetting

устано́вка предвари́тельного охлажде́ния — precooler

промы́шленная устано́вка — commercial [full-scale] plant

пускова́я устано́вка косм. — launcher

пылеприготови́тельная устано́вка — coal-pulverizing plant

пылеулови́тельная устано́вка — dust removal [dust collecting] plant

радиацио́нная устано́вка — radiation plant

радиацио́нно-биологи́ческая устано́вка [РБУ] — radiobiological plant

радиацио́нно-физи́ческая устано́вка [РФУ] — radiophysical plant

радиацио́нно-хими́ческая устано́вка — radiochemical plant

радиоизото́пная устано́вка — radioisotope plant

радиолокацио́нная устано́вка — radar installation

резе́рвная устано́вка — stand-by plant

рентге́новская устано́вка — X-ray apparatus

рефрижера́торная устано́вка — refrigerating plant

сва́рочная устано́вка — welding unit

сва́рочная, двухпостова́я устано́вка — two-operator welding unit

сва́рочная, однопостова́я устано́вка — single-operator welding unit

силова́я устано́вка — propulsion system, power plant, power unit

осуществля́ть комплекта́цию силово́й устано́вки — build up a power plant

разукомплекто́вывать силову́ю устано́вку — tear down a power plant

силова́я, винтомото́рная устано́вка — engine-propeller power plant

силова́я, возду́шно-реакти́вная устано́вка — air-breathing power plant

силова́я, вспомога́тельная устано́вка — auxiliary power unit, APU

смеси́тельная устано́вка — mixer, mixing plant

устано́вка столбо́в — pole setting, poling

телевизио́нная устано́вка — TV camera unit

теплосилова́я устано́вка — thermal power plant

термоопресни́тельная устано́вка — thermal desalting plant

устано́вка техни́ческого кислоро́да — tonnage oxygen plant

трави́льная устано́вка метал. — pickling installation

трубосва́рочная устано́вка — tube-welding [pipe-welding] plant

турби́нная устано́вка — turbine plant

турбогенера́торная устано́вка — turbine-generator set, turbogenerator

хи́мико-технологи́ческая устано́вка — chemical engineering plant

хи́мико-технологи́ческая, полузаводска́я устано́вка — pilot(-scale process) plant

хи́мико-технологи́ческая, сте́ндовая устано́вка — bench-scale (process) plant

хлопкоочисти́тельная устано́вка — cotton cleaner, gin

хлора́торная устано́вка — chlorination plant

холоди́льная устано́вка — refrigerating plant

эксперимента́льная устано́вка — experimental plant

электри́ческая устано́вка — electrical installation

энергосилова́я устано́вка — power plant

вальцовка

1) Engineering: expander (инструмент для развальцовки концов труб), milling, stretching rolls (вальцевальный станок для пил), tube expander

2) Forestry: rolling ( e.g. saws), tensioning (e.g. saws)

3) Oil: preparing room, roller

4) Mechanic engineering: expansion

5) Drilling: rolling

6) Sakhalin energy glossary: Tube expanding, UOE ( large diameter pipe manufacturing process) (Е)

7) Polymers: mill massing

8) Automation: roll forging (в ковочных вальцах)

9) Plastics: rolling stock

10) General subject: center former

Murdock (Murdoch), William

SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering, Public utilities

[br]

b. 21 August 1754 Cumnock, Ayrshire, Scotland

d. 15 November 1839 Handsworth, Birmingham, England

[br]

Scottish engineer and inventor, pioneer in coal-gas production.

[br]

He was the third child and the eldest of three boys born to John Murdoch and Anna Bruce. His father, a millwright and joiner, spelled his name Murdock on moving to England. He was educated for some years at Old Cumnock Parish School and in 1777, with his father, he built a "wooden horse", supposed to have been a form of cycle. In 1777 he set out for the Soho manufactory of Boulton \& Watt, where he quickly found employment, Boulton supposedly being impressed by the lad's hat. This was oval and made of wood, and young William had turned it himself on a lathe of his own manufacture. Murdock quickly became Boulton \& Watt's representative in Cornwall, where there was a flourishing demand for steam-engines. He lived at Redruth during this period.

It is said that a number of the inventions generally ascribed to James Watt are in fact as much due to Murdock as to Watt. Examples are the piston and slide valve and the sun-and-planet gearing. A number of other inventions are attributed to Murdock alone: typical of these is the oscillating cylinder engine which obviated the need for an overhead beam.

In about 1784 he planned a steam-driven road carriage of which he made a working model. He also planned a high-pressure non-condensing engine. The model carriage was demonstrated before Murdock's friends and travelled at a speed of 6–8 mph (10–13 km/h). Boulton and Watt were both antagonistic to their employees' developing independent inventions, and when in 1786 Murdock set out with his model for the Patent Office, having received no reply to a letter he had sent to Watt, Boulton intercepted him on the open road near Exeter and dissuaded him from going any further.

In 1785 he married Mary Painter, daughter of a mine captain. She bore him four children, two of whom died in infancy, those surviving eventually joining their father at the Soho Works. Murdock was a great believer in pneumatic power: he had a pneumatic bell-push at Sycamore House, his home near Soho. The pattern-makers lathe at the Soho Works worked for thirty-five years from an air motor. He also conceived the idea of a vacuum piston engine to exhaust a pipe, later developed by the London Pneumatic Despatch Company's railway and the forerunner of the atmospheric railway.

Another field in which Murdock was a pioneer was the gas industry. In 1791, in Redruth, he was experimenting with different feedstocks in his home-cum-office in Cross Street: of wood, peat and coal, he preferred the last. He designed and built in the backyard of his house a prototype generator, washer, storage and distribution plant, and publicized the efficiency of coal gas as an illuminant by using it to light his own home. In 1794 or 1795 he informed Boulton and Watt of his experimental work and of its success, suggesting that a patent should be applied for. James Watt Junior was now in the firm and was against patenting the idea since they had had so much trouble with previous patents and had been involved in so much litigation. He refused Murdock's request and for a short time Murdock left the firm to go home to his father's mill. Boulton \& Watt soon recognized the loss of a valuable servant and, in a short time, he was again employed at Soho, now as Engineer and Superintendent at the increased salary of £300 per year plus a 1 per cent commission. From this income, he left £14,000 when he died in 1839.

In 1798 the workshops of Boulton and Watt were permanently lit by gas, starting with the foundry building. The 180 ft (55 m) façade of the Soho works was illuminated by gas for the Peace of Paris in June 1814. By 1804, Murdock had brought his apparatus to a point where Boulton \& Watt were able to canvas for orders. Murdock continued with the company after the death of James Watt in 1819, but retired in 1830 and continued to live at Sycamore House, Handsworth, near Birmingham.

[br]

Principal Honours and Distinctions

Royal Society Rumford Gold Medal 1808.

Further Reading

S.Smiles, 1861, Lives of the Engineers, Vol. IV: Boulton and Watt, London: John Murray.

H.W.Dickinson and R.Jenkins, 1927, James Watt and the Steam Engine, Oxford: Clarendon Press.

J.A.McCash, 1966, "William Murdoch. Faithful servant" in E.G.Semler (ed.), The Great Masters. Engineering Heritage, Vol. II, London: Institution of Mechanical Engineers/Heinemann.

IMcN

наружный фрезер

1) Engineering: outside mill

2) Oil: outside pipe cutter

3) Oilfield: outside cutter

sheet

1 n

MECH chapa f, hoja f, lámina f

NUCL, P&R hoja f, lámina f

PAPER hoja f, pliego m

PRINT pliego m

TEXTIL sábana f

WATER TRANSP chapa f, escota f, escotín m, rope, sail trapo m

sheet bend

sheet boiling

sheet calender

sheet-cutting machine

sheet deliverer

sheet erosion

sheet-fed carton printer

sheet-fed machine

sheet feeder

sheet feeding

sheet film

sheet flow

sheet formation

sheet gage

sheet gauge

sheet glass

sheet iron gage

sheet iron gauge

sheet-iron pipe

sheet-iron works

sheet lead

sheet lightning

sheet-metal screw

sheet mill

sheet pile

sheet piling

sheet resistance

sheet signature

sheet steel

sheet steel case

sheet-turning device

sheet of water

2 vt

CONST civil engineering forrar, revestir

Savery, Thomas

SUBJECT AREA: Mechanical, pneumatic and hydraulic engineering

[br]

b. c. 1650 probably Shilston, near Modbury, Devonshire, England

d. c. 15 May 1715 London, England

[br]

English inventor of a partially successful steam-driven pump for raising water.

[br]

Little is known of the early years of Savery's life and no trace has been found that he served in the Army, so the title "Captain" is thought to refer to some mining appointment, probably in the West of England. He may have been involved in the Glorious Revolution of 1688, for later he was well known to William of Orange. From 1705 to 1714 he was Treasurer for Sick and Wounded Seamen, and in 1714 he was appointed Surveyor of the Water Works at Hampton Court, a post he held until his death the following year. He was interested in mechanical devices; amongst his early contrivances was a clock.

He was the most prolific inventor of his day, applying for seven patents, including one in 1649, for polishing plate glass which may have been used. His idea for 1697 for propelling ships with paddle-wheels driven by a capstan was a failure, although regarded highly by the King, and was published in his first book, Navigation Improved (1698). He tried to patent a new type of floating mill in 1707, and an idea in 1710 for baking sea coal or other fuel in an oven to make it clean and pure.

His most famous invention, however, was the one patented in 1698 "for raising water by the impellent force of fire" that Savery said would drain mines or low-lying land, raise water to supply towns or houses, and provide a source of water for turning mills through a water-wheel. Basically it consisted of a receiver which was first filled with steam and then cooled to create a vacuum by having water poured over the outside. The water to be pumped was drawn into the receiver from a lower sump, and then high-pressure steam was readmitted to force the water up a pipe to a higher level. It was demonstrated to the King and the Royal Society and achieved some success, for a few were installed in the London area and a manufactory set up at Salisbury Court in London. He published a book, The Miner's Friend, about his engine in 1702, but although he made considerable improvements, due to excessive fuel consumption and materials which could not withstand the steam pressures involved, no engines were installed in mines as Savery had hoped. His patent was extended in 1699 until 1733 so that it covered the atmospheric engine of Thomas Newcomen who was forced to join Savery and his other partners to construct this much more practical engine.

[br]

Principal Honours and Distinctions

FRS 1706.

Bibliography

1698, Navigation Improved.

1702, The Miner's Friend.

Further Reading

The entry in the Dictionary of National Biography (1897, Vol. L, London: Smith Elder \& Co.) has been partially superseded by more recent research. The Transactions of the Newcomen Society contain various papers; for example, Rhys Jenkins, 1922–3, "Savery, Newcomen and the early history of the steam engine", Vol. 3; A.Stowers, 1961–2, "Thomas Newcomen's first steam engine 250 years ago and the initial development of steam power", Vol. 34; A.Smith, 1977–8, "Steam and the city: the committee of proprietors of the invention for raising water by fire", 1715–1735, Vol. 49; and J.S.P.Buckland, 1977–8, "Thomas Savery, his steam engine workshop of 1702", Vol. 49. Brief accounts may be found in H.W. Dickinson, 1938, A Short History of the Steam Engine, Cambridge University Press, and R.L. Hills, 1989, Power from Steam. A History of the Stationary Steam Engine, Cambridge University Press. There is another biography in T.I. Williams (ed.), 1969, A Biographical Dictionary of Scientists, London: A. \& C.Black.

RLH