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1 demand for steam
inlet steam — пар на входе; входящий пар
English-Russian big polytechnic dictionary > demand for steam
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2 demand for steam
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3 demand for steam
Металлургия: потребность в паре -
4 demand for steam
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5 demand for steam
расход пара; потребление пара -
6 steam demand
расход пара; потребление пара -
7 demand
потребность; требование; спрос- demand controller - demand diversity - demand flow - demand for steam - demand indicator - demand limiter - demand load - demand loading - demand meter - demand movement - demand reliability - demand-type oxygen regulator - demand valve - demand valve spring - load demand - power demand -
8 demand
1) требование
2) востребование
3) потребляемая мощность
4) потребность
5) спрос
6) стребовать
7) запрос
8) требовать
9) запрашивать
10) спрашивать
– as ahe condition may demand
– be in demand
– demand analysis
– demand curve
– demand factor
– demand for
– demand time
– demand variable
– derived demand
– distribution of demand
– heat demand
– heating demand
– lighting demand
– meet demand
– oxygen demand
– steam demand
– supply and demand
– zero demand
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9 power demand
steam demand — расход пара; потребление пара
hydrogen demand — потребление водорода; расход водорода
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10 power demand
расход тока; потребная мощностьThe English-Russian dictionary general scientific > power demand
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11 Murdock (Murdoch), William
[br]b. 21 August 1754 Cumnock, Ayrshire, Scotlandd. 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 DistinctionsRoyal Society Rumford Gold Medal 1808.Further ReadingS.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.IMcNBiographical history of technology > Murdock (Murdoch), William
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12 потребность в паре
Metallurgy: demand for steamУниверсальный русско-английский словарь > потребность в паре
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13 расход пара
1) Naval: steam flow2) Engineering: steam consumption, steam rate3) Oil: steam flow consumption4) Coolers: vapor discharge (холодильного агента)5) Ecology: steamflow7) Makarov: demand for stream, stream consumption8) Electrical engineering: flow of steam -
14 supply
1. III1) supply smth., smb. supply money (proofs, news, all the coal they need, hands, men, etc.) обеспечивать деньгами и т.д., поставлять /давать/ деньги и т.д.; the office will supply all necessary information контора предоставит всю необходимую информацию2) supply smth. supply a need (a want, a demand, etc.) удовлетворять потребность и т.д.; supply a loss (a deficiency, an absence, a lack, a gap, etc.) восполнить потерю и т.д.2. IVsupply smth. in some manner supply smth. liberally (amply, adequately, permanently, continuously, etc.) щедро и т.д. обеспечивать чем-л.3. Vsupply smb. smth. supply the refugees clothing (them food, etc.) обеспечивать беженцев одеждой и т.д.4. XIbe supplied in some manner be well (poorly, lavishly, etc.) supplied быть хорошо и т.д. обеспеченным; goods will be supplied promptly to order товары немедленно доставляются по заказу; be supplied with smth. be supplied with money (with clothing, with food, etc.) быть обеспеченным /снабженным/ деньгами и т.д.; be supplied with electric light (with water, etc.) иметь электроснабжение и т.д.; pipes are supplied with hot steam к трубам подводится горячий пар; be supplied by smth. rivers are supplied by smaller streams реки питаются водами потоков и речушек5. XVIIIsupply oneself with smth. supply oneself with food (with water, with money, etc.) запастись /обеспечить себя/ пищей и т.д.6. XXI1supply smb., smth. with smth. supply her with what is necessary (an army with provisions, troops with ammunition, Europe with vast quantities of tea, them with money, a community with electricity, etc.) снабжать /обеспечивать/ ее всем необходимым и т.д.; that store supplies us with coffee этот магазин поставляет нам кофе, мы получаем кофе из этого магазина; the cow supplies us with milk корова дает нам молоко; supply smth. to smth. supply manufactured goods to almost every country in the world (goods to the army, electricity to this region, etc.) поставлять промышленные товары почти во все страны мира и т.д.; supply smth. for smb., smth. supply food for the children (books for the schools, milk for the patients, the news for the communiques, etc.) обеспечивать детей едой и т.д.; it supplied the demand for cheap electricity это удовлетворило потребность в дешевой электроэнергии -
15 Darby, Abraham
SUBJECT AREA: Metallurgy[br]b. 1678 near Dudley, Worcestershire, Englandd. 5 May 1717 Madely Court, Coalbrookdale, Shropshire, England[br]English ironmaster, inventor of the coke smelting of iron ore.[br]Darby's father, John, was a farmer who also worked a small forge to produce nails and other ironware needed on the farm. He was brought up in the Society of Friends, or Quakers, and this community remained important throughout his personal and working life. Darby was apprenticed to Jonathan Freeth, a malt-mill maker in Birmingham, and on completion of his apprenticeship in 1699 he took up the trade himself in Bristol. Probably in 1704, he visited Holland to study the casting of brass pots and returned to Bristol with some Dutch workers, setting up a brassworks at Baptist Mills in partnership with others. He tried substituting cast iron for brass in his castings, without success at first, but in 1707 he was granted a patent, "A new way of casting iron pots and other pot-bellied ware in sand without loam or clay". However, his business associates were unwilling to risk further funds in the experiments, so he withdrew his share of the capital and moved to Coalbrookdale in Shropshire. There, iron ore, coal, water-power and transport lay close at hand. He took a lease on an old furnace and began experimenting. The shortage and expense of charcoal, and his knowledge of the use of coke in malting, may well have led him to try using coke to smelt iron ore. The furnace was brought into blast in 1709 and records show that in the same year it was regularly producing iron, using coke instead of charcoal. The process seems to have been operating successfully by 1711 in the production of cast-iron pots and kettles, with some pig-iron destined for Bristol. Darby prospered at Coalbrookdale, employing coke smelting with consistent success, and he sought to extend his activities in the neighbourhood and in other parts of the country. However, ill health prevented him from pursuing these ventures with his previous energy. Coke smelting spread slowly in England and the continent of Europe, but without Darby's technological breakthrough the ever-increasing demand for iron for structures and machines during the Industrial Revolution simply could not have been met; it was thus an essential component of the technological progress that was to come.Darby's eldest son, Abraham II (1711–63), entered the Coalbrookdale Company partnership in 1734 and largely assumed control of the technical side of managing the furnaces and foundry. He made a number of improvements, notably the installation of a steam engine in 1742 to pump water to an upper level in order to achieve a steady source of water-power to operate the bellows supplying the blast furnaces. When he built the Ketley and Horsehay furnaces in 1755 and 1756, these too were provided with steam engines. Abraham II's son, Abraham III (1750–89), in turn, took over the management of the Coalbrookdale works in 1768 and devoted himself to improving and extending the business. His most notable achievement was the design and construction of the famous Iron Bridge over the river Severn, the world's first iron bridge. The bridge members were cast at Coalbrookdale and the structure was erected during 1779, with a span of 100 ft (30 m) and height above the river of 40 ft (12 m). The bridge still stands, and remains a tribute to the skill and judgement of Darby and his workers.[br]Further ReadingA.Raistrick, 1989, Dynasty of Iron Founders, 2nd edn, Ironbridge Gorge Museum Trust (the best source for the lives of the Darbys and the work of the company).H.R.Schubert, 1957, History of the British Iron and Steel Industry AD 430 to AD 1775, London: Routledge \& Kegan Paul.LRD -
16 Alleyne, Sir John Gay Newton
SUBJECT AREA: Metallurgy[br]b. 8 September 1820 Barbadosd. 20 February 1912 Falmouth, Cornwall, England[br]English iron and steel manufacturer, inventor of the reversing rolling mill.[br]Alleyne was the heir to a baronetcy created in 1769, which he succeeded to on the death of his father in 1870. He was educated at Harrow and at Bonn University, and from 1843 to 1851 he was Warden at Dulwich College, to the founder of which the family claimed to be related.Alleyne's business career began with a short spell in the sugar industry at Barbados, but he returned to England to enter Butterley Iron Works Company, where he remained for many years. He was at first concerned with the production of rolled-iron girders for floors, especially for fireproof flooring, and deck beams for iron ships. The demand for large sections exceeded the capacity of the small mills then in use at Butterley, so Alleyne introduced the welding of T-sections to form the required H-sections.In 1861 Alleyne patented a mechanical traverser for moving ingots in front of and behind a rolling mill, enabling one person to manipulate large pieces. In 1870 he introduced his major innovation, the two-high reversing mill, which enabled the metal to be passed back and forth between the rolls until it assumed the required size and shape. The mill had two steam engines, which supplied the motion in opposite directions. These two inventions produced considerable economies in time and effort in handling the metal and enabled much heavier pieces to be processed.During Alleyne's regime, the Butterley Company secured some notable contracts, such as the roof of St Paneras Station, London, in 1868, with the then-unparalleled span of 240 ft (73 m). The manufacture and erection of this awe-inspiring structure was a tribute to Alleyne's abilities. In 1872 he masterminded the design and construction of the large railway bridge over the Old Maas at Dordrecht, Holland. Alleyne also devised a method of determining small quantities of phosphorus in iron and steel by means of the spectroscope. In his spare time he was a skilled astronomical observer and metalworker in his private workshop.[br]Bibliography1875, "The estimation of small quantities of phosphorus in iron and steel by spectrum analysis", Journal of the Iron and Steel Institute: 62.Further ReadingObituary, 1912, Journal of the Iron and Steel Institute: 406–8.LRDBiographical history of technology > Alleyne, Sir John Gay Newton
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17 Macintosh, Charles
[br]b. 29 December 1766 Glasgow, Scotlandd. 25 July 1843 Dunchattan, near Glasgow, Scotland[br]Scottish inventor of rubberized waterproof clothing.[br]As the son of the well-known and inventive dyer George Macintosh, Charles had an early interest in chemistry. At the age of 19 he gave up his work as a clerk with a Glasgow merchant to manufacture sal ammoniac (ammonium chloride) and developed new processes in dyeing. In 1797 he started the first Scottish alum works, finding the alum in waste shale from coal mines. His first works was at Hurlet, Renfrewshire, and was followed later by others. He then formed a partnership with Charles Tennant, the proprietor of a chemical works at St Rollox, near Glasgow, and sold "lime bleaching liquor" made with chlorine and milk of lime from their bleach works at Darnley. A year later the use of dry lime to make bleaching powder, a process worked out by Macintosh, was patented. Macintosh remained associated with Tennant's St Rollox chemical works until 1814. During this time, in 1809, he had set up a yeast factory, but it failed because of opposition from the London brewers.There was a steady demand for the ammonia that gas works produced, but the tar was often looked upon as an inconvenient waste product. Macintosh bought all the ammonia and tar that the Glasgow works produced, using the ammonia in his establishment to produce cudbear, a dyestuff extracted from various lichens. Cudbear could be used with appropriate mordants to make shades from pink to blue. The tar could be distilled to produce naphtha, which was used as a flare. Macintosh also became interested in ironmaking. In 1825 he took out a patent for converting malleable iron into steel by taking it to white heat in a current of gas with a carbon content, such as coal gas. However, the process was not commercially successful because of the difficulty keeping the furnace gas-tight. In 1828 he assisted J.B. Neilson in bringing hot blast into use in blast furnaces; Neilson assigned Macintosh a share in the patent, which was of dubious benefit as it involved him in the tortuous litigation that surrounded the patent until 1843.In June 1823, as a result of experiments into the possible uses of naphtha obtained as a by-product of the distillation of coal tar, Macintosh patented his process for waterproofing fabric. This comprised dissolving rubber in naphtha and applying the solution to two pieces of cloth which were afterwards pressed together to form an impermeable compound fabric. After an experimental period in Glasgow, Macintosh commenced manufacture in Manchester, where he formed a partnership with H.H.Birley, B.Kirk and R.W.Barton. Birley was a cotton spinner and weaver and was looking for ways to extend the output of his cloth. He was amongst the first to light his mills with gas, so he shared a common interest with Macintosh.New buildings were erected for the production of waterproof cloth in 1824–5, but there were considerable teething troubles with the process, particularly in the spreading of the rubber solution onto the cloth. Peter Ewart helped to install the machinery, including a steam engine supplied by Boulton \& Watt, and the naphtha was supplied from Macintosh's works in Glasgow. It seems that the process was still giving difficulties when Thomas Hancock, the foremost rubber technologist of that time, became involved in 1830 and was made a partner in 1834. By 1836 the waterproof coat was being called a "mackintosh" [sic] and was gaining such popularity that the Manchester business was expanded with additional premises. Macintosh's business was gradually enlarged to include many other kinds of indiarubber products, such as rubber shoes and cushions.[br]Principal Honours and DistinctionsFRS 1823.Further ReadingG.Macintosh, 1847, Memoir of Charles Macintosh, London (the fullest account of Charles Macintosh's life).T.Hancock, 1957, Narrative of the Indiarubber Manufacture, London.H.Schurer, 1953, "The macintosh: the paternity of an invention", Transactions of the Newcomen Society 28:77–87 (an account of the invention of the mackintosh).RLH / LRD -
18 raise
1. n повышение, поднятие, увеличение2. n амер. прибавка3. n подъём; дорога в гору4. n горн. восстающая выработка5. v поднимать; повышать6. v подняться7. v помочь поднятьсяto raise snakes — поднять скандал, затеять шумную ссору
to raise hell — устроить скандал, поднять шум
8. v взметать; вздымать9. v извергать; подниматьto raise jack — поднимать шум, скандалить
10. v поднимать; будить, воскрешатьto raise hay — поднимать шум, доставлять неприятности
11. v рел. воскрешать12. v вызывать, возбуждать; порождать13. v начинать, поднимать; затевать14. v поднимать на борьбу15. v повышать, увеличиватьto raise temperature to 100° — поднять температуру до 100°
16. v карт. увеличивать ставку17. v амер. ком. подделать путём переделки обозначенной на документе суммы на более высокую18. v часто возвышать, поднимать19. v возводить; производить; повышать по службе20. v редк. превозносить, восхвалять21. v шотл. выводить из себя, приводить в ярость22. v мат. возводить в степень23. v текст. ворсовать; начёсывать24. v мед. разг. откашливаться, отхаркиватьсяСинонимический ряд:1. addition (noun) accession; accretion; addition; augmentation; increment; rise2. increase (noun) advance; advancement; boost; enlargement; hike; increase; jack; jump; promotion3. advance (verb) advance; exalt; jump; promote; upgrade4. amass (verb) amass; procure; solicit5. arouse (verb) arouse; awaken; call forth; evoke; excite; stir up6. boost (verb) boost; hike; increase; inflate; jack; jack up; up7. build (verb) build; construct; erect; pitch; put up; set up; uprear8. gather (verb) accumulate; allocate; appropriate; assemble; bring together; collect; congregate; congress; forgather; gather; muster; rendezvous9. grow (verb) breed; bring about; cultivate; engender; give rise to; grow; originate; produce; propagate10. incite (verb) abet; foment; incite; instigate; provoke; set; set on; whip up11. intensify (verb) aggravate; amplify; augment; elevate; enhance; enlarge; heighten; intensify12. introduce (verb) bring up; broach; introduce; moot; put forth13. lift (verb) elevate; heave; hoist; lift; loft; pick up; take up; uphold; uplift; upraise14. nurture (verb) foster; nourish; nurture; rear; suckle; support15. pique (verb) pique; rouse; spark; stimulate16. put (verb) ask; pose; put17. resurrect (verb) resurrectАнтонимический ряд:blight; broadcast; calm; cast; compose; confute; contribute; curtail; dampen; debase; decrease; degrade; demolish; demotion; depreciate; depress; destroy; lower; neglect; raze -
19 потребление пара
1) Engineering: steam consumption2) Makarov: demand for stream -
20 нагрузка
demand эл., duty, load, loading, current sink, stress, weight* * *нагру́зка ж.1. мех., эл. loadбез нагру́зки — at no-loadвключа́ть нагру́зку эл. — throw on the loadвключа́ть, напр. генера́тор на нагру́зку — cause, e. g., the generator to pick up (and carry) the loadвключа́ться на нагру́зку — pick up and carry the loadнагру́зка возника́ет в результа́те … — a load arises fromнагру́зка от … — load due to …воспринима́ть нагру́зку — react a loadпод нагру́зкой эл. — under loadпокрыва́ть, напр. пи́ковую нагру́зку — supply, e. g., the peak loadприкла́дывать нагру́зку мех. — loadпринима́ть нагру́зку ( для расчетов) мех. — assume [specify] a load (for calculations)рабо́тать на нагру́зку эл. — operate [work] into load, carry the loadраспределя́ть нагру́зку ме́жду генера́торами ( при параллельной работе) — divide the load between the generators (under parallel operation)сбра́сывать нагру́зку эл. — throw off [shed] the loadснима́ть нагру́зку мех. — unloadстанови́ться под нагру́зку — take (up the) load2. (вентилятора, насоса и т. п.) duty3. тлф., телегр. trafficнагру́зка авари́йного режи́ма — emergency loadакти́вная нагру́зка эл. — resistive loadано́дная нагру́зка элк. брит. — anode load, амер. plate loadаэродинами́ческая нагру́зка — aerodynamic [wind] loadба́зовая нагру́зка эл. — base loadбалла́стная нагру́зка — ballast loadбезопа́сная нагру́зка — safe loadбезындукти́вная нагру́зка — non-inductive loadбесшлако́вочная нагру́зка тепл. — boiler rating without wall clinkeringбытова́я нагру́зка ( энергосистемы) — appliance [residential] loadнагру́зка весо́в, преде́льная — capacityветрова́я нагру́зка — wind loadвибрацио́нная нагру́зка — vibratory loadвнепи́ковая нагру́зка ( энергосистемы) — off-peak loadвнеце́нтренная нагру́зка мех. — eccentric loadвозду́шная нагру́зка ав. — air loadуравнове́шивать возду́шную нагру́зку инерцио́нной — place air load in equilibrium with inertia loadвре́менная нагру́зка — temporary loadвтори́чная нагру́зка ( измерительного трансформатора) — burdenгидростати́ческая нагру́зка — hydrostatic loadгололё́дная нагру́зка ( на провода) — sleet [ice] loadнагру́зка гради́рни, гидравли́ческая — water concentrationдинами́ческая нагру́зка — dynamic [impact] loadдли́тельная нагру́зка — sustained loadё́мкостная нагру́зка — capacitive loadнагру́зка зе́ркала испаре́ния тепл. — water surface duty; rate of evaporation per sq.m. of water surfaceзнакопереме́нная нагру́зка — alternating loadизгиба́ющая нагру́зка — bending loadи́мпульсная нагру́зка — (im)pulse loadиндукти́вная нагру́зка — inductive loadинерцио́нная нагру́зка — inertia(l) loadиспыта́тельная нагру́зка — test loadиспыта́тельная, основна́я нагру́зка (по Ро́квеллу) — major loadиспыта́тельная, предвари́тельная нагру́зка (по Ро́квеллу) — minor loadнагру́зка ка́рты — map detailsнагру́зка конденса́тора, парова́я — rate of condensation per sq.m. of condenser surfaceконсо́льная нагру́зка — cantilever loadкосонапра́вленная нагру́зка — oblique loadнагру́зка ма́ссы ав. — mass loadмгнове́нная нагру́зка — instantaneous loadнагру́зка на крепь — support loadнагру́зка на ось — axle load, load on the axle, axle weightнеподви́жная нагру́зка — (static) quiescent loadнесимметри́чная нагру́зка эл. — unbalanced loadнесогласова́нная нагру́зка эл. — unmatched loadномина́льная нагру́зка — rated [nominal] load, power ratingнормати́вная нагру́зка — proof loadоконе́чная нагру́зка — terminal [terminating] loadосвети́тельная нагру́зка ( энергосистемы) — lighting demand, lighting loadосева́я нагру́зка — axial [thrust] loadотопи́тельная нагру́зка ( энергосистемы) — beating demand, beating loadнагру́зка от поры́ва ве́тра ав. — gust loadпарова́я нагру́зка ( энергосистемы) — steam demand, rate of evaporationнагру́зка парово́го объё́ма — steam space duty, rate of evaporation per cu.m. of steam spaceнагру́зка переме́нного направле́ния — alternating loadпериоди́ческая знакопостоя́нная нагру́зка — intermittent loadпи́ковая нагру́зка ( энергосистемы) — peak loadраспределя́ть пи́ковую нагру́зку — smooth out the peak loadпого́нная нагру́зка стр. — linear load, load per unit lengthподви́жная нагру́зка — movable (static) [live static] loadполе́зная нагру́зка ( на транспорте) — payloadпо́лная нагру́зка — full loadпоса́дочная нагру́зка ав. — landing loadпостоя́нная нагру́зка — permanent [fixed] loadпреде́льная нагру́зка — ultimate loadнагру́зка при торможе́нии — brake loadпрое́ктная нагру́зка — design loadпромы́шленная нагру́зка ( энергосистемы) — industrial load, industrial demandрабо́чая нагру́зка — workloadраспределя́ть рабо́чую нагру́зку равноме́рно — smooth out workloadравноме́рная нагру́зка — uniform loadравноме́рно распределё́нная нагру́зка — uniformly distributed loadразде́льная нагру́зка элк. — split loadразруша́ющая нагру́зка — breaking loadразры́вная нагру́зка текст. — breaking loadраспределё́нная нагру́зка — distributed loadрастя́гивающая нагру́зка — tensile loadрасчё́тная нагру́зка — design loadреакти́вная нагру́зка эл. — reactive loadсжима́ющая нагру́зка мех. — compressive loadсилова́я нагру́зка ( энергосистемы) — power load, power demandсимметри́чная нагру́зка эл. — balanced loadсогласо́ванная нагру́зка — matched loadсосредото́ченная нагру́зка — concentrated loadсплошна́я нагру́зка — continuous loadстати́ческая, вре́менная нагру́зка — temporary static loadстати́ческая, постоя́нная нагру́зка — dead loadнагру́зка стоя́ночного режи́ма ( на энергетическую установку судна) — anchor loadтелефо́нная нагру́зка — telephone trafficтелефо́нная, входя́щая нагру́зка — called telephone trafficтелефо́нная, избы́точная нагру́зка — exuberant telephone trafficтелефо́нная, исходя́щая нагру́зка — calling telephone trafficтелефо́нная, поступа́ющая нагру́зка — the traffic offeredтелефо́нная, поте́рянная нагру́зка — the traffic lostтелефо́нная, прове́рочная нагру́зка — checking telephone trafficтелефо́нная, пропу́щенная нагру́зка — the traffic carriedтелефо́нная, чрезме́рная нагру́зка — overflow trafficтеплова́я нагру́зка ( энергосистемы) — beat demand, beat dutyтормозна́я нагру́зка — brake loadтя́говая нагру́зка — ав. thrust loading; трансп. traction loadуда́рная нагру́зка — impact loadуде́льная нагру́зка — unit loadнагру́зка ходово́го режи́ма ( на энергетическую установку судна) — cruising loadцикли́ческая нагру́зка мех. — cyclic loadнагру́зка электроста́нции — station load
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