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1 first commercial production
начало промышленной выработки
(напр. электрической энергии, тепла)
[А.С.Гольдберг. Англо-русский энергетический словарь. 2006 г.]Тематики
EN
Англо-русский словарь нормативно-технической терминологии > first commercial production
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2 first commercial production
Большой англо-русский и русско-английский словарь > first commercial production
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3 first commercial production
Англо-русский словарь нефтегазовой промышленности > first commercial production
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4 first commercial production
Нефть: начало промышленной добычиУниверсальный англо-русский словарь > first commercial production
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5 production
1. производство; изготовление2. продукция; изделие3. производительность; выработка; добыча
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1. производство; изготовление2. продукция; продукт; изделие
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добыча, дебит, отбор, производительность; производство, изготовление
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1) производство; изготовление; выпуск продукции2) выработка; производительность3) продукция; изделия; продукты4) добыча5) дебит6) естественный выход ( флюидов)•production on salvage basis — эксплуатация до предела рентабельности;
to bean up well production — увеличивать дебит скважины с помощью штуцера;
to gage the production of a well — измерять дебит скважины;
to increase production from an old well — повышать добычу в старой скважине;
to keep a well in production — обеспечивать эксплуатацию скважины;
to place zone on production — вводить горизонт в эксплуатацию;
- annual productionto put on production — вводить( скважину) в эксплуатацию;
- average daily production
- closed-in production
- commercial production
- commercial production of pool
- commingled production
- continuous production
- controlled production
- crude production
- cumulative production
- cumulative gas production
- cumulative oil production
- cumulative stock tank oil production
- cumulative water production
- current production
- current oil production
- daily production
- declining production
- deep production
- deferred production
- dissolved-gas drive production
- dual-tubing string two-zones flow production
- dual-zone production
- elastic water-drive production
- first commercial production
- flow production
- flush production
- follow-up production
- forced production
- future well production
- gas-cap drive production
- gas-expansion drive production
- gas-free production
- global oil production
- gravity elastic water-drive production
- gravity flow production
- gravity water-drive production
- gross production
- incremental oil production
- infill production
- initial production
- initial production after swabbing
- initial production on intermitter
- initial daily production
- intermittent production
- marine production
- multiple-string production
- multiple-zone production
- multizone production
- natural gas production
- offshore production
- oil production
- past production
- peak production
- petroleum production
- petroleum gas production
- planned production
- potential production
- predicted oil production
- preplanned production
- present oil production
- rated production
- sand production
- selective-zone production
- setting production
- shift production
- shut-in production
- simultaneous production
- single-tubing string two-zones flow production
- sour-gas production
- specific production
- stabilized production
- stripper production
- subeconomic production
- test production of pool
- total daily production
- triple-zone production
- two-zone tubing-casing flow production
- ultimate production
- unchecked sand production
- uncurtailed production
- underwater production
- volumetric production
- water production
- water-drive production
- water-free production
- well production* * *Англо-русский словарь нефтегазовой промышленности > production
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6 first
1. n первое2. n началоat first — сначала, сперва
3. n степень бакалавра с отличием первого класса4. n муз. самый высокий голос или самая высокая партия5. n товар первого сорта, высшего качества6. n горн. лучшая кусковая руда; концентрат7. n место в первом классеwho struck the first blow? — кто начал ?, кто первый ударил?
the first speaker — первый выступающий, первый взявший слово
first offender — преступник, совершивший первое преступление
8. a первый по времени, самый ранний9. a первый, начальныйfirst performance — первое представление, премьера
10. a первый, пробный11. a первый, основнойthe first thing to do — первое, что надо сделать
12. a первый попавшийся; первый представившийся; любойask the first man you meet — спросите любого, кого вы встретите
13. a первый, предварительный14. a первый, передний15. a первый, выдающийся, самый знаменитый16. a первосортный, самый лучшийfirst string — лучшие игроки команды, первый состав
17. a первый, ведущий18. adv сперва, сначалаat first. — сначала
at first — сначала,
in the first place — сначала; во-первых
at the first go-of — вначале; сперва; при первой попытке
19. adv впервыеfor the first time — в первый раз; впервые
20. adv скорее, предпочтительноfirst aid — первая помощь; скорая помощь
21. adv первым; в первую очередьto stand first — быть первым; быть в первых рядах
he claimed the right to speak first — он требовал, чтобы ему первому дали слово
ladies first! — проходите, пожалуйста!; сначала дамы!
Синонимический ряд:1. basic (adj.) basic; fundamental; primary2. early (adj.) beginning; early; initial3. initially (adj.) initially; originally; primarily4. least (adj.) least; slightest; smallest5. original (adj.) anterior; beginning; earliest; incipient; initial; maiden; original; pioneer; prime; primeval6. paramount (adj.) paramount; preeminent; superior; supreme7. top (adj.) arch; capital; cardinal; champion; chief; dominant; foremost; greatest; head; headmost; inaugural; key; leading; main; major; outstanding; pre-eminent; premier; principal; top8. beginning (noun) beginning; commencement; outset; start9. firstly (other) firstly; initiallyАнтонимический ряд:finish; last; latest; lowest; secondary; subordinate; subsequent; supplementary; ultimately; unimportant -
7 crude production
English-Russian big polytechnic dictionary > crude production
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8 mine production
English-Russian big polytechnic dictionary > mine production
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9 начало промышленной добычи
Большой англо-русский и русско-английский словарь > начало промышленной добычи
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10 начало промышленной добычи
Русско-английский словарь по нефти и газу > начало промышленной добычи
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11 начало промышленной выработки
начало промышленной выработки
(напр. электрической энергии, тепла)
[А.С.Гольдберг. Англо-русский энергетический словарь. 2006 г.]Тематики
EN
Русско-английский словарь нормативно-технической терминологии > начало промышленной выработки
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12 начало промышленной добычи
Русско-английский словарь нормативно-технической терминологии > начало промышленной добычи
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13 начало промышленной добычи
Универсальный русско-английский словарь > начало промышленной добычи
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14 Monro, Philip Peter
SUBJECT AREA: Chemical technology[br]b. 27 May 1946 London, England[br]English biologist, inventor of a water-purification process by osmosis.[br]Monro's whole family background is engineering, an interest he did not share. Instead, he preferred biology, an enthusiasm aroused by reading the celebrated Science of Life by H.G. and G.P.Wells and Julian Huxley. Educated at a London comprehensive school, Monro found it necessary to attend evening classes while at school to take his advanced level science examinations. Lacking parental support, he could not pursue a degree course until he was 21 years old, and so he gained valuable practical experience as a research technician. He resumed his studies and took a zoology degree at Portsmouth Polytechnic. He then worked in a range of zoology and medical laboratories, culminating after twelve years as a Senior Experimental Officer at Southampton Medical School. In 1989 he relinquished his post to devote himself fall time to developing his inventions as Managing Director of Hampshire Advisory and Technical Services Ltd (HATS). Also in 1988 he obtained his PhD from Southampton University, in the field of embryology.Monro had meanwhile been demonstrating a talent for invention, mainly in microscopy. His most important invention, however, is of a water-purification system. The idea for it came from Michael Wilson of the Institute of Dental Surgery in London, who evolved a technique for osmotic production of sterile oral rehydration solutions, of particular use in treating infants suffering from diarrhoea in third-world countries. Monro broadened the original concept to include dried food, intravenous solutions and even dried blood. The process uses simple equipment and no external power and works as follows: a dry sugar/salts mixture is sealed in one compartment of a double bag, the common wall of which is a semipermeable membrane. Impure water is placed in the empty compartment and the water transfers across the membrane by the osmotic force of the sugar/salts. As the pores in the membrane exclude all viruses, bacteria and their toxins, a sterile solution is produced.With the help of a research fellowship granted for humanitarian reasons at King Alfred College, Winchester, the invention was developed to functional prototype stage in 1993, with worldwide patent protection. Commercial production was expected to follow, if sufficient financial backing were forthcoming. The process is not intended to replace large installations, but will revolutionize the small-scale production of sterile water in scattered third-world communities and in disaster areas where normal services have been disrupted.HATS was awarded First Prize in the small business category and was overall prize winner in the Toshiba Year of Invention, received a NatWest/BP award for technology and a Prince of Wales Award for Innovation.[br]Bibliography1993, with M.Wilson and W.A.M.Cutting, "Osmotic production of sterile oral rehydration solutions", Tropical Doctor 23:69–72.LRD -
15 Carothers, Wallace Hume
[br]b. 27 April 1896 Burlington, Iowa, USAd. 29 April 1937 Philadelphia, Pennsylvania, USA[br]American chemist, inventor of nylon.[br]After graduating in chemistry, Carothers embarked on academic research at several universities, finally at Harvard University. His earliest published papers, from 1923, heralded the brilliance and originality of his later work. In 1928, Du Pont de Nemours persuaded him to forsake the academic world to lead their new organic-chemistry group in a programme of fundamental research at their central laboratories at Wilmington, Delaware. The next nine years were extraordinarily productive, yielding important contributions to theoretical organic chemistry and the foundation of two branches of chemical industry, namely the production of synthetic rubber and of wholly synthetic fibres.Carothers began work on high molecular weight substances yielding fibres and introduced polymerization by condensation: polymerization by addition was already known. He developed a clear understanding of the relation between the repeating structural units in a large molecule and its physical chemical properties. In 1931, Carothers found that chloroprene could be polymerized much faster than isoprene, the monomer in natural rubber. This process yielded polychloroprene or neoprene, a synthetic rubber with improved properties. Manufacture began the following year, and the material has continued to be used for speciality rubbers.There followed many publications announcing new condensations polymers. On 2 January 1935, he obtained a patent for the formation of new polyamides, including one from adipic acid and hexamethylenediamene. After four years of development work, which cost Du Pont some $27 million, this new polyamide, or nylon, reached the stage of commercial production, beginning on 23 October 1938. Nylon stockings appeared the following year and 64 million were sold during the first twelve months. However, Carothers saw none of this spectacular success: he had died by his own hand in 1937, after a long history of gradually intensifying depression.[br]Principal Honours and DistinctionsElected to the National Academy of Science 1936 (he was the first industrial organic chemist to be so honoured).BibliographyH.M.Whitby and G.S.Whitby, 1940, Collected Papers of Wallace H.Carothers on Polymerisation, New York.Further ReadingR.Adams, 1939, memoir, Biographical Memoirs of the National Academy of Sciences 20:293–309 (includes a complete list of Carothers's sixty-two scientific papers and most of his sixty-nine US patents).LRDBiographical history of technology > Carothers, Wallace Hume
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16 Staite, William Edwards
[br]b. 19 April 1809 Bristol, Englandd. 26 September 1854 Caen, France[br]English inventor who did much to popularize electric lighting in early Victorian England and demonstrated the first self-regulating arc lamp.[br]Before devoting the whole of his attention to the electric light, Staite was a partner in a business of iron merchants and patented a method of obtaining extracts and essences. From 1834 he attempted to produce a continuous light by electricity. The first public exhibition of Staite's arc lamp incorporating a fixed-rate clockwork mechanism was given in 1847 to the Sunderland Literary and Philosophical Society. He also demonstrated an incandescent lamp with an iridioplatinum filament. Sir Joseph Wilson Swan recorded that it was attending lectures by Staite in Sunderland, Newcastle and Carlisle that started him on the quest which many years later was to lead to his incandescent lamp.In association with William Petrie (1821–1904), Staite made an important advance in the development of arc lamps by introducing automatic regulation of the carbon rods by way of an electromagnet. This was the first of many self-regulating arc lamps that were invented during the nineteenth century employing this principle. A contributory factor in the success of Staite's lamp was the semi enclosure of the arc in a transparent vessel that reduced the consumption of carbons, a feature not used again until the 1890s. His patents included processes for preparing carbons and the construction of primary cells for arc lighting. An improved lamp used by Staite in a theatrical production at Her Majesty's Theatre, London, in April 1849 may be considered the first commercial success of the electric light in England. In spite of the limitations imposed by the use of primary cells as the only available source of power, serious interest in this system of electric lighting was shown by railway companies and dock authorities. However, after he had developed a satisfactory arc lamp, an end to these early experiments was brought about by Staite's death.[br]BibliographyJuly 1847, British patent no. 1,1783 (electromagnetic regulation of an arc lamp).His manuscript "History of electric light" is in the Institution of Electrical Engineers archives.Further ReadingJ.J.Fahie, 1902, "Staite and Petrie's electric light 1846–1853", Electrical Engineer 30:297–301, 337–40, 374–6 (a detailed reliable account).G.Woodward, 1989, "Staite and Petrie: pioneers of electric lighting", Proceedings of the Institution of Electrical Engineers 136 (Part A): 290–6 GWBiographical history of technology > Staite, William Edwards
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17 Benz, Karl
[br]b. 25 November 1844 Pfaffenrot, Black Forest, Germanyd. 4 April 1929 Ladenburg, near Mannheim, Germany[br]German inventor of one of the first motor cars.[br]The son of a railway mechanic, it is said that as a child one of his hobbies was the repair of Black Forest clocks. He trained as a mechanical engineer at the Karlsruhe Lyzeum and Polytechnikum under Ferdinand Redtenbacher (d. 1863), who pointed out to him the need for a more portable power source than the steam engine. He went to Maschinenbau Gesellschaft Karlsruhe for workshop experience and then joined Schweizer \& Cie, Mannheim, for two years. In 1868 he went to the Benkiser Brothers at Pforzheim. In 1871 he set up a small machine-tool works at Mannheim, but in 1877, in financial difficulties, he turned to the idea of an entirely new product based on the internal-combustion engine. At this time, N.A. Otto held the patent for the four-stroke internal-combustion engine, so Benz had to put his hopes on a two-stroke design. He avoided the trouble with Dugald Clerk's engine and designed one in which the fuel would not ignite in the pump and in which the cylinder was swept with fresh air between each two firing strokes. His first car had a sparking plug and coil ignition. By 1879 he had developed the engine to a stage where it would run satisfactorily with little attention. On 31 December 1879, with his wife Bertha working the treadle of her sewing machine to charge the batteries, he demonstrated his engine in street trials in Mannheim. In the summer of 1888, unknown to her husband, Bertha drove one of his cars the 80 km (50 miles) to Pforzheim and back with her two sons, aged 13 and 15. She and the elder boy pushed the car up hills while the younger one steered. They bought petrol from an apothecary in Wiesloch and had a brake block repaired in Bauschlott by the village cobbler. Karl Benz's comments on her return from this venture are not recorded! Financial problems prevented immediate commercial production of the automobile, but in 1882 Benz set up the Gasmotorenfabrik Mannheim. After trouble with some of his partners, he left in 1883 and formed a new company, Benz \& Cie, Rheinische Gasmotorenfabrik. Otto's patent was revoked in 1886 and in that year Benz patented a motor car with a gas engine drive. He manufactured a 0.8hp car, the engine running at 250 rpm with a horizontal flywheel, exhibited at the Paris Fair in 1889. He was not successful in finding anyone in France who would undertake manufacture. This first car was a three-wheeler, and soon after he produced a four-wheeled car, but he quarrelled with his co-directors, and although he left the board in 1902 he rejoined it soon after.[br]Further ReadingSt J.Nixon, 1936, The Invention of the Automobile. E.Diesel et al., 1960, From Engines to Autos. E.Johnson, 1986, The Dawn of Motoring.IMcN -
18 Swan, Sir Joseph Wilson
[br]b. 31 October 1828 Sunderland, Englandd. 27 May 1914 Warlingham, Surrey, England[br]English chemist, inventor in Britain of the incandescent electric lamp and of photographic processes.[br]At the age of 14 Swan was apprenticed to a Sunderland firm of druggists, later joining John Mawson who had opened a pharmacy in Newcastle. While in Sunderland Swan attended lectures at the Athenaeum, at one of which W.E. Staite exhibited electric-arc and incandescent lighting. The impression made on Swan prompted him to conduct experiments that led to his demonstration of a practical working lamp in 1879. As early as 1848 he was experimenting with carbon as a lamp filament, and by 1869 he had mounted a strip of carbon in a vessel exhausted of air as completely as was then possible; however, because of residual air, the filament quickly failed.Discouraged by the cost of current from primary batteries and the difficulty of achieving a good vacuum, Swan began to devote much of his attention to photography. With Mawson's support the pharmacy was expanded to include a photographic business. Swan's interest in making permanent photographic records led him to patent the carbon process in 1864 and he discovered how to make a sensitive dry plate in place of the inconvenient wet collodian process hitherto in use. He followed this success with the invention of bromide paper, the subject of a British patent in 1879.Swan resumed his interest in electric lighting. Sprengel's invention of the mercury pump in 1865 provided Swan with the means of obtaining the high vacuum he needed to produce a satisfactory lamp. Swan adopted a technique which was to become an essential feature in vacuum physics: continuing to heat the filament during the exhaustion process allowed the removal of absorbed gases. The inventions of Gramme, Siemens and Brush provided the source of electrical power at reasonable cost needed to make the incandescent lamp of practical service. Swan exhibited his lamp at a meeting in December 1878 of the Newcastle Chemical Society and again the following year before an audience of 700 at the Newcastle Literary and Philosophical Society. Swan's failure to patent his invention immediately was a tactical error as in November 1879 Edison was granted a British patent for his original lamp, which, however, did not go into production. Parchmentized thread was used in Swan's first commercial lamps, a material soon superseded by the regenerated cellulose filament that he developed. The cellulose filament was made by extruding a solution of nitro-cellulose in acetic acid through a die under pressure into a coagulating fluid, and was used until the ultimate obsolescence of the carbon-filament lamp. Regenerated cellulose became the first synthetic fibre, the further development and exploitation of which he left to others, the patent rights for the process being sold to Courtaulds.Swan also devised a modification of Planté's secondary battery in which the active material was compressed into a cellular lead plate. This has remained the central principle of all improvements in secondary cells, greatly increasing the storage capacity for a given weight.[br]Principal Honours and DistinctionsKnighted 1904. FRS 1894. President, Institution of Electrical Engineers 1898. First President, Faraday Society 1904. Royal Society Hughes Medal 1904. Chevalier de la Légion d'Honneur 1881.Bibliography2 January 1880, British patent no. 18 (incandescent electric lamp).24 May 1881, British patent no. 2,272 (improved plates for the Planté cell).1898, "The rise and progress of the electrochemical industries", Journal of the Institution of Electrical Engineers 27:8–33 (Swan's Presidential Address to the Institution of Electrical Engineers).Further ReadingM.E.Swan and K.R.Swan, 1968, Sir Joseph Wilson Swan F.R.S., Newcastle upon Tyne (a detailed account).R.C.Chirnside, 1979, "Sir Joseph Swan and the invention of the electric lamp", IEEElectronics and Power 25:96–100 (a short, authoritative biography).GWBiographical history of technology > Swan, Sir Joseph Wilson
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19 Junghans, Siegfried
SUBJECT AREA: Metallurgy[br]b. 1887d. 1954[br]German pioneer of the continuous casting of metals.[br]Junghans was of the family that owned Gebrüder Junghans, one of the largest firms in the German watch-and clockmaking industry. From 1906 to 1918 he served in the German Army, after which he took a course in metallurgy and analytical chemistry at the Technical High School in Stuttgart. Junghans was then given control of the brassworks owned by his family. He wanted to make castings simply and cheaply, but he found that he lacked the normal foundry equipment. By 1927, formulating his ideas on continuous casting, he had conceived a way of overcoming this deficiency and began experiments. By the time the firm was taken over by Wieland-Werke AG in 1931, Junghans had achieved positive results. A test plant was erected in 1932, and commercial production of continuously cast metal followed the year after. Wieland told Junghans that a brassfounder who had come up through the trade would never have hit on the idea: it took an outsider like Junghans to do it. He was made Technical Director of Wielands but left in 1935 to work privately on the development of continuous casting for all metals. He was able to license the process for non-ferrous metals during 1936–9 in Germany and other countries, but the Second World War interrupted his work; however, the German government supported him and a production plant was built. In 1948 he was able to resume work on the continuous casting of steel, which he had been considering since 1936. He pushed on in spite of financial difficulties and produced the first steel by this process at Schorndorf in March 1949. From 1950 he made agreements with four firms to work towards the pilot plant stage, and this was achieved in 1954 at Mannesmann's Huckingen works. The aim of continuous casting is to bypass the conventional processes of casting molten steel into ingots, reheating the ingots and shaping them by rolling them in a large mill. Essentially, in continuous casting, molten steel is drawn through the bottom of a ladle and down through a water-cooled copper mould. The unique feature of Junghans's process was the vertically reciprocating mould, which prevented the molten metal sticking as it passed through. A continuous length of steel is taken off and cooled until it is completely solidified into the required shape. The idea of continuous casting can be traced back to Bessemer, and although others tried to apply it later, they did not have any success. It was Junghans who, more than anybody, made the process a reality.[br]Further ReadingK.Sperth and A.Bungeroth, 1953, "The Junghans method of continuous casting of steel", Metal Treatment and Drop Forging, Mayn.J.Jewkes et al., 1969, The Sources of Invention, 2nd edn, London: Macmillan, pp. 287 ff.LRD -
20 producción
f.1 production, output, net quantity of produce yielded, produce.Ricardo le metió un gol a Tito Richard scored a goal against Tito.2 production.3 production, cultivation.* * *1 production\producción en cadena mass production* * *noun f.production, output* * *SF1) (Com) (=acción) production; (=cantidad) output2) (Literat, Mús) output3) (Cine, Teat) productionproducción propia — (TV) in-house production
* * *1)a) (Com, Econ) (proceso, acción) production; ( cantidad) output, productionb) ( conjunto de obras) output2) (Cin, Teatr, TV) production* * *= making, production, yield, throughput, vintage, release, output, writing, crafting.Ex. A producer is the person with final responsibility for the making of a motion picture, including business aspects, management of the production, and the commercial success of the film.Ex. Early work led to the production of over twenty special schemes in various areas of knowledge.Ex. Priority is awarded to projects with the following aims: oil and gas recovery, drilling, optimum use of natural gas, and maximising the yield by the use of enhanced recovery techniques.Ex. This revision to the Decimal Classification was adopted immediately by BNB, which would otherwise have found great difficulty in classifying much of its throughput.Ex. Bibliometric analyses confirmed that review articles on topics that are generating high levels of research activity tend to have relatively voluminous bibliographies made up of a disproportionate number of citations to source materials of very recent vintage.Ex. But first we must create the conditions for single-mindedness and hence the release of our energies (one senses much pent-up energy mixed up with our professional frustrations).Ex. A slight decline -- about 1% -- in the book title output of US publishers took place in 1988, compared with 1987, largely attributable to a falling-off of mass market paperback output, especially in fiction.Ex. His library, a rare survival of the Graeco-Roman period, comprised his own writings and philosophical readings.Ex. This volume tellingly reveals the many negotiations, improvisations, sleights-of-hand, and slipknots that were a part of the crafting of Hitchcock's films.----* aumento de la producción = increased production.* cadena de producción = production chain, production line.* cadena de producción y distribución, la = supply chain, the.* campo petrolífero de producción regular = marginal field.* capacidad de producción = throughput.* coproducción = coproduction [co-production].* costes de producción = production costs.* costos de producción = production costs.* cuota de producción = production quota.* equipo de producción = production team, production equipment.* incremento de la producción = increased production.* indicador de producción = output indicator.* índice de producción = output indicator.* industria dedicada a la producción de carne de vaca, la = beef industry, the.* medios de producción = means of production.* producción agrícola = agricultural production.* producción alimenticia = food production.* producción asistida por ordenador (CAM) = CAM (computer-aided manufacturing).* producción bibliográfica = literature, bibliographic output.* producción bibliográfica sobre biblioteconomía = library literature.* producción cárnica = meat production.* producción científica = publication output, scientific output, research writings, scholarly literature, scholarly output.* producción científica de investigación = research literature.* producción cinematográfica = film making [filmmaking].* producción conjunta = joint production.* producción de alimentos = food production.* producción de artículos = article productivity.* producción de carne de vaca = beef production.* producción de documentos = document production.* producción de huevos = egg production.* producción de libros = book production, book publishing.* producción de vino = winemaking.* producción editorial = book production, book publishing, publishing output.* producción lechera = milk yield, milk production.* producción literaria = literature.* producción multimedia = media production.* producción teatral = theatre production.* relacionado con la producción = production-related.* tasa de producción = production rate.* vaca dedicada a la producción de leche = milk-producing cow.* zona de producción de trigo = wheatbelt.* * *1)a) (Com, Econ) (proceso, acción) production; ( cantidad) output, productionb) ( conjunto de obras) output2) (Cin, Teatr, TV) production* * *= making, production, yield, throughput, vintage, release, output, writing, crafting.Ex: A producer is the person with final responsibility for the making of a motion picture, including business aspects, management of the production, and the commercial success of the film.
Ex: Early work led to the production of over twenty special schemes in various areas of knowledge.Ex: Priority is awarded to projects with the following aims: oil and gas recovery, drilling, optimum use of natural gas, and maximising the yield by the use of enhanced recovery techniques.Ex: This revision to the Decimal Classification was adopted immediately by BNB, which would otherwise have found great difficulty in classifying much of its throughput.Ex: Bibliometric analyses confirmed that review articles on topics that are generating high levels of research activity tend to have relatively voluminous bibliographies made up of a disproportionate number of citations to source materials of very recent vintage.Ex: But first we must create the conditions for single-mindedness and hence the release of our energies (one senses much pent-up energy mixed up with our professional frustrations).Ex: A slight decline -- about 1% -- in the book title output of US publishers took place in 1988, compared with 1987, largely attributable to a falling-off of mass market paperback output, especially in fiction.Ex: His library, a rare survival of the Graeco-Roman period, comprised his own writings and philosophical readings.Ex: This volume tellingly reveals the many negotiations, improvisations, sleights-of-hand, and slipknots that were a part of the crafting of Hitchcock's films.* aumento de la producción = increased production.* cadena de producción = production chain, production line.* cadena de producción y distribución, la = supply chain, the.* campo petrolífero de producción regular = marginal field.* capacidad de producción = throughput.* coproducción = coproduction [co-production].* costes de producción = production costs.* costos de producción = production costs.* cuota de producción = production quota.* equipo de producción = production team, production equipment.* incremento de la producción = increased production.* indicador de producción = output indicator.* índice de producción = output indicator.* industria dedicada a la producción de carne de vaca, la = beef industry, the.* medios de producción = means of production.* producción agrícola = agricultural production.* producción alimenticia = food production.* producción asistida por ordenador (CAM) = CAM (computer-aided manufacturing).* producción bibliográfica = literature, bibliographic output.* producción bibliográfica sobre biblioteconomía = library literature.* producción cárnica = meat production.* producción científica = publication output, scientific output, research writings, scholarly literature, scholarly output.* producción científica de investigación = research literature.* producción cinematográfica = film making [filmmaking].* producción conjunta = joint production.* producción de alimentos = food production.* producción de artículos = article productivity.* producción de carne de vaca = beef production.* producción de documentos = document production.* producción de huevos = egg production.* producción de libros = book production, book publishing.* producción de vino = winemaking.* producción editorial = book production, book publishing, publishing output.* producción lechera = milk yield, milk production.* producción literaria = literature.* producción multimedia = media production.* producción teatral = theatre production.* relacionado con la producción = production-related.* tasa de producción = production rate.* vaca dedicada a la producción de leche = milk-producing cow.* zona de producción de trigo = wheatbelt.* * *A[ S ] uvas Lacalle; producción argentina Lacalle grapes; produce of Argentina2 (conjunto de obras) outputsu producción dramática es escasa his dramatic output is small, he has not written many playsla producción pictórica de Picasso the works of Picasso, Picasso's paintingsCompuestos:● producción en cadena or seriemass productionsustained yieldvarios países participaron en la producción del programa various countries took part in producing the program o in the production of the programla etapa de producción the production stageuna producción de la BBC a BBC production* * *
producción sustantivo femenino
1 (Com, Econ) (proceso, acción) production;
( cantidad) output, production;
producción en cadena or serie mass production
2 (Cin, Teatr, TV) production
producción sustantivo femenino
1 (proceso) production
producción en serie, mass production
2 (resultado) output, products
la producción aumentó un diez por ciento, production increased by ten percent
producción lechera, dairy produce
3 (de una película, disco, etc) production
' producción' also found in these entries:
Spanish:
elaboración
- error
- excedente
- pantalla
- remanente
- saquería
- sedería
- activar
- arrocero
- aumentar
- cadena
- cuota
- déficit
- disminuir
- diversificar
- impulsar
- lechero
- montar
- paralizar
- reducir
- retrasar
- variar
- vinícola
English:
cut back
- domestic
- foreman
- making
- manufacturing capacity
- mass production
- output
- production
- scale down
- step up
- wind down
- work
- out
* * *producción nf1. [acción] production;[producto] product;se ha incrementado la producción de acero steel production has increased;un autor con una extensa producción poética an author with an extensive poetic outputInd producción en cadena mass production; Ind producción en serie mass production2. Cine & TV production;una producción de TVE a TVE production* * *f production* * *producción nf, pl - ciones1) : production2)producción en serie : mass production* * *1. (elaboración) production¿quién se encarga de la producción? who's in charge of production?2. (productos industriales) output3. (productos agrícolas) produce
См. также в других словарях:
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