-
1 drilling industry
буровая промышленность
Промышленность, занимающаяся выпуском бурового оборудования и химреагентов.
[ http://slovarionline.ru/anglo_russkiy_slovar_neftegazovoy_promyishlennosti/]Тематики
EN
Англо-русский словарь нормативно-технической терминологии > drilling industry
-
2 drilling industry
Большой англо-русский и русско-английский словарь > drilling industry
-
3 drilling industry
буровая промышленность; промышленность, занимающаяся выпуском бурового оборудования и химреагентов
* * *
* * *• промышленность, занимающаяся выпуском бурового оборудования и химреагентовАнгло-русский словарь нефтегазовой промышленности > drilling industry
-
4 drilling industry
-
5 drilling industry
буровая техника.English-Russian dictionary of terms for geological exploration drilling > drilling industry
-
6 drilling industry
industrija bušenja; bušaća tehnika -
7 industry
* * *
- extractive industry
- gas industry
- gas-and-oil producing industry
- gas-processing industry
- gas-production industry
- geophysical industry
- hydrocarbon process industry
- international oil industry
- mineral resource industry
- minerals industry
- mining industry
- natural gas industry
- oil industry
- oil-producing industry
- oil-refining industry
- petrochemical industry
- petroleum industry
- petroleum refining industry
- seismic industry
- well-logging industryАнгло-русский словарь нефтегазовой промышленности > industry
-
8 drilling
drilling ['drɪlɪŋ](UNCOUNT) (in metal, wood) forage m, perçage m; (by dentist) fraisage m;∎ drilling for oil forage m pétrolier►► Petroleum industry drilling platform plate-forme f (de forage);Petroleum industry drilling rig (on land) derrick m, tour f de forage; (at sea) plate-forme f (de forage);Petroleum industry drilling ship navire m de forage -
9 Mining Industry Managers and Officials
эк. тр. "Менеджеры и чиновники в добывающей промышленности" (раздел 181 в "Словаре названий профессий" (DOT); включает в себя 19 профессий)See:Англо-русский экономический словарь > Mining Industry Managers and Officials
-
10 буровая промышленность
Большой англо-русский и русско-английский словарь > буровая промышленность
-
11 ПРЕДИСЛОВИЕ
В связи с непрерывным развитием геологоразведочного и эксплуата-ционного бурения и внедрением в практику геологоразведочных работ новых методов проходки скважин, а также в связи с переходом в широких масштабах на алмазное бурение вполне естествен тот интерес, который проявляют буровики-производственники, конструкторы и научные работники к зарубежной литературе, освещающей данные отрасли техники.В течение ряда лет отделом научно-технической информации Всесоюзного научно-исследовательского института методики и техники разведки (ВИТР) был выполнен значительный объем работ по переводу современной английской и американской технической литературы. В процессе этих работ возникали трудности при переводе технических терминов, что лишний раз подчеркнуло необходимость создания специального англо-русского терминологического словаря по бурению.На основе проделанной работы стало возможным составить словарь терминов, относящихся к роторному, алмазному, ударно-канатному и другим видам бурения. Кроме того, в словарь включены слова, охватывающие основные понятия, относящиеся к бурению шпуров, подземному, термическому, турбинному бурению и инклинометрии. Большое внимание при составлении словаря уделялось и новым методам проходки скважин, в частности бурению с продувкой забоя воздухом.За последние годы в американскую и, частично, английскую техническую литературу все чаще стали проникать затрудняющие перевод профессиональные и специфические выражения. Для отражения этой тенденции в словарь включены термины, имеющие разговорный характер. Чтобы выделить эти термины, перед переводом их сделана оговорка (разг. — разговорный).В основной текст словаря включены также буквенные обозначения существующих стандартов и серий, относящихся к алмазному оборудованию. Это вызвано тем, что в странах английского языка прочно вошла в практику система обозначения диаметров и особенностей конструкций бурового инструмента определенными буквами латинского алфавита. В словаре расшифрованы наиболее часто встречающиеся индексы буровых стандартов и серий и приведен диаметр бурового инструмента в дюймах. В скобках указана страна, где этот стандарт распространен.Из названий фирменных материалов и видов оборудования приводятся лишь те, которые наиболее прочно вошли в периодическую и учебную литературу.В разделе Сокращения приведен ряд наиболее часто встречающихся в технической литературе сокращений. Кроме того, сюда же вошли некоторые сокращения, взятые из сменных рапортов буровых бригад.За основу принята английская орфография. Термины расположены по первому слову словосочетания. В большинстве случаев даются ссылки на синонимы. Термины, имеющие одинаковое или очень близкое значение, отделены запятой. Совершенно различные значения отделяются точкой с запятой. В ряде случаев для более точного перевода в скобках даны пояснения, касающиеся существа данного понятия.Авторы выражают глубокую признательность за товарищескую помощь при составлении еловаря сотрудникам ВИТР И. Я. Серебрину, Г. И. Ширко, Т. Л. Орлоблиной, Н. И. Степановой, Н. Н. Алексееву.При составлении словаря кроме периодической литературы были использованы следующие источники.- Израилева Е. Ю. Англо-русский словарь по нефтепромысловому делу. Гостоптехиздат, М., 1959.- Гольд Б. В., К у гель Р. В. Англо-русский автотракторный словарь. Гостехтеориздат, М., 1954.- Белькинд Л. Д. Англо-русский политехнический словарь. Гос-Техиздат, М., 1946.- Алешин Е. В., Блувштейн В. О., Семенов Ю. В. Словарь английских и американских сокращении. Гос. изд-во иностр. и нац. словарей, М.; 1954; 1957.- Софиано Т. А. Англо-русский геологический словарь. Гостех-теориздат, М., 1957.- Косминский Б. М., Матвеев С. Д., Терпигорева В. Д. Англо-русский горнотехнический словарь. Углетехиздат, М., 1958.- Барон Л. И., Ершов Н. Н. Англо-русский горный словарь. Физматгиз, М., 1958.- Long A. A Glossary of the Diamond Drilling Industry. United States Department of the Interior, Bureau of Mines, Bull. 583, Washington, 1960.- Boone L. Ph. Petroleum Dictionary. Univ. Oklahoma Press, Norman, 1952.- Camming J. D. Diamond Drill Handbook. Published by J. K. Smit of Canada, Ltd., Toronto, Ontario, 1956.- LeRoy L. W., Haun J. D. Subsurface Geology in Petroleum Exploration. Colorado School of Mines, Golden, Colorado, 1958.- Uren L. C. Oil Field Development. N. Y., 1956.- Diccionario Minero-Metalurgico-Geologico-Mineralogico-Petrografico у de Petroleo. Ingles-Espanol, Frances, Aleman, Ruso. por Alejandro Novitzky, Buenos Aires., 1951.English-Russian dictionary of terms for geological exploration drilling > ПРЕДИСЛОВИЕ
-
12 offshore
[ˌɒf'ʃɔː(r)] [AE ˌɔːf-] 1.2) econ. [ funds] offshore3) (in oil industry) [ drilling] offshore, in mare aperto2.1) econ. [ invest] offshore2) (in oil industry) [ work] in alto mare, in mare aperto* * *1) (in or on the sea, not far from the coast: offshore oil-wells.) in mare2) ((of winds) blowing away from the coast, out to sea.) di terra* * *offshore /ɒfˈʃɔ:(r)/A avv.1 (naut.) in mare aperto; in alto mare; al largo2 (econ., ind.) ‘offshore’; all'esteroB a.1 (ind.) situato in mare; offshore: offshore platforms, piattaforme petrolifere offshore; offshore industries, industrie offshore3 (fin.) operante (o che si svolge) all'estero; d'oltremare; offshore: offshore banks, banche offshore (spec. nelle Isole della Manica); offshore mutual fund, fondo d'investimento che opera all'estero; offshore funds, capitali imboscati all'estero● (ind. petrolifera) offshore drilling, perforazione offshore □ offshore drilling rig, gatto selvatico (fig.) □ offshore fishing, pesca d'alto mare □ (naut.) offshore navigation, navigazione in mare aperto □ an offshore oilfield, un giacimento petrolifero sottomarino □ (comm. est., USA) offshore purchases, acquisti fatti all'estero □ ( sport) offshore race, regata d'altura □ (ind. petrolifera) offshore staff, personale di una piattaforma petrolifera (o di gas naturale) □ (naut.) offshore wind, vento di (o da) terra.* * *[ˌɒf'ʃɔː(r)] [AE ˌɔːf-] 1.2) econ. [ funds] offshore3) (in oil industry) [ drilling] offshore, in mare aperto2.1) econ. [ invest] offshore2) (in oil industry) [ work] in alto mare, in mare aperto -
13 Drake, Edwin Laurentine
SUBJECT AREA: Mining and extraction technology[br]b. 29 March 1819 Greenville, New York, USAd. 8 November 1880 Bethlehem, Pennsylvania, USA[br]American pioneer oil driller.[br]He worked on his father's farm, was a clerk in a hotel and a store, and then became an express agent at a railway company in Springfield, Massachusetts, c.1845. After he had been working as a railway conductor in New Haven, Connecticut, for eight years, he resigned because of ill health. Owning some stocks in a Pennsylvania rock-oil company, which gathered oil from ground-level seepages mainly for medicinal use, he was engaged by this company and moved to Titusville, Pennsylvania, at the age of almost 40. After studying salt-well drilling by cable tool, which was still percussive, he became enthusiastic about the idea of using the same method to drill for oil, especially after researches in chemistry had revealed this new sort of fossil energy some years before.As a manager of the Seneca Oil Company, which referred to him as "Colonel" in letters of introduction simply to impress people with such titles, Drake began drilling in 1858, almost at the same time as pole-tool drilling for oil was started in Germany. His main contribution to the technology was the use of an iron pipe driven through the quicksand and the bedrock to prevent the bore-hole from filling. After nineteen months he struck oil at a depth of 21 m (69 ft) in August 1859. This was the first time that petroleum was struck at its source and the first proof of the presence of oil reservoirs within the earth's surface. Drake inaugurated the search for and the exploitation of the deep oil resources of the world and he initiated the science of petroleum engineering which became established at the beginning of the twentieth century.Drake failed to patent his drilling method; he was content being an oil commission merchant and Justice of the Peace in Titusville, which like other places in Pennsylvania became a boom town. Four years later he went to New York, where he lost all his money in oil speculations. He became very ill again and lived in poverty in Vermont and New Jersey until 1873, when he moved to Bethlehem, Pennsylvania, where he was pensioned by the state of Pennsylvania. The city of Titusville erected a monument to him and founded the Drake Museum.[br]Further ReadingDictionary of American Biography, Vol. III, pp. 427–8.Ida M.Tarbell, 1904, "The birth of industry", History of the Standard Oil Company, Vol. I, New York (gives a lively description of the booming years in Pennsylvania caused by Drake's successful drilling).H.F.Williamson and A.R.Daum, 1959, The American Petroleum Industry. The Age of Illumination, Evans ton, Ill.WKBiographical history of technology > Drake, Edwin Laurentine
-
14 Rowland, Thomas Fitch
SUBJECT AREA: Mining and extraction technology[br]b. 15 March 1831 New Haven, Connecticut, USAd. 13 December 1907 New York City, USA[br]American engineer and manufacturer, inventor of off-shore drilling.[br]The son of a grist miller, Rowland worked in various jobs until 1859 when he established his own business for the construction of wooden and iron steamships and for structural iron works, in Greenpoint, Long Island, New York. In 1860 he founded the Continental Works and during the American Civil War he started manufacturing gun carriages and mortar beds. He fitted out many vessels for the navy, and as a contractor for John Ericsson he built heavily armoured war vessels.He continued shipbuilding, but later diversified his business. He devoted great attention to the design of gas-works, constructing innovative storage facilities all over the United States, and he was concerned with the improvement of welding iron and steel plates and other processes in the steel industry. In the late 1860s he also began the manufacture of steam-engines and boilers for use in the new but expanding oil industry. In 1869 he took out a patent for a fixed platform for drilling for oil off-shore up to a depth of 15 m (49 ft). With this idea, just ten years after Edwin Drake's success in on-shore oil drilling in Titusville, Pennsylvania, Rowland pioneered the technology of off-shore drilling for petroleum in which the United States later became the leading nation.[br]Principal Honours and DistinctionsAmerican Society of Civil Engineers: Director 1871–3, Vice-President 1886–7, Honorary Member 1899.Further Reading"Thomas Fitch Rowland", Dictionary of American Biography.1909, "Memoir", Transactions of the American Society of Civil Engineers 62:547–9.WK -
15 Raky, Anton
SUBJECT AREA: Mining and extraction technology[br]b. 5 January 1868 Seelenberg, Taunus, Germanyd. 22 August 1943 Berlin, Germany[br]German inventor of rapid percussion drilling, entrepreneur in the exploration business.[br]While apprenticed at the drilling company of E. Przibilla, Raky already called attention by his reflections towards developing drilling methods and improving tools. Working as a drilling engineer in Alsace, he was extraordinarily successful in applying an entire new hydraulic boring system in which the rod was directly connected to the chisel. This apparatus, driven by steam, allowed extremely rapid percussions with very low lift.With some improvements, his boring rig drilled deep holes at high speed and at least doubled the efficiency of the methods hitherto used. His machine, which was also more reliable, was secured by a patent in 1895. With borrowed capital, he founded the Internationale Bohrgesellschaft in Strasbourg in the same year, and he began a career in the international exploration business that was unequalled as well as breathtaking. Until 1907 the total depth of the drillings carried out by the company was 1,000 km.Raky's rapid drilling was unrivalled and predominant until improved rotary drilling took over. His commercial sense in exploiting the technical advantages of his invention by combining drilling with producing the devices in his own factory at Erkelenz, which later became the headquarters of the company, and in speculating on the concessions for the explored deposits made him by far superior to all of his competitors, who were provoked into contests which they generally lost. His flourishing company carried out drilling in many parts of the world; he became the initiator of the Romanian oil industry and his extraordinary activities in exploring potash and coal deposits in different parts of Germany, especially in the Ruhr district, provoked the government in 1905 into stopping granting claims to private companies. Two years later, he was forced to withdraw from his holding company because of his restless and eccentric character. He turned to Russia and, during the First World War, he was responsible for the reconstruction of the destroyed Romanian oilfields. Thereafter, partly financed by mining companies, he continued explorations in several European countries, and in Germany he was pioneering again with exploring oilfields, iron ore and lignite deposits which later grew in economic value. Similar to Glenck a generation before, he was a daring entrepreneur who took many risks and opened new avenues of exploration, and he was constantly having to cope with a weak financial position, selling concessions and shares, most of them to Preussag and Wintershall; however, this could not prevent his business from collapse in 1932. He finally gave up drilling in 1936 and died a poor man.[br]Principal Honours and DistinctionsDr-Ing. (Hon.) Bergakademie Clausthal 1921.Further ReadingG.P.R.Martin, 1967, "Hundert Jahre Anton Raky", Erdöl-Erdgas-Zeitschrift, 83:416–24 (a detailed description).D.Hoffmann, 1959, 150 Jahre Tiefbohrungen in Deutschland, Vienna and Hamburg: 32– 4 (an evaluation of his technologial developments).WK -
16 Jobard, Jean-Baptiste-Ambroise Marcelin
SUBJECT AREA: Mining and extraction technology[br]b. 14 May 1792 Baissey, Haute-Marne, Franced. 27 October 1861 Brussels, Belgium[br]French technologist, promoter of Belgian industry.[br]After attending schools in Langres and Dijon, Jobard worked in Groningen and Maastricht as a cadastral officer from 1811 onwards. After the Netherlands had been constituted as a new state in 1814, he became a Dutch citizen in 1815 and settled in Brussels. In 1825, when he had learned of the invention of lithography by Alois Senefelder, he retired and established a renowned lithographic workshop in Belgium, with considerable commercial profit. After the political changes which led to the separation of Belgium from the Netherlands in 1830, he devoted his activities to the progress of science and industry in this country, in the traditional idea of enlightenment. His main aim was to promote all branches of the young economy, to which he contributed with ceaseless energy. He cultivated especially the transfer of technology in many articles he wrote on his various journeys, such as to Britain, France, Germany and Switzerland, and he continued to do so when he became the Director of the Museum of Industry in Brussels in 1841, editing its Bulletin until his death. Jobard, as a member of societies for the encouragement of arts and industry in many countries, published on almost any subject and produced many inventions. Being a restless character by nature, and having, in addition, a strong attitude towards designing and constructing, he also contributed to mining technology in 1828 when he was the first European to practise successfully the Chinese method of rope drilling near Brussels.[br]Bibliography1840, Plan d'organisation du Musée de l'industrie, présenté au Ministre de l'interieur, Brussels.1844, Machines à vapeur, arrêtes et instructions, Brussels.1846, Comment la Belgique peut devenir industrielle, à propos de la Société d'exportation, Brussels.considérées comme blason de l'industrie et du commerce, dédié à la Société des inventeurs et protecteurs de l'industrie, Brussels.1855, Discours prononcé à l'assemblée des industriels réunis pour l'adoption de la marque obligatoire, Paris.Further ReadingH.Blémont, 1991, article in Dictionnaire de biographie française, Paris, pp. 676–7 (for a short account of his life).A.Siret, 1888–9, article in Biographie nationale de belgique, Vol. X, Brussels, col. 494– 500 (provides an impressive description of his restless character and a selected bibliography of his many publications.T.Tecklenburg, 1900, Handbuch der Tiefbohrkunde, 2nd edn, Vol. IV, Berlin, pp. 7–8 (contains detailed information on his method of rope drilling).WKBiographical history of technology > Jobard, Jean-Baptiste-Ambroise Marcelin
-
17 Lucas, Anthony Francis
SUBJECT AREA: Mining and extraction technology[br]b. 9 September 1855 Spalato, Dalmatia, Austria-Hungary (now Split, Croatia)d. 2 September 1921 Washington, DC, USA[br]Austrian (naturalized American) mining engineer who successfully applied rotary drilling to oil extraction.[br]A former Second Lieutenant of the Austrian navy (hence his later nickname "Captain") and graduate of the Polytechnic Institute of Graz, Lucas decided to stay in Michigan when he visited his relatives in 1879. He changed his original name, Lucie, into the form his uncle had adopted and became a naturalized American citizen at the age of 30. He worked in the lumber industry for some years and then became a consulting mechanical and mining engineer in Washington, DC. He began working for a salt-mining company in Louisiana in 1893 and became interested in the geology of the Mexican Gulf region, with a view to prospecting for petroleum. In the course of this work he came to the conclusion that the hills in this elevated area, being geological structures distinct from the surrounding deposits, were natural reservoirs of petroleum. To prove his unusual theory he subsequently chose Spindle Top, near Beaumont, Texas, where in 1899 he began to bore a first oil-well. A second drill-hole, started in October 1900, was put through clay and quicksand. After many difficulties, a layer of rock containing marine shells was reached. When the "gusher" came out on 10 January 1901, it not only opened up a new era in the oil and gas business, but it also led to the future exploration of the terrestrial crust.Lucas's boring was a breakthrough for the rotary drilling system, which was still in its early days although its principles had been established by the English engineer Robert Beart in his patent of 1884. It proved to have advantages over the pile-driving of pipes. A pipe with a simple cutter at the lower end was driven with a constantly revolving motion, grinding down on the bottom of the well, thus gouging and chipping its way downward. To deal with the quicksand he adopted the use of large and heavy casings successively telescoped one into the other. According to Fauvelle's method, water was forced through the pipe by means of a pump, so the well was kept full of circulating liquid during drilling, flushing up the mud. When the salt-rock was reached, a diamond drill was used to test the depth and the character of the deposit.When the well blew out and flowed freely he developed a preventer in order to save the oil and, even more importantly at the time, to shut the well and to control the oil flow. This assembly, patented in 1903, consisted of a combined system of pipes, valves and casings diverting the stream into a horizontal direction.Lucas's fame spread around the world, but as he had to relinquish the larger part of his interest to the oil company supporting the exploration, his financial reward was poor. One year after his success at Spindle Top he started oil exploration in Mexico, where he stayed until 1905, when he resumed his consulting practice in Washington, DC.[br]Bibliography1899, "Rock-salt in Louisiana", Transactions of the American Institution of Mining Engineers 29:462–74.1902, "The great oil-well near Beaumont, Texas", Transactions of the AmericanInstitution of Mining Engineers 31:362–74.Further ReadingR.S.McBeth, 1918, Pioneering the Gulf Coast, New York (a very detailed description of Lucas's important accomplishments in the development of the oil industry).R.T.Hill, 1903, "The Beaumont oil-field, with notes on other oil-fields of the Texas region", Transactions of the American Institution of Mining Engineers 33:363–405;Transactions of the American Institution of Mining Engineers 55:421–3 (contain shorter biographical notes).WK -
18 Bissell, George Henry
[br]b. 8 November 1821 Hanover, New Hampshire, USAd. 19 November 1884 New York, USA[br]American promoter of the petroleum industry.[br]Bissell first pursued a career in education, as Professor of Languages at the University of Norwich, Vermont, and then as Superintendent of Schools in New Orleans. After dabbling in journalism, he turned to law and was admitted to the Bar in New York City in 1853. The following year he was deeply impressed by the picture of a derrick on the label on a bottle of brine from Samuel M.Kier's brine well. Bissell saw in it a new possibility of producing petroleum and, with Jonathan G.Elveleth, formed the world's first oil company, the Pennsylvania Rock Oil Company, on 30 December 1854. The Company obtained a sample of oil at Hibbard Farm, Titusville, Pennsylvania, and sent it for examination to Benjamin Silliman Jr, Professor of Chemistry at Yale University. He reported on 16 April 1855 that by simple means nearly all the oil could be converted into useful substances. Bissell acted on this and began drilling near Oil Creek, Pennsylvania. On 27 August 1859 his contractor struck oil at 60 ft (18 m). This date is usually taken as the starting point of the modern oil industry, even though oil had been obtained two years earlier in Europe by drilling near Hannover and at Ploesti in Romania. Bissell returned to New York in 1863 and spent the rest of his life promoting enterprises connected with the oil industry.[br]Further ReadingObituary, 1884, New York Herald, 20 November.W.B.Kaempffert, 1924, A Popular History of American Inventions, New York. I.M.Tarbell, 1904, History of the Standard Oil Company, New York.LRD -
19 Association
╜ Association of Desk and Derrick Clubs of North America Association of Oilwell Servicing Contractors Association of Petroleum Writers American Association of Oilwell Drilling Contractors American Association of Petroleum Geologists American Gas Association American Natural Gas Association American Oil Companies Materials Association British Engineering Standards Association California Natural Gasoline Association Canadian Association of Oilwell Drilling Contractors Canadian Diamond Drilling Association Canadian Engineering Standards Association Canadian Gas Association Canadian Petroleum Association Diamond Core Drill Manufacturers Association European Association of Exploration Geophysicists European Reliability Data Banking Association Independent Natural Gas Association of America Independent Petroleum Association of America Independent Petroleum Association of Canada Industrial Diamond Association of America International Association of Drilling Contractors International Association of Independent Tanker Owners International Association of Seismology and Physics of the Earth's Interior International Association of Testing Materials International Ergonomic Association International Oil Scouts Association International Standardization Association National Association of Corrosion Engineers National Petroleum Association National Petroleum Refiners Association Natural Gasoline Association of America Ocean Mining Association Oil Companies Materials Association Oklahoma Independent Petroleum Association Petroleum Equipment Suppliers Association Petroleum Industry Electrical Association Production Engineering Research Association Synthetic Organic Chemical Manufacturers' Association Western Petroleum Refiners' AssociationБольшой англо-русский и русско-английский словарь > Association
-
20 association
1. связь; ассоциация2. объединение
* * *
- Association of Oilwell Servicing Contractors
- Association of Petroleum Writers
- American Association of Oilwell Drilling Contractors
- American Association of Petroleum Geologists
- American Gas Association
- American Natural Gas Association
- American Oil Companies Materials Association
- British Engineering Standards Association
- California Natural Gasoline Association
- Canadian Association of Oilwell Drilling Contractors
- Canadian Diamond Drilling Association
- Canadian Engineering Standards Association
- Canadian Gas Association
- Canadian Petroleum Association
- Diamond Core Drill Manufacturers Association
- European Association of Exploration Geophysicists
- European Reliability Data Banking Association
- Independent Natural Gas Association of America
- Independent Petroleum Association of America
- Independent Petroleum Association of Canada
- Industrial Diamond Association of America
- International Association of Drilling Contractors
- International Association of Independent Tanker Owners
- International Association of Seismology and Physics of the Earth's Interior
- International Association of Testing Materials
- International Ergonomic Association
- International Oil Scouts Association
- International Standardization Association
- National Association of Corrosion Engineers
- National Petroleum Association
- National Petroleum Refiners Association
- Natural Gasoline Association of America
- Ocean Mining Association
- Oil Companies Materials Association
- Oklahoma Independent Petroleum Association
- Petroleum Equipment Suppliers Association
- Petroleum Industry Electrical Association
- Production Engineering Research Association
- Synthetic Organic Chemical Manufacturers' Association
- Western Petroleum Refiners' AssociationАнгло-русский словарь нефтегазовой промышленности > association
- 1
- 2
См. также в других словарях:
Drilling rig — For a detailed diagram of a Petroleum drilling rig, see List of components of oil drilling rigs. Drilling rig preparing rock blasting … Wikipedia
Drilling engineering — is a subset of petroleum engineering. Drilling engineers design and implement procedures to drill wells as safely and economically as possible. They work closely with the drilling contractor, service contractors, and compliance personnel, as well … Wikipedia
Drilling fluid invasion — is a process that occurs in a well being drilled with higher wellbore pressure than formation pressure. The liquid component of the drilling fluid (known as the mud filtrate) continues to invade the porous and permeable formation until the solids … Wikipedia
Drilling fluid — This article is about fluids used when drilling a well. For fluids used with drill bits during metal working, see cutting fluid. Driller pouring a foaming agent down the rod string on a drilling rig In geotechnical engineering, drilling fluid is… … Wikipedia
Industry — The category describing a company s primary business activity. This category is usually determined by the largest portion of revenue. The New York Times Financial Glossary * * * industry in‧dus‧try [ˈɪndəstri] noun industries PLURALFORM 1.… … Financial and business terms
industry — The category describing a company s primary business activity. This category is usually determined by the largest portion of revenue. Bloomberg Financial Dictionary * * * industry in‧dus‧try [ˈɪndəstri] noun industries PLURALFORM 1. [uncountable] … Financial and business terms
Petroleum industry — The distribution of oil and gas reserves among the world s 50 largest oil companies. The reserves of the privately owned companies are grouped together. The oil produced by the supermajor companies accounts for less than 15% of the total world… … Wikipedia
Diamond Offshore Drilling — Diamond Offshore Drilling, Inc. Type Public (NYSE: DO) S P 500 Component Industry … Wikipedia
Offshore drilling — refers to a mechanical process where a wellbore is drilled through the seabed. It is typically carried out in order to explore for and subsequently produce hydrocarbons which lie in rock formations beneath the seabed. Most commonly, the term is… … Wikipedia
Elevators (drilling rig) — [http://www.glossary.oilfield.slb.com/Display.cfm?Term=elevator,Elevators] , as developed for the drilling industry, is a hinged device with handles that are used to wrap around the tool joint of drill pipe, casing or lift nipples (for collars)… … Wikipedia
Exploration diamond drilling — Drilling rig capable of both diamond and reverse circulation drilling. Exploration diamond drilling is used in the mining industry to probe the contents of known ore deposits and potential sites. By withdrawing a small diameter core of rock from… … Wikipedia