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1 bore mining
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2 bore mining
1) Геология: разработка через скважины2) Горное дело: скважинная разработка -
3 bore mining
разработка через скважины; скважинная разработка -
4 bore mining
скважинная разработка, разработка через скважины -
5 hydraulic bore mining installation
English-Russian mining dictionary > hydraulic bore mining installation
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6 mining
горное дело; горная промышленность; разработка месторождения; выемка; горный, горнодобывающий, горнопромышленный, горнотехнический; добыча, отработка, горное производство•
- adit-cut mining
- advancing mining
- alluvial mining
- auger mining
- bench mining
- biological mining
- blast mining
- block mining
- board-and-stoop mining
- bore mining
- breast mining
- bulk mining
- chamber mining
- chute mining
- coal mining
- continuous mining
- cross-pitch mining
- cut-and-fill mining
- drift mining
- exploring mining
- first mining
- flame-mining
- horizon mining
- hydraulic mining
- in situ mining
- in situ solution mining
- large-scale mining
- layer mining
- leaf mining
- lode mining
- long-face mining
- longwall mining
- longwall advancing mining
- longwall retreating mining
- machine mining
- marine mining
- metal mining
- metalliferrous mining
- moly mining
- multilift mining
- multiple entry mining
- oblique mining
- open mining
- open-cast mining
- open-cut mining
- open-pit mining
- ore mining
- outcrop mining
- outward mining
- overburden mining
- overhand mining
- overhead mining
- pick mining
- pillar mining
- pitch mining
- pitching bed mining
- placer mining
- primary mining
- quarry mining
- quartz mining
- remunerative mining
- retreat mining
- rill cut mining
- room-and pillar mining
- room mining
- robot mining
- second mining
- selective mining
- shovel mining
- shrinkage mining
- shuttle-car mining
- sill mining
- stop-and-go mining
- strip mining
- submarine mining
- surface mining
- thick-bed mining
- thin-bed mining
- third mining
- trackless mining
- two-lift mining
- two-pass mining
- two-way mining
- ultra-deep mining
- under-mining
- underground mining
- undersea mining
- upward mining
- waste-fill mining
- wireless mining -
7 bore
bore [bɔ:(r)]1 pt of bear2 noun∎ what a bore she is! ce qu'elle peut être lassante ou fatigante!;∎ visiting them is such a bore! quelle barbe de leur rendre visite!;∎ homework is a real bore! quelle corvée, les devoirs!;∎ the film was a bit of a bore le film était un peu ennuyeux∎ a twelve-bore shotgun un fusil de calibre douze(d) (tidal flood) mascaret m∎ familiar housework bores me stiff or to tears or to death or rigid or out of my mind faire le ménage m'ennuie à mourir;∎ familiar he bores the pants off me il me barbe profondément;∎ I won't bore you with the details je vous passe les détails(b) Technology (drill → hole) percer; (→ well) forer, creuser; (→ tunnel) creuser; (→ cylinder) aléserforer, sonder;∎ to bore through sth percer qch;∎ they're boring for coal ils forent pour extraire du charbon, ils recherchent du charbon par forage;∎ figurative I felt his eyes boring into me je sentais son regard me transpercer -
8 bore-and-fire technique
MINING TERMS ТНТ №119 -
9 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 -
10 Pötsch, Friedrich Hermann
SUBJECT AREA: Mining and extraction technology[br]b. 12 December 1842 Biendorf, near Köthen, Germanyd. 9 June 1902 Dresden, Germany[br]German mine surveyor, inventor of the freezing process for sinking shafts.[br]Pötsch was the son of a forest officer and could not easily attend school, with the consequences that it took him a long time to obtain the scholarly education needed to enable him to begin work on a higher level with the mining administration in the duchy of Anhalt in 1868. Seven years later, he was licensed as a Prussian mining surveyor and in this capacity he worked with the mining inspectorate of Aschersleben. During that time he frequently came across shafts for brown-coal mines which had been sunk down to watery strata but then had to be abandoned. His solution to the problem was to freeze the quicksand with a solution of chloride; this was better than the previous attempts in England to instal cooling coils at the bottom of the shaft. Pötsch's conception implied the construction of ice walls with the means of boreholes and refrigerators. By his method a set of boreholes was driven through the watery strata, the smaller pipes contained within the main bore pipes, providing a channel through which calcium chloride was pumped, returning through the longer pipe until the ground was frozen solid. He obtained a patent in 1883 and many leading international journals reported on the method the same year.In 1884 he established the Internationale Gesselschaft für Schacht-, Brucken-und Tunnelbau in Magdeburg and he also became Director of the Poetsch-Sooy-Smith Freezing Company in New Jersey, which constructed the first freezing shaft in America in 1888.However, Pötsch was successful only for a short period of time and, being a clumsy entrepreneur, he had to dissolve his company in 1894. Unfortunately, his decision to carry out the complete shaft-sinking business did not allow him to concentrate on solving upcoming technical problems of his new process. It was Louis Gebhardt (1861–1924), his former engineer, who took care of development, especially in co-operation with French mining engineers, and thus provided the basis for the freezing process becoming widely used for shaft-sinking in complicated strata ever since.[br]Bibliography1886, Das Gefrierverfahren. Methode für schnelles, sicheres und lotrechtes Abteufen von Schächten im Schwimmsande und uberhaupt im wasserreichen Gebirge; für Herstellung tiefgehender Bruckenpfeiler und für TunnelBauten in rolligem und schwimmendem Gebirge, Freiberg.1889, Geschichtliches über die Entstehung und Herausbildung des Gefrierverfahrens, Magdeburg.1895, Das Gefrierverfahren und das kombinierte Schachtabbohr-und Gefrierverfahren (Patent Pötsch), Freiberg.Further ReadingD.Hoffmann, 1962, AchtJahrzehnte Gefrierverfahren nach Putsch, Essen: Glückauf (the most substantial biography; also covers technological aspects).G.Gach, 1986, In Schacht und Strecke, Essen: Glückauf, pp. 31–53 (provides information on the development of specialized mining companies in Germany originating in the freezing process).WKBiographical history of technology > Pötsch, Friedrich Hermann
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11 ammunition
боеприпас(ы); инж. подрывные средства, ВВ и средства взрывания; боекомплект; мор. боезапас; разг. снаряды; см. тж. munition— air craft ammunition— area-target ammunition— binary chemical ammunition— chemical agent ammunition— fixed type ammunition— scatterable ammunition -
12 Kind, Karl Gotthelf
SUBJECT AREA: Mining and extraction technology[br]b. 6 June 1801 Linda, near Freiberg, Germanyd. 9 March 1873 Saarbrücken, Germany[br]German engineer, pioneer in deep drilling.[br]The son of an ore miner in Saxony, Kind was engaged in his father's profession for some years before he joined Glenck's drillings for salt at Stotternheim, Thuringia. There in 1835, after trying for five years, he self-reliantly put down a 340 m (1,100 ft) deep well; his success lay in his use of fish joints of a similar construction to those used shortly before by von Oeynhausen in Westphalia. In order to improve their operational possibilities in aquiferous wells, in 1842 he developed his own free-fall device between the rod and the drill, which enabled the chisel to reach the bottom of the hole without hindrance. His invention was patented in France. Four years later, at Mondorf, Luxembourg, he put down a 736 m (2,415 ft) deep borehole, the deepest in the world at that time.Kind contributed further considerable improvements to deep drilling and was the first successfully to replace iron rods with wooden ones, on account of their buoyancy in water. The main reasons for his international reputation were his attempts to bore out shafts, which he carried out for the first time in the region of Forbach, France, in 1848. Three years later he was engaged in the Ruhr area by a Belgian-and English-financed mining company, later the Dahlbusch mining company in Gelsenkirchen, to drill a hole that was later enlarged to 4.4 m (14 1/2 ft) and made watertight by lining. Although he had already taken out a patent for boring and lining shafts in 1849 in Belgium, his wooden support did not qualify. It was the Belgian engineer Joseph Chaudron, in charge of the mining company, who overcame the difficulty of making the bottom of the borehole watertight. In 1854 they jointly founded a shaft-sinking company in Brussels which specialized in aquiferous formations and operated internationally.[br]Principal Honours and DistinctionsChevalier de la Légion d'honneur 1849.Bibliography1842, Anleitung zum Abteufen von Bohrlöchern, Luxembourg.Further ReadingH.G.Conrad, "Carl Gotthelf Kind", Neue deutsche Biographie 10:613–14.D.Hoffmann, 1959, 150 Jahre Tiefbohrungen in Deutschland, Vienna and Hamburg, pp. 20–5 (assesses his technological achievements).T.Tecklenburg, 1914, Handbuch der Tiefbohrkunde, 2nd end, Vol. VI, Berlin, pp. 36–9 (provides a detailed description of his equipment).J.Chaudron, 1862, "Über die nach dem Kindschen Erdbohrverfahren in Belgien ausgeführten Schachtbohrarbeiten", Berg-und Hüttenmännische Zeitung 21:402–4, (describes his contribution to making Kind's shafts watertight).WK -
13 Chaudron, Joseph
SUBJECT AREA: Mining and extraction technology[br]b. 29 November 1822 Gosselies, Belgiumd. 16 January 1905 Auderghem, Belgium[br]Belgian mining engineer, pioneer in boring shafts.[br]In 1842, as a graduate of the Ecole des Mines in Liège, he became a member of the Belgian Corps Royal des Mines, which he left ten years later as Chief Engineer. By that time he had become decisively influential in the Société Anglo-Belge des Mines du Rhin, founded in 1848. After it became the Gelsenkirchen-based Bergwerkgesellschaft Dahlbusch in 1873, he became President of its Board of Directors and remained in this position until his death. Thanks to his outstanding technical and financial abilities, the company developed into one of the largest in the Ruhr coal district.When K.G. Kind practised his shaft-boring for the company in the early 1850s but did not overcome the difficulty of making the bottom of the bore-hole watertight, Chaudron joined forces with him to solve the problem and constructed a rotary heading which was made watertight with a box stuffed with moss; rings of iron tubing were placed on this as the sinking progressed, effectively blocking off the aquiferous strata as a result of the hydrostatic pressure which helped support the weight of the tubing until it was secured permanently. The Kind-Chaudron system of boring shafts in the full section marked an important advance upon existing methods, and was completely applied for the first time at a coalmine near Mons, Belgium, in 1854–6. In Brussels Chaudron and Kind founded the Société de Fonçage par le Procédé Kind et Chaudron in 1854, and Chaudron was granted a patent the next year. Foreign patents followed and the Kind-Chaudron system was the one most frequently applied in the latter part of the nineteenth century. Altogether, under Chaudron's control, there were more than eighty shafts sunk in wet strata in Germany, Belgium, France and England.[br]Bibliography1853–4, "Notice sur le procédé inventé par l'ingénieur Kind, pour l"établissement des puits de mines', Annales des travaux publics de Belgique 12:327–38.1862, "Über die nach dem Kindschen Erdbohrverfahren in Belgien ausgefùhrten Schachtbohrarbeiten", Berg-und Hüttenmännische Zeitschrift 21:402−7, 419−21, 444−7.1867, "Notice sur les travaux exécutés en France, en Belgique et en Westphalie de 1862– 1867", Annales des travaux publics de Belgique 25: 136–45.1872, "Remplacement d'un cuvelage en bois par un cuvelage en fonte", Annales destravaux publics de Belgique 30:77–91.Further ReadingD.Hoffmann, 1962, Acht Jahrzehnte Gefrierverfahren nachPötsch, Essen, pp. 12–18 (evaluates the Kind-Chaudron system as a new era).W.Kesten, 1952, Geschichte der Bergwerksgesellschaft Dahlbusch, Essen (gives a delineation of the mining company's flourishing as well as the technical measures under his influence).T.Tecklenburg, 1914, Handbuch der Tiefbohrkunde, 2nd edn, Vol VI, Berlin, pp. 39–58 (provides a detailed description of Chaudron's tubing).WK -
14 Ercker, Lazarus
[br]b. c.1530 Annaberg, Saxony, Germanyd. 1594 Prague, Bohemia[br]German chemist and metallurgist.[br]Educated at Wittenberg University during 1547–8, Ercker obtained in 1554, through one of his wife's relatives, the post of Assayer from the Elector Augustus at Dresden. From then on he took a succession of posts in mining and metallurgy. In 1555 he was Chief Consultant and Supervisor of all matters relating to mines, but for some unknown reason was demoted to Warden of the Mint at Annaberg. In 1558 he travelled to the Tyrol to study the mines in that region, and in the same year Prince Henry of Brunswick appointed him Warden, then Master, of the Mint at Goslar. Ercker later moved to Prague where, through another of his wife's relatives, he was appointed Control Tester at Kutna Hora. It was there that he wrote his best-known book, Die Beschreibung allfürnemisten mineralischen Ertz, which drew him to the attention of the Emperor Maximilian, who made him Courier for Mining and a clerk of the Supreme Court of Bohemia. The next Emperor, Rudolf II, a noted patron of science and alchemy, promoted Ercker to Chief Inspector of Mines and ennobled him in 1586 with the title Von Schreckenfels'. His second wife managed the mint at Kutna Hora and his two sons became assayers. These appointments gained him much experience of the extraction and refining of metals. This first bore fruit in a book on assaying, Probierbüchlein, printed in 1556, followed by one on minting, Münzbuch, in 1563. His main work, Die Beschreibung, was a systematic review of the methods of obtaining, refining and testing the alloys and minerals of gold, silver, copper, antimony, mercury and lead. The preparation of acids, salts and other compounds is also covered, and his apparatus is fully described and illustrated. Although Ercker used Agricola's De re metattica as a model, his own work was securely based on his practical experience. Die Beschreibung was the first manual of analytical and metallurgical chemistry and influenced later writers such as Glauber on assaying. After the first edition in Prague came four further editions in Frankfurt-am-Main.[br]BibliographyDie Beschreibung allfürnemisten mineralischen Ertz, Prague. 1556, Probierbuchlein.1563, Munzbuch.Further ReadingP.R.Beierlein, 1955, Lazarus Ercker, Bergmann, Hüttenmann und Münzmeister im 16. Jahrhundert, Berlin (the best biography, although the chemical details are incomplete).J.R.Partington, 1961, History of Chemistry, London, Vol. II, pp. 104–7.E.V.Armstrong and H.Lukens, 1939, "Lazarus Ercker and his Probierbuch", J.Chem. Ed.16: 553–62.LRD -
15 hole
1. скважина, ствол скважины || бурить скважину2. отверстие; дыра || просверливать, делать отверстие3. шурф, выработка малого сечения || закладывать шпуры4. проушина— big hole— bug hole— dib hole— dry hole— end hole— hole in— key hole— pin hole— rat hole— top hole— up hole— wet hole
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1. скважина2. отверстие— dry hole— wet hole
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1. отверстие; перфорация
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1) скважина; буровая скважина; ствол скважины2) шпур || закладывать шпур3) отверстие ()•hole full of oil — скважина заполнена нефтью;
hole full of salt water — ствол, заполненный солёной водой;
hole full of sulfur water — ствол, заполненный водой, содержащей сероводород;
hole full of water — скважина заполнена водой;
hole gone to water — нефтяная скважина, из которой стала поступать только вода;
to cut a hole — бурить скважину;
to drill a hole — бурить скважину;
to flush a hole — промывать ствол скважины;
to hole in — забуривать скважину;
to keep the hole of gage — поддерживать диаметр ствола скважины близким к номинальному;
to line the hole — крепить скважину обсадной колонны;
to make a hole — бурить скважину; давать проходку, вести проходку;
to open a hole — разбуривать башмак обсадной колонны;
to ream hole — расширять ствол скважины;
to seal a hole — закрывать скважину;
to wash a hole — промывать ствол скважины;
- air holewent back in a hole — вновь спущенный в скважину;
- angled hole
- angled snubbing hole
- angular hole
- auger hole
- bare hole
- barren hole
- bell hole
- bench hole
- big hole
- blank hole
- blast hole
- bleed hole
- blind hole
- bore hole
- bottom hole
- branch hole
- bridged hole
- bug hole
- bung hole
- cable-tool hole
- cased hole
- caved hole
- cave-obstructed hole
- casing hole
- caving hole
- center hole
- charge hole
- churn-drill hole
- circulating hole
- clean hole
- collared hole
- conductor hole
- consolidation hole
- core hole
- cover hole
- crooked hole
- curtain hole
- curved hole
- curving hole
- cushion hole
- dead-end hole
- deadman hole
- deep hole
- definition hole
- deviating hole
- deviated hole
- dia hole
- diamond drilling hole
- dib hole
- dip hole
- directional hole
- discharge hole
- discovery hole
- dog-leg hole
- down hole
- downward sloping hole
- drain hole
- drain branch hole
- drill hole
- drilled hole
- dry hole
- dry hole drilled deeper
- dry hole reentered
- easier hole
- electron beam hole
- elliptical cross-section hole
- elongated cross-section hole
- empty hole
- end hole
- escape hole
- exit hole
- exploration drill hole
- exploratory hole
- favorable-size hole
- filled hole
- filler hole
- filling hole
- flat hole
- fluid-filled hole
- flushing hole
- follow-up hole
- freeze hole
- full-gage hole
- full-gage branch hole
- gage hole
- gas-escape hole
- gas-filled hole
- geophone hole
- gone-off hole
- grout hole
- guide hole
- hammer-drill hole
- high-angle hole
- high-pressure hole
- horizontal hole
- horizontally branched hole
- inclined hole
- in-gage hole
- injected hole
- inspection hole
- intentionally deviated hole
- intermediate hole
- investigation hole
- jet hole
- junked hole
- kelly hole
- kelly rat hole
- key hole
- key seated hole
- large-size hole
- limber hole
- line hole
- lined hole
- liquid-filled hole
- long hole
- lost hole
- lubrication hole
- main hole
- meteorite hole
- mining hole
- misdirected hole
- monitoring hole
- mouse hole
- multiple shot holes
- naked hole
- near gage hole
- observation hole
- offshore hole
- old hole
- open hole
- open-end hole
- original hole
- outlet hole
- out-of-gage hole
- oval-shaped hole
- oversized hole
- parent hole
- pattern holes
- percussion hole
- percussion test hole
- perforated hole
- pilot hole
- pin hole
- plug hole
- pointed-out hole
- post hole
- powder hole
- probe hole
- production hole
- prospecting hole
- protection hole
- province hole
- proving hole
- rat hole
- record hole
- relief hole
- rifled hole
- ring holes
- roof hole
- rough hole
- round hole
- rugose hole
- rust hole
- scout hole
- screen hole
- security hole
- short hole
- shot hole
- shot-drill hole
- shot-open hole
- shrinkage hole
- side hole
- side water hole
- sight hole
- slab hole
- slant hole
- slim hole
- small hole
- small diameter hole
- snake hole
- spiral hole
- spudded-in hole
- sticky hole
- straight hole
- stratigraphic hole
- sump hole
- surface hole
- tapped hole
- tapping hole
- test hole
- thief hole
- threaded hole
- through hole
- tight hole
- top hole
- uncased hole
- undergage hole
- undersized hole
- unfair hole
- up hole
- upward hole
- upward pointing hole
- velocity-test hole
- vertical hole
- vug hole
- washout hole
- water hole
- water-filled hole
- weep hole
- well drill hole
- wet hole
- woodpecker hole* * *• проушина -
16 auger
1. n тех. бурав, сверло2. n тех. бур3. n тех. витая буровая сталь4. n тех. шнекСинонимический ряд:boring tool (noun) bore; boring tool; countersink; drill; gimlet; steel drill; tap-bore; trepan; wood bit -
17 Glenck, Karl Christian Friedrich
SUBJECT AREA: Mining and extraction technology[br]b. 13 April 1779 Schwäbisch Hall, Germanyd. 21 November 1845 Gotha, Germany[br]German salt-mining expert who introduced large-scale salt explorations.[br]Having studied law at the University of Erlangen, he became Confidential Secretary to the Prince of Hohenlohe-Ingelfingen, in whose territory his father had been in charge of a saltworks. When this small country fell to Württemberg in 1806, Glenck continued his mineralogical and geological studies in order to develop methods of finding deposits of salt. He was the first to carry out systematic large-scale salt explorations in Germany, mostly in southern and central parts, and achieved remarkable results that far exceeded former non-systematic findings. He worked either on behalf of governments or companies or at his own risk, and in the early 1820s he settled in Gotha to live in the centre of the regions of greatest interest to him.His career began in 1819 with the discovery of the deposits of Ludwigshall near Wimpfen, Neckar, and prospecting salt near Basel in 1836 was his greatest success: Schweizerhall, opened one year later, made Switzerland self-sufficient in salt production. For fifteen years he had invested large sums into this project, which became the fifth salt-works to come into existence due to his drilling. Glenck worked with stir rods and he developed several new technical devices, such as casing the bore holes with iron pipes instead of wood (1830), and using wooden instead of iron rods to reduce the weight (1834). A flexible connection between rod and drill was to be introduced later by Karl von Oeynhausen. One of Glenck's most important followers in the field of deep-drilling was K.G. Kind.[br]Further ReadingW.Carlé, 1969, "Die Salinistenfamilie Glenck", Lebensbilder aus Schwaben und Franken 11: 118–49 (with substantial biographical information).D.Hoffmann, 1959, 150 Jahre Tiefbobrungen in Deutschland, Vienna and Hamburg, (provides an evaluation of his technological developments).WKBiographical history of technology > Glenck, Karl Christian Friedrich
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18 area
1) площадь; пространство3) поверхность4) (производственный) участок; помещение; площадка5) рабочая ячейка ( склада)•equal in area — равновеликий;area of base — площадь основания, площадь подошвы фундаментаarea of bearing — 1. площадь опоры 2. строит. площадка опиранияarea of contact — площадь поверхности контактаarea of diagram — площадь эпюры; площадь графикаarea of fracture — 1. поверхность излома 2. площадь поперечного сечения в месте разрушенияarea of occurrence — возд. район происшествияarea of water section — гидр. площадь живого сечения потокаarea of well influence — зона влияния колодца или скважины-
absorption area
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active area
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actual contact area
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actuating area
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actuation probability area
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addressable area
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adjustment control area
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advisory area
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air intake hazard area
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aircraft parking area
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airflow separation area
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airport construction area
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airport prohibited area
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airport service area
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air-route area
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alighting area
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alloy storage area
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annulus area
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antenna effective area
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antenna area
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antinode area
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aperture area
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approach area
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ash-disposal area
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auditory area
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backwater area
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bare area
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base area
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bearing surface area
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binding area
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blade area
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blade-exit area
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blind area
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blind drainage area
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boarding area
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bolted area
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bonding area
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bond area
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bore area
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bubble-melt surface area
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buffer area
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building area
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built-up area
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burning area
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catalyst surface area
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catchment area
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caved area
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central equipment area
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centralized telecine area
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centralized traffic area
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centralized video tape area
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charge-makeup area
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charging area
-
chip area
-
choke-tube area
-
circling approach area
-
clean processing area
-
clearance area
-
climb-out area
-
clinch area
-
coal area
-
coherence area
-
cold area
-
commanded area
-
common area
-
compression area
-
concrete area
-
cone effect area
-
congested area
-
connector area
-
conservation area
-
constant area
-
contact area
-
contact spot area
-
contaminated area
-
contamination control area
-
contiguous area
-
contour area of contact
-
control area
-
controlled access area
-
cooling area
-
corrosion area
-
coverage area
-
crimp area
-
critical area
-
cross-sectional area
-
cross-section area
-
cutting area
-
cylinder annular area
-
dangerous area
-
data-rich area
-
data-sparse area
-
data-void area
-
decontamination area
-
demixing area
-
design wing area
-
developed area
-
developed blade area
-
development area
-
die attach area
-
diked area
-
direct transit area
-
discharge area
-
display area
-
disposal area
-
dot area
-
downstream area
-
drainage area
-
drainless area
-
dry area
-
dynamic area
-
echoing area
-
echo area
-
effective area
-
effective braking area
-
effective cross-sectional area
-
effective cross-section area
-
effective screening area
-
effects area
-
electrical contact area
-
electroded area
-
elemental area
-
enclosed working area
-
end safety area
-
engineering area
-
environmentally fragile area
-
exchange area
-
exclusion area
-
exhaust area
-
expanded blade area
-
expanded area
-
exposure area
-
face area
-
fan blast area
-
felling area
-
fenced-off area
-
fetch area
-
fill area
-
film-editing area
-
filter effective area
-
filter open area
-
filtering area
-
finished-products storage area
-
fixed area
-
flame area
-
flooded area
-
flood-free area
-
flooding area
-
floor area
-
flow area
-
focus area
-
forbidden area
-
free-surface area
-
fringe area
-
functional area
-
furnace area
-
fusing area
-
fusion area
-
gases shear area
-
gasket surface area
-
gassy area
-
gathering area
-
gob area
-
graticule area
-
gray-scale picture area
-
gross cross-sectional area
-
gross cross-section area
-
gross irrigable area
-
ground contact area
-
gutter area
-
hard-core area
-
hard-to-reach area
-
hearth area
-
heat dissipation area
-
heat-affected area
-
heating area
-
heat-transfer area
-
high-activity area
-
high-beat area
-
high-radiation area
-
holding area
-
hot area
-
housing area
-
illuminated area
-
image area
-
impact area
-
impression area
-
inactive area
-
ingot-stripping area
-
input area
-
instantaneous area of flame front
-
instruction area
-
intended landing area
-
interfacial area
-
interference area
-
interlocking area
-
inundated area
-
junction area
-
knuckle area
-
land area
-
landing area
-
lateral area
-
lift irrigation area
-
lift-off area
-
link overlapped area
-
living area
-
living floor area
-
load-and-unload area
-
load-carrying area
-
loading area
-
loadout area
-
localized areas of wear
-
low-radiation area
-
makeup area
-
maneuvering area
-
man-impacted area
-
manned area
-
manual setting-up area
-
melting area
-
mesa area
-
metropolitan area
-
mining area
-
mirror area
-
mold conditioning area
-
mold opening area
-
moment area
-
movement area
-
mush area
-
natural area
-
net cross-sectional area
-
net cross-section area
-
neutron migration area
-
nominal contact area
-
noncontact area
-
nonimage area
-
nonmoving area
-
nonoccupied area
-
nonprinting area
-
nonstorage area
-
nonutilizable area
-
normally occupied area
-
nose area
-
nuclear area
-
numbering area
-
obstructed landing area
-
open area
-
open flow area
-
outgassed area
-
output area
-
overrun safety area
-
pallet area
-
patch area
-
pattern area
-
payable area
-
percent shear area
-
personnel and utility area
-
phosphor area
-
photolithographic area
-
picture area
-
poor-reception area
-
port area
-
presentation area
-
pressing area
-
prewarming area
-
primary area
-
primary service area
-
printing area
-
production area
-
production control area
-
programmed operating area
-
prohibited area
-
projectedblade area
-
projected area
-
propeller disk area
-
protected area
-
quality-control area
-
quality area
-
quench area
-
quiet area
-
radar area
-
radiation-control area
-
real area of contact
-
recording area
-
record area
-
refining area
-
regeneration area
-
reinforcing steel area
-
rerecording area
-
reservoir surface area
-
reservoir area
-
residential area
-
resident area
-
residential floor area
-
restricted area
-
retarder area
-
rig deck area
-
risk area
-
robot area
-
roof contact area
-
rubbing path area
-
rudder area
-
run-up area
-
rural area
-
safe operating area
-
safety area
-
sail area
-
save area
-
scanned area
-
scrap-consuming area
-
scrap-disposal area
-
scrap-grading area
-
scratch area
-
screen area
-
sealing area
-
seal area
-
search area
-
secondary area
-
sectional area
-
section area
-
seeking area
-
segregated area
-
service area
-
serviceable area
-
setting-up area
-
shaded area
-
shadow area
-
shareable area
-
shoe pad transition area
-
shooting area
-
sintering area
-
site area
-
skip area
-
slag-line area
-
slot area
-
slowing-down area of neutron
-
snow-covered area
-
solid area
-
sound area
-
sound-track area
-
special work permit area
-
specific floor area
-
specific surface area
-
spliced area
-
spoil area
-
stack area
-
stockline area
-
stool conditioning area
-
storage area
-
stripped area
-
subsidence area
-
superheated area
-
surface area
-
switching area
-
takeoff area
-
takeoff flight path area
-
tape area
-
taphole area
-
target area
-
technical-equipment area
-
technical area
-
telecine area
-
tension area
-
terminal area
-
terminal control area
-
test area
-
throat area
-
tongs area of pipe
-
tool service area
-
tool-presetting area
-
total area
-
total irrigation area
-
total tuyere area
-
transient area
-
turnaround area
-
tuyere area
-
type area
-
unattacked area
-
undershoot area
-
ungaged area
-
uniform area
-
unobstructed landing area
-
upstream area
-
urban area
-
usable area
-
user area
-
valve fillet area
-
valve seating face area
-
video tape recording area
-
video tape area
-
viewing area
-
vision control area
-
vulnerable area
-
waste area
-
waste-metal area
-
waste-storage area
-
water catchment area
-
waterplane area
-
water-surface area
-
wear track area
-
weld metal area
-
well drainage area
-
wellhead area
-
wetted area
-
wildlife area
-
window area
-
worked-out area
-
working area
-
yard area
-
yoke area -
19 drift
1) дрейф
2) бородок
3) дрейфовать
4) дрейфовый
5) дрейфующий
6) дрифтерный
7) дрифтовый
8) завевать
9) занос
10) зыбучий
11) навеивать
12) намет
13) нанос
14) пробойник
15) прошивать
16) самотек
17) сдрейфовать
18) снос
19) штрек
20) штрековый
21) < mining> бремсберг
22) относ
23) смещение
24) сдвиг
25) уход
26) забой
27) плавать
28) дрейф скорости записи
29) скольжение
30) плавный
31) <cosm.> деривация
– angle of drift
– angular drift
– caulker's drift
– drift anchor
– drift angle
– drift computer
– drift current
– drift fishing
– drift floating
– drift ice
– drift indicator
– drift meter
– drift mobility
– drift of a bore-hole
– drift out
– drift out key
– drift out of tune
– drift photodiode
– drift ratio
– drift sand
– drift space
– drift time
– drift transistor
– drift tube
– frequency drift
– image drift
– instrument drift
– oscillator drift
– river drift
– thermal drift
– wind drift
– zero drift
North Atlantic Drift — <geogr.> течение Северное Пассатное
-
20 method
метод; способ; средство; приём; технология; система; порядокconstant casing pressure method — метод борьбы с выбросом поддержанием постоянного давления в затрубном пространстве
displacement method of plugging — цементирование через заливочные трубы (без пробок, с вытеснением цементного раствора буровым)
gas-drive liquid propane method — процесс закачки в пласт газа под высоким давлением с предшествующим нагнетанием жидкого пропана
single core dynamic method — динамический метод определения относительной проницаемости по отдельному образцу
transient method of electrical prospecting — метод электроразведки, использующий неустановившиеся электрические явления
— colour band method
* * *
метод; способ; приёмbullhead well control method — способ глушения скважины с вытеснением пластового флюида в пласт из кольцевого пространства
constant bottomhole pressure well control method — способ глушения скважины при постоянном забойном давлении
driller's well control method — способ глушения скважины с раздельным удалением пластового флюида и сменой бурового раствора
one-circulation well control method — способ глушения скважины с одновременным удалением пластового флюида и сменой бурового раствора
reliability matrix index method — метод контроля за обеспечением надёжности путём задания показателей надёжности
two-circulation well control method — способ глушения скважины с разделёнными удалением пластового флюида и сменой бурового раствора
Vlugter method of structural group analysis — структурно-групповой метод анализа (углеводородов) по Флюгтеру
wait and weight well-control method — способ глушения скважины с одновременным удалением пластового флюида и сменой бурового раствора
* * *
метод, способ
* * *
метод; способ; приём- method of assurancemethod for determination relative water wettability — метод определения относительной водосмачиваемости ( пород);
- method of borehole section correlation
- method of calculating gas reserves
- method of circles
- method of defining petroleum reserves
- method of defining reserves
- method of determining static corrections
- method of drilling
- method of drilling with hydraulic turbine downhole motor
- method of drilling with hydraulic turbine downhole unit
- method of estimating reserves
- method of evaluating petroleum reserves
- method of formation
- method of formation damage analysis
- method of formation heterogeneity analysis
- method of formation nonuniformity analysis
- method of increasing oil mobility
- method of limiting well production rate
- method of liquid saturation determination
- method of maintaining reservoir pressure
- method of maintaining reservoir pressure by air injection
- method of maintaining reservoir pressure by gas injection
- method of maintaining reservoir pressure by water injection
- method of measuring critical water saturation
- method of mirror
- method of operation
- method of planting
- method of sample taking
- method of sampling
- method of sharpening
- method of stimulating production
- method of strong formation explosions
- method of testing
- method of three coefficients
- airborne magnetometer method
- air-hammer drilling method
- airlift well operation method
- alcohol-slug method
- arc refraction method
- aromatic adsorption method
- average velocity method
- average velocity approximation method
- bailer method of cementing
- band method
- barrel per acre method
- Barthelmes method
- basic volume method of estimating reserves
- beam pumping well operation method
- blasthole method
- bomb method
- borderline method
- borehole method
- borehole wall consolidation method
- bottom-packer method
- bottom water isolation method
- bottom water shutoff method
- bottomhole pressure build-up method
- broadside refraction method
- cable tool percussion drilling method
- Cabot method
- building method
- bullhead well control method
- capillarimetric method for determination wettability
- carbonized water injection method
- casing method of cementing
- casing-pressure method
- catenary pipe laying method
- cementing method
- cetane test method
- charcoal method
- chemical method of borehole wall consolidation
- chemical method of borehole wall lining
- circulating method
- clean recirculation method
- cold method of oil fractionation
- combination drilling method
- common-depth-point method
- common-midpoint method
- common-reflection-point method
- compressional-wave method
- concurrent method
- concurrent method of well killing
- constant bottomhole pressure well control method
- constant casing pressure method
- constant pit level method
- continuous-correlation method
- continuous-profiling method
- controlled directivity reception method
- converted wave method
- copper dish method
- correlation method of refracted waves
- correlation refraction method
- countercirculation-wash-boring method
- crosshole method
- cube method
- curved-path method
- cyclic steam-soaking secondary oil recovery method
- cycloidal ray-path method
- cylinder method
- deep-hole method
- deep-refraction method
- delay-and-sum method
- derrick assembling method
- derrick erection method
- desalting method
- development method
- dewatering method
- diesel cetane method
- differential liberation method
- diffraction stack method
- dipole profiling method
- direct method of orientation
- directional survey method
- dispersed gas injection method
- displacement method of plugging
- distillation method
- distillation method of liquid saturation determination
- double control method
- downhole method
- downhole sucker-rod pump well operation method
- down-the-hole induced polarization method
- drill steam method of coke removal
- driller's method
- driller's well control method
- drilling method
- drilling-in method
- dual coil ratiometer method
- effusion method
- electrical method of geophysical prospecting
- electrical-audibility method
- electrical-exploration method
- electrical-logging method
- electrical-prospecting method
- electrical-sounding method
- electrical-surveying method
- electrochemical method of borehole wall consolidation
- electrochemical method of borehole wall lining
- electromagnetic method of orientation
- electromagnetic-exploration method
- electromagnetic-prospecting method
- electromagnetic-profiling method
- electromagnetic-sounding method
- electromagnetic-surveying method
- enhanced recovery method
- enriched gas injection method
- Eshka method
- evaporation method of measuring critical water saturation
- exploration method
- exploration prospecting survey method
- exploration seismic method
- explosion drilling method
- explosion seismic method
- express method
- express method of production calculation
- filter-and-sum method
- fire flooding method
- firing line method
- first-break method
- first-event method
- float-and-chains method
- float-on method
- formation evaluation method
- four-point control method
- fracture method
- freepoint-string shot method
- freezing method
- freezing point depression method
- from-bottom-upward method of derrick assembling
- from-top-downward method of derrick assembling
- frontal advance gas-oil displacement method
- Galician method
- gamma-ray method
- gas blow-around method
- gas-chromatography method
- gas-drive liquid propane method
- gaslift well operation method
- gas-production test method
- gas-recovery method
- geological petroleum exploration method
- geological petroleum prospecting method
- geophysical petroleum exploration method
- grasshopper pipeline coupling method
- gravity method of geophysical prospecting
- gravity exploration method
- heat injection secondary oil recovery method
- hectare method of estimating reserves
- hesitation method
- high-pressure dry gas injection method
- high-resolution method
- hit-and-miss method
- holoseismic method
- horizontal-loop method
- hot-water drive method
- hydraulic drilling method
- hydraulic fracturing method
- hydraulic hammer drilling method
- hydraulic jet drilling method
- hydrodynamic method of calculating oil production
- hydrodynamic drilling method
- ice-plug method
- image method
- indirect method of orientation
- induction logging method
- infiltration method
- injection flow method
- in-situ combustion method
- interval change method
- isolation method
- isoline method of reserves estimation
- Kiruna method
- knock intensity method
- lamp method
- lean mixture rating method
- liquid solvent injection method
- logging method
- long-hole method
- long-interval method
- long-wire transmitter method
- luminescent-bitumen method
- magnesium-hydroxide method
- magnetic method of geophysical prospecting
- magnetic-exploration method
- magnetic-flaw detection method
- magnetic-particle method
- magnetic-particle flaw detection method
- magnetoelectrical control method
- magnetometrical method
- magnetotelluric method
- magnetotelluric-exploration method
- magnetotelluric-sounding method
- maintenance method
- mercury injection method of measuring critical water saturation
- micrometric method of rock analysis
- microseismic method
- migration method
- mining method
- moving-plug method of cementing
- moving-source method
- mud-balance method
- mudcap method
- mudflush drilling method
- multiple detection method
- nonionic surfactant water solution injection method
- nonreplacement method
- Norwegian method
- oil drive method
- oil production method
- oil recovery method
- oil withdrawal method
- one-agent borehole wall consolidation method
- one-agent borehole wall lining method
- one-circulation well control method
- outage method
- oxygen-bomb method
- parabolic method
- passive method
- pattern method
- pattern-type gas injection method
- penetration method
- penetrating fluid method
- percussion method
- perforation method
- Perkins method
- phase-velocity method
- physicochemical method of borehole wall consolidation
- physicochemical method of borehole wall lining
- picric acid method
- pipe-bridge method
- pipe-driving method
- pipeline-assembly method
- pipeline-coupling method
- placement method
- plane front method
- plasma drilling method
- polarization method
- Poulter method
- pour point depression method
- pressure build-up method of formation damage analysis
- pressure build-up method of formation heterogeneity analysis
- pressure-drop method of estimating gas reserves
- primary oil recovery method
- probe method
- producing method
- producing well testing method
- production method
- production test method
- profiling method
- projected-vertical-plane method of orienting
- prospecting method
- pump-out method
- punching method
- radioactive method
- radioactive method of geophysical prospecting
- radio-direction-finder method
- ray-path method
- ray-stretching method
- ray-tracing method
- record presentation method
- recovery method
- rectilinear ray-path method
- reflection method
- reflection interpretation method
- refracted wave method
- refraction method
- refraction correlation method
- refraction interpretation method
- reliability method
- reliability matrix index method
- remedial cementing method
- replacement method
- repressuring method
- resistivity method
- restored-state method of measuring critical water saturation
- retort method of liquid saturation determination
- reversed refraction method
- ring-and-ball method
- rod tool percussion drilling method
- rodless pump well operation method
- roll-on method
- rope-and-drop pull method
- rotary drilling method
- rotation drilling method
- sampling method
- sand jet method
- saturation method
- saturation method of pore volume measurement
- secondary oil recovery method
- sectional method of pipeline assembly
- sectional pipe-coupling method
- sectorial pipe-coupling method
- sedimentology method of measuring particle size distribution
- seismic method
- seismic method of geophysical prospecting
- seismic-detection method
- seismic-exploration method
- seismic-identification method
- seismic-interpretation method
- seismic-reflection method
- seismic-refraction method
- self-potential method
- sequence firing method
- shear-wave method
- short-hole method
- shot-drilling method
- shot-popping method
- side-tracking method
- side-wall coring method
- single-core dynamic method
- single-fold continuous-coverage method
- slalom-line method
- small-bore deep-hole method
- soap suds method
- sounding method
- spontaneous polarization method
- squeeze cementing method
- squeezing method
- standardizing performance method
- standby method
- stationary liquid method of relative permeability determination
- statistical method of calculating oil production
- statistical method of estimating reserves
- steam oil drive method
- stepwise method of McCabe and Thiele
- stimulation method
- stove pipe method
- stove pipe flange method of rolling beams
- straight ray-path method
- subsurface method of geophysical prospecting
- suction method of cleaning
- summation method
- surface method of geophysical prospecting
- surface-wave method
- swabbing method
- swinging-gage method
- tertiary oil recovery method
- testing method
- thermal-acid formation treatment method
- thermal-recovery method
- thickened water injection method
- three-dimensional seismic method
- thumper method
- top-packer method
- towing method
- transient method of electrical prospecting
- transmitted wave method
- transposed method
- triaxial test method
- tubing method of cementing
- two-agent borehole wall consolidation method
- two-agent borehole wall lining method
- two-circulation well control method
- ultrasonic method
- ultrasonic flaw detection method
- variable-area method
- velocity-analysis method
- vertical loop method
- Vibroseis method
- Vlugter method of structural group analysis
- volume method of estimating reserves
- volume-statistical method of estimating reserves
- volume-weight method of estimating reserves
- volumetric method of estimating reserves
- volumetric-genetic method of estimating reserves
- wait-and-weight well-control method
- Walker's method
- wash-and-drive method
- washing method
- water flooding method
- water influx location method
- weathering computation method
- weight-drop method
- weight-saturation method
- well-casing method
- well-completion method
- well-control method
- well-drill method
- well-geophone method
- well-operation method
- well-shooting method
- well-testing method
- wireline method
- X-ray diffraction method* * *
- 1
- 2
См. также в других словарях:
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