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1 wet method of mining
Горное дело: гидравлический метод добычи -
2 wet method of mining
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3 wet method of mining
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4 method
метод; способ; система; порядок•
- alternate method of charging
- approximation method
- ascending method
- back-filling method
- ball method
- bank method of attack
- barrier method
- batterybreast method
- bench method
- benching method
- beneficiating method
- block-and pillar method
- block-caving method
- block shrinkage method
- blow-in method
- board-and-pillar method
- board-and-stall method
- board-and-wall method
- boring method
- bottom slicing method
- breast-and-pillar method
- bulk-caving method
- bulk method of mining
- bulk sampling coal method
- caisson method
- cap-and-fuse method
- caving method
- chamber-and-pillar method
- chilling method
- coal-mining method
- combined method
- combined mining method
- conventional method
- core-drilling method
- cut-and-fill method
- cut-and-try method
- deep-hole method
- dense-medium method
- development method
- draw mining method
- drifting method
- drill-and-fire method
- drilling method
- drivage method
- drop-shaft method
- dry method of preparation
- exhaust method
- filling method
- flat-back method
- flushing method
- forcing method
- honeycomb method
- indirect method
- infusion method
- instantaneously primed blasting method
- ion-exchange method
- jetting method of drilling
- loading method
- long-face method
- long-pillar method
- longwall method
- longwall retreat method
- longwall stall method
- manual method
- milling method
- mining method
- multiple-heading method
- multiple-row method
- multi-slice mining method
- open-cut method
- open-pit method
- open-stope method
- overlap method
- panel method
- pillar-and-bord method
- pillar-and-breast meast
- pillar-and-room method
- pillar-and-stall method
- pillar method
- plain blow-in method
- planing method
- pneumatic method of sinking
- pressing-in method
- productivity method
- prospecting method
- raising method
- rigorous method
- room-and-pillar method
- rule-of-thumb method
- safety methods
- sampling method
- scientific method
- scratch-method
- shaft-sinking method
- shield method
- shield mining method
- short-hole method
- shrinkage method
- shrinkage stoping method
- single-road stall method
- single-row method
- single-stall method
- sink-and-float method
- sinking method
- sinking drum method
- slicing method
- slusher method
- small-hole method
- sonic method
- square-chamber method
- stoop method
- stoop-and-room method
- stope-caving method
- stoping method
- stowing method
- strip method
- stripping method
- sublevel method
- sublevel blast-hole method
- sublevel caving method
- sublevel open stope method
- suction method
- top-slicing method
- trial method
- trial-and-error method
- triaxial test method
- two-two-pass method
- two-row method
- undercut-caving method
- underground method
- wall method
- washing method
- water method
- weight method
- well-drill method
- wet method
- wet method of mining
- wet-mechanical method
- wind method -
5 Garforth, William Edward
SUBJECT AREA: Mining and extraction technology[br]b. 1845 Dukinfield, Cheshire, Englandd. 1 October 1921 Pontefract, Yorkshire, England[br]English colliery manager, pioneer in machine-holing and the safety of mines.[br]After Menzies conceived his idea of breaking off coal with machines in 1761, many inventors subsequently followed his proposals through into the practice of underground working. More than one century later, Garforth became one of the principal pioneers of machine-holing combined with the longwall method of working in order to reduce production costs and increase the yield of coal. Having been appointed agent to Pope \& Pearson's Collieries, West Yorkshire, in 1879, of which company he later became Managing Director and Chairman, he gathered a great deal of experience with different methods of cutting coal. The first disc machine was exhibited in London as early as 1851, and ten years later a pick machine was invented. In 1893 he introduced an improved type of deep undercutting machine, his "diamond" disc coal-cutter, driven by compressed air, which also became popular on the European continent.Besides the considerable economic advantages it created, the use of machinery for mining coal increased the safety of working in hard and thin seams. The improvement of safety in mining technology was always his primary concern, and as a result of his inventions and his many publications he became the leading figure in the British coal mining industry at the beginning of the twentieth century; safety lamps still carry his name. In 1885 he invented a firedamp detector, and following a severe explosion in 1886 he concentrated on coal-dust experiments. From the information he obtained of the effect of stone-dust on a coal-dust explosion he proposed the stone-dust remedy to prevent explosions of coal-dust. As a result of discussions which lasted for decades and after he had been entrusted with the job of conducting the British coal-dust experiments, in 1921 an Act made it compulsory in all mines which were not naturally wet throughout to treat all roads with incombustible dust so as to ensure that the dust always consisted of a mixture containing not more than 50 per cent combustible matter. In 1901 Garforth erected a surface gallery which represented the damaged roadways of a mine and could be filled with noxious fumes to test self-contained breathing apparata. This gallery formed the model from which all the rescue-stations existing nowadays have been developed.[br]Principal Honours and DistinctionsKnighted 1914. LLD Universities of Birmingham and Leeds 1912. President, Midland Institute 1892–4. President, The Institution of Mining Engineers 1911–14. President, Mining Association of Great Britain 1907–8. Chairman, Standing Committee on Mining, Advisory Council for Scientific and Industrial Research. Fellow of the Geological Society of London. North of England Institute of Mining and Mechanical Engineers Greenwell Silver Medal 1907. Royal Society of Arts Fothergill Gold Medal 1910. Medal of the Institution of Mining Engineers 1914.Bibliography1901–2, "The application of coal-cutting machines to deep mining", Transactions of the Federated Institute of Mining Engineers 23: 312–45.1905–6, "A new apparatus for rescue-work in mines", Transactions of the Institution of Mining Engineers 31:625–57.1902, "British Coal-dust Experiments". Paper communicated to the International Congress on Mining, Metallurgy, Applied Mechanics and Practical Geology, Dusseldorf.Further ReadingGarforth's name is frequently mentioned in connection with coal-holing, but his outstanding achievements in improving safety in mines are only described in W.D.Lloyd, 1921, "Memoir", Transactions of the Institution of Mining Engineers 62:203–5.WKBiographical history of technology > Garforth, William Edward
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6 Albert, Wilhelm August Julius
SUBJECT AREA: Mining and extraction technology[br]b. 24 January 1787 Hannover, Germanyd. 4 July 1846 Clausthal, Harz, Germany[br]German mining official, successful applier of wire cable.[br]After studying law at the University of Göttingen, Albert turned to the mining industry and in 1806 started his career in mining administration in the Harz district, where he became Chief Inspector of mines thirty years later. His influence on the organization of the mining industry was considerable and he contributed valuable ideas for the development of mining technology. For example, he initiated experiments with Reichenbach's water-column pump in Harz when it had been working successfully in the transportation of brine in Bavaria, and he encouraged Dörell to work on his miner's elevator.The increasing depths of shafts in the Harz district brought problems with hoisting as the ropes became too heavy and tended to break. At the beginning of the nineteenth century, iron link chains replaced the hempen ropes which were expensive and wore out too quickly, especially in the wet conditions in the shafts. After he had experimented for six years using counterbalancing iron link chains, which broke too easily, in 1834 he conceived the idea of producing stranded cables from iron wires. Their breaking strength and flexibility depended greatly on the softness of the iron and the way of laying the strands. Albert produced the cable by attaching the wires to strings which he turned evenly; this method became known as "Albert lay". He was not the first to conceive the idea of metal cables: there exists evidence for such cables as far back as Pompeii; Leonardo da Vinci made sketches of cables made from brass wires; and in 1780 the French engineer Reignier applied iron cables for lightning conductors. The idea also developed in various other mining areas, but Albert cables were the first to gain rapidly direct common usage worldwide.[br]Bibliography1835, "Die Anfertigung von Treibseilen aus geflochtenem Eisendraht", Karstens Archiv 8: 418–28.Further ReadingK.Karmarsch, "W.A.J.Albert", Allgemeine deutsche Biographie 1:212–3.W.Bornhardt, 1934, W.A.J.Albert und die Erfindung der Eisendrahtseile, Berlin (a detailed description of his inventions, based on source material).C.Bartels, 1992, Vom frühneuzeitlichen Montangewerbe zur Bergbauindustrie, Bochum: Deut sches Bergbau-Museum (evaluates his achievements within the framework of technological development in the Harz mining industry).WKBiographical history of technology > Albert, Wilhelm August Julius
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7 separation
1) отделение
2) выделение
3) отрыв
4) раздвиг
5) раздвигание
6) раздвижение
7) раздвижка
8) разнос
9) расслоение
10) расчленение
11) сепарационный
12) сепарация
13) сепарирование
14) пробел
15) срыв
16) разделение
17) сечение
18) отделимость
19) точка отрыва
20) разбиение
21) разъединение
22) отслаивание
23) расформирование
24) обогащение
25) интервал
26) расстояние
– air separation
– altitude separation
– amplitude separation
– centrifugal separation
– channel separation
– color separation
– doublet separation
– dry separation
– gravity separation
– harmonic separation
– heavy-media separation
– isotope separation
– lateral separation
– magnetic separation
– mode separation
– phase separation
– ply separation of tire
– point of separation
– scanning separation
– separation box
– separation by diffusion
– separation by mass
– separation center
– separation circuit
– separation column
– separation device
– separation drafting
– separation efficiency
– separation filter
– separation in time
– separation method
– separation of fragments
– separation of gas mixtures
– separation of joint
– separation of modes
– separation of variables
– separation point
– separation surface
– separation vessel
– sink-float separation
– stage separation
– weight separation
– wet separation
heavy media separation — < mining> апробация руд в тяжелых жидкостях
method of separation of variable — метод разделения переменных
phase separation point — <phys.> критическая точка расслаивания
synchronizing pulse separation — выделение синхронизирующих импульсов
synchropulse amplitude separation — выделение синхроимпульсов по амплитуде
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