second+mining

second mining

вторая стадия выемки;
выемка целиков

second mining

вторая стадия выемки; выемка целиков

second mining

очистная выемка

second mining

1) Техника: вторая стадия выемки, выемка целиков

2) Горное дело: выемка обратным ходом, выемка оставшихся ножек, очистная выемка

second mining

< min> ■ nachträglicher Abbau m

second mining

выемка целиков, оставшихся ножек; вторая стадия выемки

second mining

вторая стадия выемки, выемка целиков

mining

1) горное дело

2) горные работы

3) разработка месторождения

4) добыча; выемка

•

mining with ceving — разработка с обрушением;

mining with filling [with stowing\] — разработка с закладкой

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advancing mining
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auger mining
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bench mining
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biochemical mining
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bord-and-pillar mining
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bulk scale mining
-
continuous mining
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contour mining
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conventional mining
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cut-and-fill mining
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deep mining
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deep sea mining
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development mining
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glory hole mining
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hardrock mining
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horizon mining
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hydraulic borehole mining
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in-situ solution mining
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large-scale mining
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longwall mining
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metal mining
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moon mining
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multilift mining
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multislice mining
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nuclear explosive mining
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ocean mining
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oil mining
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open cast mining
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open pit mining
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pillar mining
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pillarless mining
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punch mining
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raise mining
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retreat mining
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room and pillar mining
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seabed mining
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second mining
-
selective mining
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shortwall mining
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shrinkage mining
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slice mining
-
solution mining
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strip mining
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surface borehole hydraulic mining
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surface mining
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surface-borehole mining
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underground mining
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undersea mining

mining

горное дело; горная промышленность; разработка месторождения; выемка; горный, горнодобывающий, горнопромышленный, горнотехнический; добыча, отработка, горное производство

•

- actual mining

- 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

lignite mining

1. добыча лигнита

 

добыча лигнита
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]

EN

lignite mining
Extraction of brown coal from natural deposits; lignite is a brownish-black solid fuel in the second stage in the development of coal. It has a little over half the heating value of bituminous or anthracite coal. (Source: KORENa)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]

Тематики

• охрана окружающей среды

EN

• lignite mining

DE

• Braunkohlenbergbau

FR

• mine de lignite

вторая стадия выемки

second mining

вторая стадия выемки

second mining

выемка целиков

горн. pillar extraction, pillar mining, second mining, pillaring, posting, second working

выемка целиков

pillar extraction, pillar mining, second mining, pillaring горн., posting, second working

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]

Bibliography

1899, "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 American

Institution of Mining Engineers 31:362–74.

Further Reading

R.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

Biringuccio, Vanoccio Vincenzio Agustino Luca

SUBJECT AREA: Metallurgy, Mining and extraction technology

[br]

b. 1480 Siena, Italy

d. 1537 Rome, Italy

[br]

Italian author of the celebrated "Pirotechnia" on mining and metallurgy.

[br]

Biringuccio spent much of his life in the service of, or under the patronage of, the Petruccis, one of the leading families of Siena. In his youth, he was able to travel widely in Italy and Germany, observing mining and metallurgical processes at first hand. For example, his visit to the brass-works in Milan was to be the source of the detailed description in Pirotechnia, published alter his death. He held various appointments in charge of mines or other concerns, such as the Siena mint, under the patronage of the Petruccis. During two periods of exile, while the Petrucci fortunes were in eclipse, he engaged in military activities such as the casting of cannon. That included the great culverin of Florence cast in 1529, also described in the Pirotechnia. In December 1534 Pope Paul III offered him the post of Director of the papal foundry and munitions. He did not take up the post until 1536, but he died the following year.

P irotechnia, which made Biringuccio famous, was published in Venice in 1540, three years after his death. The word "pirotechnia" had a wider meaning than that of fireworks, extending to the action of fire on various substances and including distillation and the preparation of acids. While owing something to earlier written sources, the book is substantially based on a lifetime of practical experience of mining and metalworking, including smelting, casting and alloying, and evidence in the book suggests that it was written between 1530 and 1535. Curzio Navo brought out the second and third editions in 1550 and 1559, as well as a Latin edition. A fourth edition was also printed in 1559. The appearance of four editions in such a short time testifies to the popularity and usefulness of the work.

[br]

Bibliography

1942, Pirotechnia, Translated from the Italian with an Introduction and Notes, ed. Cyril S. Smith and Martha T.Gnudi, New York: American Institute of Mining and Metallurgi cal Engineers (the best account of Biringuccio's life, with bibliographical details of the various editions of the Pirotechnia, is in the preface).

LRD

World War II

(1939-1945)

   In the European phase of the war, neutral Portugal contributed more to the Allied victory than historians have acknowledged. Portugal experienced severe pressures to compromise her neutrality from both the Axis and Allied powers and, on several occasions, there were efforts to force Portugal to enter the war as a belligerent. Several factors lent Portugal importance as a neutral. This was especially the case during the period from the fall of France in June 1940 to the Allied invasion and reconquest of France from June to August 1944.

   In four respects, Portugal became briefly a modest strategic asset for the Allies and a war materiel supplier for both sides: the country's location in the southwesternmost corner of the largely German-occupied European continent; being a transport and communication terminus, observation post for spies, and crossroads between Europe, the Atlantic, the Americas, and Africa; Portugal's strategically located Atlantic islands, the Azores, Madeira, and Cape Verde archipelagos; and having important mines of wolfram or tungsten ore, crucial for the war industry for hardening steel.

   To maintain strict neutrality, the Estado Novo regime dominated by Antônio de Oliveira Salazar performed a delicate balancing act. Lisbon attempted to please and cater to the interests of both sets of belligerents, but only to the extent that the concessions granted would not threaten Portugal's security or its status as a neutral. On at least two occasions, Portugal's neutrality status was threatened. First, Germany briefly considered invading Portugal and Spain during 1940-41. A second occasion came in 1943 and 1944 as Great Britain, backed by the United States, pressured Portugal to grant war-related concessions that threatened Portugal's status of strict neutrality and would possibly bring Portugal into the war on the Allied side. Nazi Germany's plan ("Operation Felix") to invade the Iberian Peninsula from late 1940 into 1941 was never executed, but the Allies occupied and used several air and naval bases in Portugal's Azores Islands.

   The second major crisis for Portugal's neutrality came with increasing Allied pressures for concessions from the summer of 1943 to the summer of 1944. Led by Britain, Portugal's oldest ally, Portugal was pressured to grant access to air and naval bases in the Azores Islands. Such bases were necessary to assist the Allies in winning the Battle of the Atlantic, the naval war in which German U-boats continued to destroy Allied shipping. In October 1943, following tedious negotiations, British forces began to operate such bases and, in November 1944, American forces were allowed to enter the islands. Germany protested and made threats, but there was no German attack.

   Tensions rose again in the spring of 1944, when the Allies demanded that Lisbon cease exporting wolfram to Germany. Salazar grew agitated, considered resigning, and argued that Portugal had made a solemn promise to Germany that wolfram exports would be continued and that Portugal could not break its pledge. The Portuguese ambassador in London concluded that the shipping of wolfram to Germany was "the price of neutrality." Fearing that a still-dangerous Germany could still attack Portugal, Salazar ordered the banning of the mining, sale, and exports of wolfram not only to Germany but to the Allies as of 6 June 1944.

   Portugal did not enter the war as a belligerent, and its forces did not engage in combat, but some Portuguese experienced directly or indirectly the impact of fighting. Off Portugal or near her Atlantic islands, Portuguese naval personnel or commercial fishermen rescued at sea hundreds of victims of U-boat sinkings of Allied shipping in the Atlantic. German U-boats sank four or five Portuguese merchant vessels as well and, in 1944, a U-boat stopped, boarded, searched, and forced the evacuation of a Portuguese ocean liner, the Serpa Pinto, in mid-Atlantic. Filled with refugees, the liner was not sunk but several passengers lost their lives and the U-boat kidnapped two of the ship's passengers, Portuguese Americans of military age, and interned them in a prison camp. As for involvement in a theater of war, hundreds of inhabitants were killed and wounded in remote East Timor, a Portuguese colony near Indonesia, which was invaded, annexed, and ruled by Japanese forces between February 1942 and August 1945. In other incidents, scores of Allied military planes, out of fuel or damaged in air combat, crashed or were forced to land in neutral Portugal. Air personnel who did not survive such crashes were buried in Portuguese cemeteries or in the English Cemetery, Lisbon.

   Portugal's peripheral involvement in largely nonbelligerent aspects of the war accelerated social, economic, and political change in Portugal's urban society. It strengthened political opposition to the dictatorship among intellectual and working classes, and it obliged the regime to bolster political repression. The general economic and financial status of Portugal, too, underwent improvements since creditor Britain, in order to purchase wolfram, foods, and other materials needed during the war, became indebted to Portugal. When Britain repaid this debt after the war, Portugal was able to restore and expand its merchant fleet. Unlike most of Europe, ravaged by the worst war in human history, Portugal did not suffer heavy losses of human life, infrastructure, and property. Unlike even her neighbor Spain, badly shaken by its terrible Civil War (1936-39), Portugal's immediate postwar condition was more favorable, especially in urban areas, although deep-seated poverty remained.

   Portugal experienced other effects, especially during 1939-42, as there was an influx of about a million war refugees, an infestation of foreign spies and other secret agents from 60 secret intelligence services, and the residence of scores of international journalists who came to report the war from Lisbon. There was also the growth of war-related mining (especially wolfram and tin). Portugal's media eagerly reported the war and, by and large, despite government censorship, the Portuguese print media favored the Allied cause. Portugal's standard of living underwent some improvement, although price increases were unpopular.

   The silent invasion of several thousand foreign spies, in addition to the hiring of many Portuguese as informants and spies, had fascinating outcomes. "Spyland" Portugal, especially when Portugal was a key point for communicating with occupied Europe (1940-44), witnessed some unusual events, and spying for foreigners at least briefly became a national industry. Until mid-1944, when Allied forces invaded France, Portugal was the only secure entry point from across the Atlantic to Europe or to the British Isles, as well as the escape hatch for refugees, spies, defectors, and others fleeing occupied Europe or Vichy-controlled Morocco, Tunisia, and Algeria. Through Portugal by car, ship, train, or scheduled civil airliner one could travel to and from Spain or to Britain, or one could leave through Portugal, the westernmost continental country of Europe, to seek refuge across the Atlantic in the Americas.

   The wartime Portuguese scene was a colorful melange of illegal activities, including espionage, the black market, war propaganda, gambling, speculation, currency counterfeiting, diamond and wolfram smuggling, prostitution, and the drug and arms trade, and they were conducted by an unusual cast of characters. These included refugees, some of whom were spies, smugglers, diplomats, and business people, many from foreign countries seeking things they could find only in Portugal: information, affordable food, shelter, and security. German agents who contacted Allied sailors in the port of Lisbon sought to corrupt and neutralize these men and, if possible, recruit them as spies, and British intelligence countered this effort. Britain's MI-6 established a new kind of "safe house" to protect such Allied crews from German espionage and venereal disease infection, an approved and controlled house of prostitution in Lisbon's bairro alto district.

   Foreign observers and writers were impressed with the exotic, spy-ridden scene in Lisbon, as well as in Estoril on the Sun Coast (Costa do Sol), west of Lisbon harbor. What they observed appeared in noted autobiographical works and novels, some written during and some after the war. Among notable writers and journalists who visited or resided in wartime Portugal were Hungarian writer and former communist Arthur Koestler, on the run from the Nazi's Gestapo; American radio broadcaster-journalist Eric Sevareid; novelist and Hollywood script-writer Frederick Prokosch; American diplomat George Kennan; Rumanian cultural attache and later scholar of mythology Mircea Eliade; and British naval intelligence officer and novelist-to-be Ian Fleming. Other notable visiting British intelligence officers included novelist Graham Greene; secret Soviet agent in MI-6 and future defector to the Soviet Union Harold "Kim" Philby; and writer Malcolm Muggeridge. French letters were represented by French writer and airman, Antoine Saint-Exupery and French playwright, Jean Giroudoux. Finally, Aquilino Ribeiro, one of Portugal's premier contemporary novelists, wrote about wartime Portugal, including one sensational novel, Volframio, which portrayed the profound impact of the exploitation of the mineral wolfram on Portugal's poor, still backward society.

   In Estoril, Portugal, the idea for the world's most celebrated fictitious spy, James Bond, was probably first conceived by Ian Fleming. Fleming visited Portugal several times after 1939 on Naval Intelligence missions, and later he dreamed up the James Bond character and stories. Background for the early novels in the James Bond series was based in part on people and places Fleming observed in Portugal. A key location in Fleming's first James Bond novel, Casino Royale (1953) is the gambling Casino of Estoril. In addition, one aspect of the main plot, the notion that a spy could invent "secret" intelligence for personal profit, was observed as well by the British novelist and former MI-6 officer, while engaged in operations in wartime Portugal. Greene later used this information in his 1958 spy novel, Our Man in Havana, as he observed enemy agents who fabricated "secrets" for money.

   Thus, Portugal's World War II experiences introduced the country and her people to a host of new peoples, ideas, products, and influences that altered attitudes and quickened the pace of change in this quiet, largely tradition-bound, isolated country. The 1943-45 connections established during the Allied use of air and naval bases in Portugal's Azores Islands were a prelude to Portugal's postwar membership in the North Atlantic Treaty Organization (NATO).

Ercker, Lazarus

SUBJECT AREA: Metallurgy, Mining and extraction technology

[br]

b. c.1530 Annaberg, Saxony, Germany

d. 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]

Bibliography

Die Beschreibung allfürnemisten mineralischen Ertz, Prague. 1556, Probierbuchlein.

1563, Munzbuch.

Further Reading

P.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

Gilbert, John

SUBJECT AREA: Canals, Mining and extraction technology

[br]

b. 1724 Cotton Hall, Cotton, Staffordshire, England

d. 3 August 1795 Worsley, Lancashire, England

[br]

English land agent, mining engineer and canal entrepreneur.

[br]

Younger son of a gentleman farmer, Gilbert was apprenticed to Matthew Boulton, a buckle maker of Birmingham and father of the Matthew Boulton who was associated with James Watt. He also gained mining experience. Through the influence of his older brother, Thomas Gilbert, he became Land Agent to the Duke of Bridgewater (Francis Egerton) for the Worsley estate. He proposed extensions to the underground waterway system and also made a preliminary survey for a canal from Worsley to Salford, a project which Brindley joined as Assistant Engineer. Gilbert was therefore the prime mover in the construction of the Bridgewater Canal, which received its Act in 1759. He then collected evidence for the second Act to permit construction of the aqueduct across the Irwell at Barton. He was involved in a consortium with his brother Thomas and Earl Gower to develop the Earl's East Shropshire mines and to build the Shrewsbury and the Shropshire Coal Canals. He also excavated the Speedwell Mine at Castleton in Derbyshire between 1774 and 1781 and constructed the underground canal to serve the workings. With his brother, he was involved in the promotion of the Trent \& Mersey Canal and was a shareholder in the undertaking. Among his other entrepreneurial activities, he entered the canal-carrying business. His last work was beginning the underground inclined planes at Worsley, but these were not completed until after his death. His important place in the historical development of the inland navigational system in England has been very much overlooked.

[br]

Further Reading

P.Lead, 1990, Agents of Revolution: John and Thomas Gilbert-Entrepreneurs, Keele University Centre for Local History.

JHB

Rammler, Erich

SUBJECT AREA: Metallurgy, Mining and extraction technology

[br]

b. 9 July 1901 Tirpersdorf, near Oelsnitz, Germany

d. 6 November 1986 Freiberg, Saxony, Germany

[br]

German mining engineer, developer of metallurgic coke from lignite.

[br]

A scholar of the Mining Academy in Freiberg, who in his dissertation dealt with the fineness of coal dust, Rammler started experiments in 1925 relating to firing this material. In the USA this process, based on coal, had turned out to be very effective in large boiler furnaces. Rammler endeavoured to apply the process to lignite and pursued general research work on various thermochemical problems as well as methods of grinding and classifying. As producing power from lignite was of specific interest for the young Soviet Union, with its large demand from its new power stations and its as-yet unexploited lignite deposits, he soon came into contact with the Soviet authorities. In his laboratory in Dresden, which he had bought from the freelance metallurgist Paul Otto Rosin after his emigration and under whom he had been working since he left the Academy, he continued his studies in refining coal and soon gained an international reputation. He opened up means of producing coke from lignite for use in metallurgical processes.

His later work was of utmost importance after the Second World War when several countries in Eastern Europe, especially East Germany with its large lignite deposits, established their own iron and steel industries. Accordingly, the Soviet administration supported his experiments vigorously after he joined Karl Kegel's Institute for Briquetting in Freiberg in 1945. Through his numerous books and articles, he became the internationally leading expert on refining lignite and Kegel's successor as head of the Institute and Professor at the Bergakademie. Six years later, he produced for the first time high-temperature coke from lignite low in ash and sulphur for smelting in low-shaft furnaces. Rammler was widely honoured and contributed decisively to the industrial development of his country; he demonstrated new technological processes when, under austere conditions, economical and ecological considerations were neglected.

[br]

Bibliography

Rammler, whose list of publications comprises more than 600 titles on various matters of his main scientific concern, also was the co-author (with E.Wächtler) of two articles on the development of briquetting brown coal in Germany, both published in 1985, Freiberger Forschungshefte, D 163 and D 169, Leipzig.

Further Reading

E.Wächtler, W.Mühlfriedel and W.Michel, 1976, Erich Rammler, Leipzig, (substantial biography, although packed with communist propaganda).

M.Rasch, 1989, "Paul Rosin—Ingenieur, Hochschullehrer und Rationalisierungsfachmann". Technikgeschichte 56:101–32 (describes the framework within which Rammler's primary research developed).

WK