Handbuch der Tiefbohrkunde

Chaudron, Joseph

SUBJECT AREA: Mining and extraction technology

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b. 29 November 1822 Gosselies, Belgium

d. 16 January 1905 Auderghem, Belgium

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Belgian mining engineer, pioneer in boring shafts.

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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.

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Bibliography

1853–4, "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 des

travaux publics de Belgique 30:77–91.

Further Reading

D.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).

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Jobard, Jean-Baptiste-Ambroise Marcelin

SUBJECT AREA: Mining and extraction technology

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b. 14 May 1792 Baissey, Haute-Marne, France

d. 27 October 1861 Brussels, Belgium

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French technologist, promoter of Belgian industry.

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After attending schools in Langres and Dijon, Jobard worked in Groningen and Maastricht as a cadastral officer from 1811 onwards. After the Netherlands had been constituted as a new state in 1814, he became a Dutch citizen in 1815 and settled in Brussels. In 1825, when he had learned of the invention of lithography by Alois Senefelder, he retired and established a renowned lithographic workshop in Belgium, with considerable commercial profit. After the political changes which led to the separation of Belgium from the Netherlands in 1830, he devoted his activities to the progress of science and industry in this country, in the traditional idea of enlightenment. His main aim was to promote all branches of the young economy, to which he contributed with ceaseless energy. He cultivated especially the transfer of technology in many articles he wrote on his various journeys, such as to Britain, France, Germany and Switzerland, and he continued to do so when he became the Director of the Museum of Industry in Brussels in 1841, editing its Bulletin until his death. Jobard, as a member of societies for the encouragement of arts and industry in many countries, published on almost any subject and produced many inventions. Being a restless character by nature, and having, in addition, a strong attitude towards designing and constructing, he also contributed to mining technology in 1828 when he was the first European to practise successfully the Chinese method of rope drilling near Brussels.

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Bibliography

1840, Plan d'organisation du Musée de l'industrie, présenté au Ministre de l'interieur, Brussels.

1844, Machines à vapeur, arrêtes et instructions, Brussels.

1846, Comment la Belgique peut devenir industrielle, à propos de la Société d'exportation, Brussels.

1846, Constitution d'une noblesse industrielle à l'aide des marques de fabrique

considérées comme blason de l'industrie et du commerce, dédié à la Société des inventeurs et protecteurs de l'industrie, Brussels.

1855, Discours prononcé à l'assemblée des industriels réunis pour l'adoption de la marque obligatoire, Paris.

Further Reading

H.Blémont, 1991, article in Dictionnaire de biographie française, Paris, pp. 676–7 (for a short account of his life).

A.Siret, 1888–9, article in Biographie nationale de belgique, Vol. X, Brussels, col. 494– 500 (provides an impressive description of his restless character and a selected bibliography of his many publications.

T.Tecklenburg, 1900, Handbuch der Tiefbohrkunde, 2nd edn, Vol. IV, Berlin, pp. 7–8 (contains detailed information on his method of rope drilling).

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Kind, Karl Gotthelf

SUBJECT AREA: Mining and extraction technology

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b. 6 June 1801 Linda, near Freiberg, Germany

d. 9 March 1873 Saarbrücken, Germany

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German engineer, pioneer in deep drilling.

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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.

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Principal Honours and Distinctions

Chevalier de la Légion d'honneur 1849.

Bibliography

1842, Anleitung zum Abteufen von Bohrlöchern, Luxembourg.

Further Reading

H.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).

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