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Scaling Up: The Institution of Chemical Engineers and the Rise of a New Profession (Chemists and Chemistry) (2000)

par Colin Divall, Sean F. Johnston (Auteur)

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Precursors of the modern chemical industry began to emerge in Northern Europe in the middle of the eighteenth century. The Industrial Revolution boosted activities such as soap-making, glassmaking and textiles production, which required increasing quantities of chemical products. The Lead Chamber process for the manufacture of sulphuric acid, required for the production of dye, was developed in the 1740s by John Roebuck then based in Birmingham. Production of this key commodity rose steadily. By the 1820s, British annual production had reached 10 000 tons of 100% acid. By 1900, Britain was producing one quarter of the world's output with an annual production approaching one million tons. Demand for alkalis for glassmaking and soap-making, for textile dyes and for bleach was also growing rapidly in the second half of the eighteenth century, and it became clear that existing sources of these materials would not be sufficient. In response to a prize established by the Academie des Sciences, Nicholas Leblanc had devised by 1791 a method for converting common salt into soda ash, which was to become the central operation of the world alkali industry for about one hundred years.… (plus d'informations)

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Nom de l'auteur	Rôle	Type d'auteur	Œuvre ?	Statut
Divall, Colin	Auteur	auteur principal	toutes les éditions	confirmé
Johnston, Sean F.	Auteur	auteur principal	toutes les éditions	confirmé

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George E. Davis medal (2001)

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2000

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The representation of chemical engineering as a skilled specialism, an academic subject and an acknowledged profession is scarcely a century old. Its multiple identities followed different national trajectories. In Britain – shaped by institutions, firms and governments – the emergence of recognised chemical engineers was the unique result of professional aspirations and contingency.

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Frank Morton (chemical engineer)

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Institution of Chemical Engineers

Terence Fox

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Precursors of the modern chemical industry began to emerge in Northern Europe in the middle of the eighteenth century. The Industrial Revolution boosted activities such as soap-making, glassmaking and textiles production, which required increasing quantities of chemical products. The Lead Chamber process for the manufacture of sulphuric acid, required for the production of dye, was developed in the 1740s by John Roebuck then based in Birmingham. Production of this key commodity rose steadily. By the 1820s, British annual production had reached 10 000 tons of 100% acid. By 1900, Britain was producing one quarter of the world's output with an annual production approaching one million tons. Demand for alkalis for glassmaking and soap-making, for textile dyes and for bleach was also growing rapidly in the second half of the eighteenth century, and it became clear that existing sources of these materials would not be sufficient. In response to a prize established by the Academie des Sciences, Nicholas Leblanc had devised by 1791 a method for converting common salt into soda ash, which was to become the central operation of the world alkali industry for about one hundred years.

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