Carl Scheibler Explained

Carl Scheibler
Birth Name:Carl Wilhelm Bernhard Scheibler
Birth Date:16 February 1827
Birth Place:Gemereth/Eupen, Germany
Nationality:German
Death Place:Berlin, Germany
Field:sugar, chemistry
Alma Mater:University of Berlin

Carl Wilhelm Bernhard Scheibler (16 February 1827 – 2 April 1899) was a German chemist. Scheibler's research focused on sugar, including the technical chemistry of sugar production and the composition of molasses.

Scheibler was born the son of Friedrich August Theodor Scheibler (1788–1864) and Anna Gertrud Eschweiler (1806–1877) in Gemereth/Eupen, at that time a small town close to the Belgian border. He went to school in Aachen and studied chemistry at the University of Berlin. He received his PhD for his work De Wolframiatibus.[1] Scheibler worked with Gustav Werther in Königsberg and from 1858 at the Pommersche Provinzial-Zuckersiederei in Stettin.[2] [3] [4] [5]

In 1866 Scheibler founded the Zuckerchemische und technische Laboratorium (Laboratory for sugar chemistry and technology) in Berlin, which was financed by the Verein der Deutschen Zuckerrübenindustrie (Association of the German Sugar Beet Industry). It was one of the first institutes dedicated to the chemistry of sugar. In 1870 Scheibler became professor at the Gewerbeakademie Berlin and at the University of Agriculture Berlin and he also was a member of the imperial patent office in Berlin between 1877 and 1882.[4]

After a conflict with the Verein der Deutschen Zuckerrübenindustrie in 1882, he only worked privately at his institute, but he was able to patent several inventions in that time. For example, he helped his relative Carl Johann Heinrich Scheibler invent a fertiliser, and he also improved smokeless powder for Otto von Bismarck in 1888.[4]

His most influential patents were based on the technical production of sugar from beets. The crystallisation of sugar from molasses was difficult and therefore the sugar had to be separated from the molasses. In 1863 Scheibler invented the elution method. During his research on molasses he discovered several compounds in molasses, for example betaine, asparaginic acid, glutamic acid, arabinose, arabinic acid, dextran, phosphoglyceride and cholesterol.[4]

He improved the strontia saccharate process, in which strontium hydroxide is mixed with the molasses and strontium di-saccharate precipitates and can be separated from the molasses. Prior to World War I the beet sugar industry used 100,000 to 150,000 tons of strontium hydroxide for this process per year.[6]

Scheibler died in Berlin on 2 April 1899.

Further reading

Notes and References

  1. Web site: De Wolframiatibus : Dissertatio Inauguralis Chemica . 2010-11-09 . https://web.archive.org/web/20110719103422/http://beluga.sub.uni-hamburg.de/record/3636903?sid=bf6d8c3aaa3336d59a109cab0856ea0c7f6e3eb9 . 2011-07-19 . dead.
  2. Elisabeth Nay-Scheibler: Die Geschichte der Familie Scheibler, in: Stiftung Scheibler-Museum Rotes Haus Monschau (Hg), Köln 1994
  3. Carl Johann Heinrich Scheibler: Geschichte und Geschlechtsregister der Familie Scheibler, Cologne, 1895
  4. Degener . P. . Carl Scheibler . Berichte der Deutschen Chemischen Gesellschaft . 33 . 3839–3846 . 1900 . 10.1002/cber.190003303200 . 3.
  5. Liebermann . C. . Sitzung vom 10. April 1899 . Berichte der Deutschen Chemischen Gesellschaft . 32 . 981–985 . 1899 . 10.1002/cber.189903201153.
  6. Book: Heriot, T. H. P. . Strontia-saccharate Process . https://archive.org/details/manufactureofsug030254mbp/page/n370/mode/1up?view=theater . 978-1-4437-2504-0 . Manufacture of Sugar from the Cane and Beet . 1920 . London . Longmans, Green and Co. . 341-2.