Karl-Hermann Geib Explained

Karl-Hermann Geib
Birth Date:12 March 1908
Birth Place:Berlin, Germany
Death Place:Moscow, Soviet Union
Nationality:German
Fields:Physical chemistry
Alma Mater:Leipzig University

Karl-Hermann Geib (12 March 190821 July 1949) was a German physical chemist who, in 1943, developed the "dual temperature exchange sulphide process" (known as the Girdler sulfide process) which is regarded as the "most cost-effective process for producing heavy water".[1] [2] A parallel development of this process was achieved by Jerome S. Spevack at Columbia University

Early life

Geib was born in Berlin, Germany, on 12 March 1908 to Karl Geib and his wife Maria (Buddee). He married Hedwig Delbrück and they had four children, Katharina Oestreich (1937-2020), Barbara Pietsch (1938–2016), Ruprecht, born 1939 and Ulrike Heise, born 1940.[3]

In 1931, he graduated from Leipzig University and joined the Institute of Physical Chemistry and Electrochemistry of Kaiser Wilhelm Society, which is known today as the Fritz Haber Institute of the Max Planck Society.[3]

Work in Germany

In 1931, while under the supervision of Paul Harteck, in Berlin, Geib delivered his dissertation on The Action of Atomic to Molecular Hydrogen [4] [5] and joined the Kaiser-Wilhelm Institut für physikalische Chemie und Elektrochemie of the Kaiser-Wilhelm Gesellschaft in Berlin-Dahlem. The first scientific work he performed under the direction of Paul Harteck. Shortly after Harteck highway crossing in Cambridge Geib returned to alma mater – the Leipzig University and married Hedwig Delbrück.

He began exploring the reactions of the newly discovered deuterium. Independently and jointly with V.T. Forster, E.W.R. Steacie, A. Lendl, R.K.F.Bonhoeffer and L.D.C.Bok he published a number of papers, the results of which are reflected in his review.[6]

After the beginning of World War II (1940), Geib went to the chemical industrial complexes Leunawerke and proceeded under the Harteck's direction of the development process production of heavy water by a two-temperature isotopic exchange between hydrogen sulfide and water. So he received reservation on the mobilization, which for him was a significant factor. Karl and Hedwig Geib at the time had four children from infancy to five years.

In 1943, the Norwegian heavy water sabotage caused the production of heavy water to be returned to Germany under the direction of Paul Harteck, whose graduate student, Karl-Hermann Geib, while employed with the German chemical industry conglomerate IG Farben, suggested an exchange that used hydrogen sulfide in the process.[7]

The developed process was more effective than process with exchange in a hydrogen–water system, but its implementation was delayed. To create production capacity due to corrosion of hydrogen sulfide would take a lot of special alloys, which in time of war there is a shortage. Simultaneously developed by Jerome Spevak in the U.S. (1943) the same process did not develop at first for the same reason.[8] Immediately after the war under the auspices of the Soviet Military Administration in Germany and other agencies in the Leunawerke had assembled a group of experts, led by Paul Herold, a former Director on science. Geib joined the group. Pilot plants were restored and study of the process by isotopic exchange between hydrogen and water was continued. Besides the preliminary draft of plant with hydrogen sulfide annual capacity 5 tons of heavy water was designed.[9]

Deportation to Soviet Union

At 4:15 a.m. on 21 October 1946, Geib, and all of the other German scientists who had worked on heavy water production during World War II, were rounded up in Leunawerke by the NKVD in "Operation Osoaviakhim"[3] as part of the Russian Alsos and deported to the Soviet Union. They were housed in the town of Babushkin (presently Babushkinsky District of Moscow) and put to work at the Karpov Institute of Physical Chemistry under the leadership of Max Volmer until mid-1948 when they were then sent to Rubizhne in Ukraine.[10]

Scientific work on heavy water and its production in both Nazi Germany and the Soviet Union were conducted in strict secrecy, so many facts remain unclear.

After applying to the Canadian Embassy in Moscow for asylum (exact date classified) giving the name of Professor E.W.R. Steacie as a reference, he was told to come back the next day. That was the last time he was seen and his wife in Germany received his effects in the mail.[11]

See also

Notes and References

  1. Book: Per F Dahl. Heavy Water and the Wartime Race for Nuclear Energy. March 24, 2016. 1 January 1999. CRC Press. 978-0-7503-0633-1. 298–.
  2. Book: Lutz Castell. Otfried Ischebeck. Time, Quantum and Information. March 24, 2016. April 17, 2013. Springer Science & Business Media. 978-3-662-10557-3. 37–.
  3. Heavywater. History of One Priority. Part 3. . J11505 . 2227-6920 . Pietsch . Barbara . Sadovsky . A.S. . Karpov Institute of Physical Chemistry . May 2015 . March 21, 2016 . . International periodic scientific journal (SWorld).
  4. Geib . Karl-Hermann . 1931 . Die Einwirkung von atomaren auf molekularen Wasserstoff . Zeitschrift für Physikalische Chemie . 1931A . 849–862 . 10.1515/zpch-1931-s189 . 99450294 .
  5. Book: Mark Walker. German National Socialism and the Quest for Nuclear Power, 1939-49. March 24, 2016. January 1993. Cambridge University Press. 978-0-521-43804-9. 142–.
  6. Geib K. H. . 1938. Chemische Reaktionen der schweren Wasserstoffatome . Z. Elektrochem.. 44. 1. 81–88.
  7. Book: Walker, Mark . January 1993 . German National Socialism and the Quest for Nuclear Power, 1939–49. Google Books . . 142 . 978-0-521-43804-9.
  8. A.S. Sadovsky : Heavy Water. History of one priority:Part I https://web.archive.org/web/20141111234744/http://www.sci-journal.ru/articles/2011/030e.pdf
  9. F. A. Valente . March 21, 1955 . Section 73 (Atomic Energy) NIS 26 (USSR) . Central Intelligence Agency . H15–H16 . March 9, 2016 .
  10. German Scientists in the Soviet Atomic Project . Oleynikov . Pavel V. . The Nonproliferation Review . 2000 . March 12, 2016.
  11. An Early History of Heavy Water . Waltham . Chris . . August 1998 . physics/0206076 .