Leonid Andrussow


Leonid Andrussow was a German chemical engineer. He developed the process for the production of hydrogen cyanide based on the oxidation of ammonia and methane, which is named after him Andrussow oxidation.

Biography

Leonid Andrussow was born in Riga, Governorate of Livonia, Russian Empire. His father Woldemar Georg, who earned his law degree at the University of St. Petersburg, was general counsel for the Russian Railroads in Riga. He was of Swedish and Baltic German ancestry, the original family name being Andersohn. Andrussow was graduated in chemical engineering from the University of Riga. During the Russian Revolution, he served as a White cavalry officer, and in 1920 was captured by the Bolsheviks in Turkestan. He was imprisoned on an island near Baku, and then transferred to the infamous Cheka prison, Lubianka in Moscow. He was released after three months when it became apparent that he had contracted malaria. He moved to Berlin, where he attended the Friedrich Wilhelms University, earning his doctorate in chemistry in 1926 under Walther Nernst. His thesis title was "Über die katalytische Ammoniakoxydation." In 1926, he married Irmgard Von Bredow, with whom he had six children. In 1927, he began researching rocket fuels, working at BASF, then IG Farben, in Ludwigshafen. According to Leon Green, Jr., of the Air Force Systems Command, Andrussow was probably the first person, in 1937, to conceive of the idea of a rocket propellant consisting of both liquid and solid components. See External link. He continued his work in catalytical processes, registering many patents for I.G. Farben, including that which became known as the "Andrussow Process." From 1946 on, he lived in Grenoble, and later in Paris. He became a member of the French Academy of Sciences, and in 1969, edited Bd. II, Eigenschaften der Materie in ihren Aggregatzuständen. Teil 5a, Transportphänomene I of the Landolt-Börnstein Zahlenwerte und Funktionen. He died in Paris at the age of 92.

Work

In 1927 he demonstrated that methane and ammonia react in the presence of oxygen at about 1200 °C over a platinum catalyst:
CH4 + NH3 + 1.5O2 → HCN + 3H2O

The energy needed for the reaction is provided by the part oxidation of methane and ammonia.

Patents

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