Blau gas

Summary

Blau gas (German: Blaugas) is an artificial illuminating gas, similar to propane, named after its inventor, Hermann Blau[1][2] of Augsburg, Germany. Rarely used or produced today, it was manufactured by decomposing mineral oils in retorts by heat, and compressing the resulting naphtha until it liquefied. It was transported in liquid condition, and, like LPG, when released returns to a gaseous state.[3]

Hermann Blau

The density relative to air is 0.963, giving an average molecular weight of 27.9. One litre at 0 °C and 760 mm Hg contains 1.246 grams, of which 1.042 is carbon and 0.204 is hydrogen, giving an average of 1.94 carbon atoms and 4.54 hydrogen atoms per molecule. Blau gas contains about 50% olefins (alkenes), 37% methane and other alkanes, 6% hydrogen, while the rest is air. The heat of combustion is 12,318 kcal, or 51.5 MJ, per kg.[4]

Blau gas has a rather water-like color. It was historically stored in steel cylinders for shipment, and, around the turn of the century, had the advantage of possessing the highest specific energy of all artificially produced gases. Chemically, Blau gas is similar to coal gas, but, unlike coal gas, is free from carbon monoxide. Furthermore, Blau gas is difficult to bring to explosion.[4][5]

It was obtained from thermal decomposition of hydrocarbons (especially distillates from lignite and oil shale, but also other mineral oils). In contrast to the procedure for oil gas, which was produced by the Pintsch company from 1909, was also shipped in steel cylinders and had distillation temperatures of 900 to 1000 degrees Celsius to gasify the oil as completely as possible, the Blaugas process used lower temperatures of 550 °C to 600 °C and greater precompression. Easily condensable (gasoline-like) hydrocarbons were separated in the process (initially by additional cooling) before final compression in the liquefied gas cylinders.[6]

Blau gas was burned for lighting and heating; a less-pure form known as Pintsch gas fuelled illuminated buoys and beacons (for navigation), railroad car lights and stoves in the late 19th and early 20th centuries. Blau gas is most famous, however, as the buoyancy compensating fuel for the LZ 127 Graf Zeppelin.[7] Because its density is approximately the same as that of air, burning Blau gas and thereby replacing its volume with air does not lighten the gas cells of an airship, thereby eliminating the need to adjust buoyancy or ballast in-flight.[8]

See also edit

References edit

  1. ^ John Bonner; George William Curtis; Henry Mills Alden; Samuel Stillman Conant; John Foord; Montgomery Schuyler; John Kendrick Bangs; Richard Harding Davis; Carl Schurz; George Brinton McClellan Harvey; Henry Loomis Nelson; Norman Hapgood (1908). Harper's weekly. Harper's Magazine Co. Retrieved 3 May 2012. hermann Blau blaugass.
  2. ^ Chamber of Commerce journal of Maine. 1913. Retrieved 3 May 2012.
  3. ^ The Modern world encyclopaedia : illustrated. Home Entertainment Library. 1935. OCLC 1091880941.
  4. ^ a b "Blau Gas".
  5. ^ Teed, P. L. (1931). "Gas Fuels for Airships: The Manufacture of Blau Gas, with Details of Some Possible Alternatives". Aircraft Engineering and Aerospace Technology. 3 (2): 41–42. doi:10.1108/eb029368.
  6. ^ Sander (1916). "Ueber die Gewinnung und Verwendung von Blaugas". Polytechnisches Journal: 155–162. Nach dem Aufsatz von Hugo Lieber in Metallurgical and Chemical Engineering, Band 12, S. 153.
  7. ^ Graf Zeppelin site Archived 25 August 2006 at the Wayback Machine
  8. ^ "Blue Gas & Hydrogen". Time, 15 October 1928

External links edit

  • Use of Blau gas on airship LZ-127 Graf Zeppelin