Real Attenuation: Difference between revisions

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The attenuation of beer after alcohol and carbon dioxide is removed. In the brewing industry only the apparent attenuation is used to measure the progress of fermentation. Formula A = (B-b)/B x 100 where A equals real attenuation and B equals original gravity in degrees B or degrees P and b equals specific gravity of beer devoid of alcohol and carbon dioxide. Real attenuation (extract) may also be calculated from the apparent attenuation RA = AA + (alcohol by weight x 0.46) Thus, a beer with an apparent extract of 2.6, and 3.7 percent alcohol would have a real extract RE = 2.6 (3.7 x 4.6) = 2.6 + 1.7 = 4.3
The [[attenuation]] of beer after [[alcohol]] and carbon dioxide is removed. In the [[brewing]] industry only the apparent attenuation is used to measure the progress of [[fermentation]]. Formula A = (B-b)/B x 100 where A equals real attenuation and B equals original gravity in degrees B or degrees P and b equals specific gravity of beer devoid of alcohol and carbon dioxide. Real attenuation ([[extract]]) may also be calculated from the apparent attenuation RA = AA + (alcohol by weight x 0.46) Thus, a beer with an apparent [[extract]] of 2.6, and 3.7 percent [[alcohol]] would have a real [[extract]] RE = 2.6 (3.7 x 4.6) = 2.6 + 1.7 = 4.3
 
[[Category:Glossary]]

Latest revision as of 18:09, 20 January 2007

The attenuation of beer after alcohol and carbon dioxide is removed. In the brewing industry only the apparent attenuation is used to measure the progress of fermentation. Formula A = (B-b)/B x 100 where A equals real attenuation and B equals original gravity in degrees B or degrees P and b equals specific gravity of beer devoid of alcohol and carbon dioxide. Real attenuation (extract) may also be calculated from the apparent attenuation RA = AA + (alcohol by weight x 0.46) Thus, a beer with an apparent extract of 2.6, and 3.7 percent alcohol would have a real extract RE = 2.6 (3.7 x 4.6) = 2.6 + 1.7 = 4.3