Alcohol by Volume
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Alcohol by Volume
The alcohol by volume shown on a bottle of absinthe.

Alcohol by volume (abbreviated as ABV, abv, or alc/vol) is a standard measure of how much alcohol (ethanol) is contained in a given volume of an alcoholic beverage (expressed as a volume percent).[1][2][3] It is defined as the number of millilitres (mL) of pure ethanol present in 100 mL (3.4 fl. oz) of solution at 20 °C (68 °F). The number of millilitres of pure ethanol is the mass of the ethanol divided by its density at 20 °C, which is 0.78924 g/mL (105.3 fl oz/gallon). The ABV standard is used worldwide. The International Organization of Legal Metrology has tables of density of water-ethanol mixtures at different concentrations and temperatures.

In some countries, e.g. France, alcohol by volume is often referred to as degrees Gay-Lussac (after the French chemist Joseph Louis Gay-Lussac),[4] although there is a slight difference since the Gay-Lussac convention uses the International Standard Atmosphere value for temperature, 15 °C (59 °F).

Volume change

Change in volume with increasing ABV

Mixing two solutions of alcohol of different strengths usually causes a change in volume. Mixing pure water with a solution less than 24% by mass causes a slight increase in total volume, whereas the mixing of two solutions above 24% causes a decrease in volume.[a] The phenomenon of volume changes due to mixing dissimilar solutions is called "partial molar volume". Water and ethanol are both polar solvents. When water is added to ethanol, the smaller water molecules are attracted to the ethanol's hydroxyl group, and each molecule alters the polarity field of the other. The attraction allows closer spacing between molecules than is usually found in non-polar mixtures.

Thus, ABV is not the same as volume fraction expressed as a percentage. Volume fraction, which is widely used in chemistry, is defined as the volume of a particular component divided by the sum of all components in the mixture when they are measured separately. To make a 50% v/v ethanol solution, for example, you would measure 50 mL of ethanol and separately measure 50 mL of water, then mix the two together. The resulting volume of solution will likely not measure 100 mL due to the change of volume on mixing.

Typical levels

Details about typical amounts of alcohol contained in various beverages can be found in the articles about them.

Drink Typical ABV
Fruit juice (naturally occurring) 0-0.09%
Low-alcohol beer 0.05-1.2%
Kvass 0.05-1.5%
Kefir 0.2-2.0%
Kombucha 0.5-1.5%
Boza 1.0%
Chicha 1.0-11% (usually 1-6%)
Tubâ 2.0-4.0%
Beer 2.0-12% (usually 4-6%)
Cider 2.0-12% (usually 4-8%)
Alcopops 4.0-17.5%
Malt liquor 5.0%+
Makgeolli 6.5-7%
Kuchikamizake roughly 7%[5]
Barley wine (strong ale) 8-15%
Mead 8-16%
Wine 5.5-16% (most often 12.5-14.5%)[6][7]
Bahalina 10-13%
Basi 10-16%
Bignay wine 12-13%
Duhat wine 12-13%
Tapuy 14-19%
Kilju 15-17%
Dessert wine 14-25%
Sake 15% (or 18-20% if not diluted prior to bottling)
Liqueurs 15-55%
Fortified wine 15.5-20%[8] (in the European Union, 18-22%)
Soju 14-45% (usually 17%)
Shochu 25-45% (usually 25%)
Ru 27-45% (usually 35% - except Ruou tam - 40-45%)
Bitters 28-45%
Applejack 30-40%
Mezcal, Tequila 32-60% (usually 40%)
Vodka 35-95% (usually 40%, minimum of 37.5% in the European Union)
Rum 37.5-80% (usually 40%)
Brandy 35-60% (usually 40%)
Grappa 37.5-60%
Ouzo 37.5%+
Gin 37.5-50%
Pálinka 37.5-86% (usually 52%)
Cachaça 38-54%
Sotol 38-60%
Stroh 38-80%
Fernet 39-45%
Lambanog 40-45%
Nalewka 40-45%
Tsipouro 40-45%
Scotch whisky 40-63.5%
Whisky 40-68% (usually 40%, 43% or 46%)
Baijiu 40-65%
Chacha 40-70%
R?chie (Central/Southeast European drink) 42-86%
Maotai 43-53%
Absinthe 45-89.9%
?uic? (Romanian drink) 30-65% (usually 35-55%)
Arak 60-65%
Oghi 60-75%
Poitín 60-95%
Centerbe (herb liqueur) 70%
Neutral grain spirit 85-95%
Cocoroco 93-96%[]
Rectified spirit 95% up to a practical limit of 97.2%

Alcohol proof

Another way of specifying the amount of alcohol content is alcohol proof, which in the United States is twice the alcohol-by-volume (ABV) number. This may lead to confusion over similar products bought in varying regions that have different names on country specific labels. For example, Stroh rum that is 80% ABV is advertised and labeled as Stroh 80 when sold in Europe, but is named Stroh 160 when sold in the United States.

In the United Kingdom proof is 1.75 times the number (expressed as a percentage).[9][10] For example, 40% abv is 80 proof in the US and 70 proof in the UK. However, since 1980, alcohol proof in the UK has been replaced by ABV as a measure of alcohol content.

Alcohol by weight

In the United States, a few states regulate and tax alcoholic beverages according to alcohol by weight (ABW), expressed as a percentage of total mass. Some brewers print the ABW (rather than the ABV) on beer containers, particularly on low-point versions of popular domestic beer brands.

One can use the following equation to convert between ABV and ABW:

At relatively low ABV, the alcohol percentage by weight is about 4/5 of the ABV (e.g., 3.2% ABW is about 4% ABV).[11] However, because of the miscibility of alcohol and water, the conversion factor is not constant but rather depends upon the concentration of alcohol. 100% ABW is equivalent to 100% ABV.

Prediction of alcohol content

During the production of wine and beer, yeast is added to a sugary solution. During fermentation, the yeasts consume the sugars and produce alcohol. The density of sugar in water is greater than the density of alcohol in water. A hydrometer is used to measure the change in specific gravity (SG) of the solution before and after fermentation. The volume of alcohol in the solution can then be estimated. There are a number of empirical formulae which brewers and winemakers use to estimate the alcohol content of the liquor made.


The simplest method for wine has been described by English author C.J.J. Berry:[10]


The calculation for beer is:[12]

However, many brewers use the following formula which uses a different constant (different probably due to temperature variations and rounding):[13]

It is derived in this manner:[12]

1.05 is the ratio (by mass) of ethanol molecules produced for every molecule of CO2 produced[dubious ] (46.07 g/mol C2H6O / 44.01 g/mol CO2 = 1.0468) from a single molecule of glucose. The number 0.7936 is the specific gravity of a 100% ethanol solution[14]. Both are unit-less measurements. The difference between the starting SG and the final SG measures the specific gravity lost to CO2 release.

For higher ABV above 6% many brewers use this formula:[15]

See also


  1. ^ See data in the CRC Handbook of Chemistry and Physics, 49th edition, pp. D-151 and D-152. Mixing a solution above 24% with a solution below 24% may cause an increase or a decrease, depending on the details.


  1. ^ "Lafayette Brewing Co". Archived from the original on 2012-02-19. Retrieved .
  2. ^ "Glossary of whisky and distillation". Archived from the original on 2012-02-12. Retrieved .
  3. ^ "English Ales Brewery Monterey British Brewing Glossary". Archived from the original on 2012-02-19. Retrieved .
  4. ^ "Joseph Louis Gay-Lussac (1778-1850)". Retrieved .
  5. ^ "brewing (and chewing) the origins of sake". April 2, 2012.
  6. ^ Robinson 2006, p. 10.
  7. ^ "Wine: From the Lightest to the Strongest". Wine Folly. 2015-11-23. Retrieved .
  8. ^ Robinson 2006, p. 279.
  9. ^ Regan 2003.
  10. ^ a b Berry 1998.
  11. ^ "Alcohol Content In Beer". Archived from the original on 4 July 2008. Retrieved 2008.
  12. ^ a b Peros, Roko (7 May 2010). "Calculate Percent Alcohol in Beer".
  13. ^ "Get to Know Your Alcohol (By Volume)". 18 June 2003. Archived from the original on 3 July 2014.
  14. ^ "S.G. Table for Ethanol-Water". Retrieved .
  15. ^ Anon, 2012, Industrial Microbiology Beer Fermentation Practical, School Of Applied Sciences, RMIT University, Melbourne


External links

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