Alcohol by volume (abbreviated as alc/vol or ABV) is a standard measure of the volume of alcohol 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 (3.5 imp fl oz; 3.4 US 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 (68 °F), which is 0.78945 g/mL (0.82353 oz/US fl oz; 0.79122 oz/imp fl oz; 0.45633 oz/cu in).[4] The alc/vol standard is used worldwide. The International Organization of Legal Metrology has tables of density of water–ethanol mixtures at different concentrations and temperatures.
This article needs additional citations for verification. (October 2024) |
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),[5] 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
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.[lower-alpha 1] 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.[citation needed]
Thus, alc/vol is not the same as volume fraction expressed as a percentage. Volume fraction, which is widely used in chemistry (commonly denoted as v/v), is defined as the volume of a particular component divided by the sum of all components in the mixture when they are measured separately. For example, to make 100 mL of 50% alc/vol ethanol solution, water would be added to 50 mL of ethanol to make up exactly 100 mL. Whereas to make a 50% v/v ethanol solution, 50 mL of ethanol and 50 mL of water could be mixed but the resulting volume of solution will measure less than 100 mL due to the change of volume on mixing, and will contain a higher concentration of ethanol.[6] The difference is not large, with the maximum difference being less than 2.5%, and less than 0.5% difference for concentrations under 20%.[citation needed]
Threshold levels
Legal thresholds
Some drinks have requirements of alcoholic content in order to be certified as a certain alcohol brand or label.[citation needed]
Low-alcohol beers (<0.5) are considered in some countries such as Iran as permitted (or "halal" under Muslim vocabulary) despite alcohol being banned.[7] However, the level of alcohol-free beers is typically the lowest commercially sold 0.05.[citation needed]
Biological thresholds
It is near impossible for a healthy person to become intoxicated drinking low-alcohol drinks. The low concentration severely limits the rate of intake, which is easily dispatched by human metabolism. Quickly drinking 1.5 L of 0.4% alc/vol beer in an hour resulted in a maximum of 0.0056% BAC in a study of German volunteers.[8] Healthy human kidneys can only excrete 0.8–1.0 L of water per hour, making water intoxication likely to set in before any alcoholic intoxication.[9]
The process of ethanol fermentation will slow down and eventually come to a halt as the alcohol produced becomes too concentrated for the yeast to tolerate, defining an upper limit of alc/vol for non-distilled alcoholic drinks. The typical tolerance for beer yeasts is at 8–12%, while wine yeasts typically range from 14–18%, with speciality ones reaching 20% alc/vol. Any higher would require distillation, producing liquor.[10][11]
Typical levels
Details about typical amounts of alcohol contained in various beverages can be found in the articles about them.
Drink | Typical alc/vol | Lowest | Highest |
---|---|---|---|
Fruit juice (naturally occurring) | 0–0.11%[12] They qualify as alcohol-free drinks in most countries.
(most juices do not have alcohol but orange or grape [the highest here] may have some from early fermentation) |
0.00 | 0.11 |
Low-alcohol beer | 0.05–1.2% (usually not considered as alcohol legally)
Under 2.5% in Finland, and 2.25% in Sweden, however. |
0.05 | 1.02 |
Kvass | 0.05–1.5% | 0.05 | 1.50 |
Kefir | 0.2–2.0% | 0.20 | 2.00 |
Sobia | 0.2–6.8% | 0.20 | 6.80 |
Kombucha | 0.5–1.5% | 0.50 | 1.50 |
Kumis | 0.7–4.5% (usually 0.7–2.5%) | 0.70 | 4.50 |
Boza | 1.0% | 1.00 | 1.00 |
Chicha | 1.0–11% (usually 1–6%) | 1.00 | 11.00 |
Tubâ | 2.0–4.0% | 2.00 | 4.00 |
Chūhai | 3.0–12.0% (usually 3–8%) | 3.00 | 12.00 |
Pulque | 2.0–7.0% (usually 4–6%) | 2.00 | 12.00 |
Beer | (usually 4–6%) | 2.00 | 10.00 |
Cider | (usually 4–8%) | 4.00 | 8.00 |
Palm wine | 4.0–6.0% | 4.00 | 6.00 |
Alcopops | 4.0–17.5% | 4.00 | 17.50 |
Malt liquor | 5.0% | 5.00 | 5.00 |
Hard seltzer | 5.0% | 5.00 | 5.00 |
Four Loko | 6–14% | 6.00 | 14.00 |
Makgeolli | 6.5–7% | 6.50 | 7.00 |
Kuchikamizake | 7%[13] | 7.00 | 7.00 |
Barley wine (strong ale) | 8–15% | 8.00 | 15.00 |
Mead | 8–16% | 8.00 | 16.00 |
Wine | 5.5–16% (most often 12.5–14.5%)[14][15] | 5.50 | 16.00 |
Bahalina | 10–13% | 10.50 | 13.00 |
Basi | 10–16% | 10.00 | 16.00 |
Bignay wine | 12–13% | 12.00 | 13.00 |
Duhat wine | 12–13% | 12.00 | 13.00 |
Tapuy | 14–19% | 14.00 | 19.00 |
Kilju | 15–17% | 15.00 | 17.00 |
Dessert wine | 14–25% | 14.00 | 25.00 |
Sake | 15% (or 18–20% if not diluted prior to bottling) | 15.00 | 20.00 |
Liqueurs | 15–55% | 15.50 | 55.00 |
Fortified wine | 15.5–20%[16] (in the European Union, 15–22%[17]) | 15.50 | 22.00 |
Soju | 14–45% (usually 17%) | 14.00 | 45.00 |
Rice wine | 18–25% | 18.00 | 25.00 |
Shochu | 25–45% (usually 25%) | 25.00 | 45.00 |
Awamori | 25–60% (usually 30%) | 25.00 | 60.00 |
Rượu đế | 27–45% (usually 35% – except Ruou tam – 40–45%) | 27.00 | 45.00 |
Bitters | 28–45% | 28.00 | 45.00 |
Applejack | 30–40% | 30.00 | 40.00 |
Pisco | 30–48% | 30.00 | 48.00 |
Țuică (Romanian drink) | 30–65% (usually 35–55%) | 30.00 | 65.00 |
Mezcal, Tequila | 32–60% (usually 40%) | 32.00 | 60.00 |
Vodka | 35–95% (usually 40%, minimum of 37.5% in the European Union) | 35.00 | 95.00 |
Rum | 37.5–80% (usually 40%) | 37.50 | 80.00 |
Brandy | 35–60% (usually 40%) | 35.00 | 60.00 |
Grappa | 37.5–60% | 37.50 | 60.00 |
Ouzo | 37.5% | 37.50 | 37.50 |
Gin | 37.5–50% | 37.50 | 50.00 |
Pálinka | 37.5–86% (usually 52%) | 37.50 | 86.00 |
Cachaça | 38–48% | 38.00 | 48.00 |
Sotol | 38–60% | 38.00 | 60.00 |
Stroh | 38–80% | 38.00 | 80.00 |
Fernet | 39–45% | 39.00 | 45.00 |
Lambanog | 40–45% | 40.00 | 45.00 |
Nalewka | 40–45% | 40.00 | 45.00 |
Tsipouro | 40–45% | 40.00 | 45.00 |
Rakı | 40–50% | 40.00 | 50.00 |
Scotch whisky | 40–70+% | 40.00 | 70.00+ |
Whisky | 40–70+% (usually 40%, 43% or 46%) | 40.00 | 70.00+ |
Baijiu | 40–65% | 40.00 | 65.00 |
Chacha | 40–70% | 40.00 | 70.00 |
Bourbon whiskey | min 40% bottled | 40.00 | 80.00 |
Rakija (Central/Southeast European drink) | 40–86% | 42.00 | 86.00 |
Maotai | 43–53% | 43.00 | 53.00 |
Absinthe | 45–89.9% | 45.00 | 89.90 |
Arak | 60–65% | 60.00 | 65.00 |
Oghi | 60–75% | 60.00 | 75.00 |
Poitín | 60–95% | 60.00 | 95.00 |
Centerbe (herb liqueur) | 70% | 70.00 | 70.00 |
Neutral grain spirit | 85–95% | 85.00 | 95.00 |
Cocoroco | 93–96%[18] | 93.00 | 96.00 |
Rectified spirit | 95% up to a practical limit of 97.2% | 95.00 | 97.20 |
Practical estimation 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.[citation needed]
Specific gravity is the density of a liquid relative to that of water, i.e., if the density of the liquid is 1.05 times that of water, it has a specific gravity of 1.05. In UK brewing usage, it is customary to regard the reference value for water to be 1000, so the specific gravity of the same example beer would be quoted as 1050. The formulas here assume that the former definition is used for specific gravity.[citation needed]
Wine
The simplest method for wine has been described by English author Cyril Berry:[19]
Beer
One calculation for beer is:[20]
For higher ABV above 6% many brewers use this formula:[21]
Other methods of specifying alcohol content
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 (alc/vol) 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.[citation needed]
In the United Kingdom, proof is 1.75 times the number (expressed as a percentage).[22][19] For example, 40% alc/vol is 80 proof in the US and 70 proof in the UK. However, since 1980, alcohol proof in the UK has been replaced by alc/vol as a measure of alcohol content, avoiding confusion between the UK and US proof standards.[citation needed]
Alcohol by weight
In the United States, Arkansas, Kansas, Mississippi, South Carolina, and Tennessee[23] regulate and tax alcoholic beverages according to alcohol by weight (ABW), expressed as a percentage of total mass. The alc/vol value of a beverage is always higher than the ABW.
Because ABW measures the proportion of the drink's mass which is alcohol, while alc/vol is the proportion of the drink's volume which is alcohol, the two values are in the same proportion as the drink's density is with the density of alcohol. Therefore, one can use the following equation to convert between ABV and ABW:
At relatively low alc/vol, the alcohol percentage by weight is about 4/5 of the alc/vol (e.g., 3.2% ABW is about 4% alc/vol).[24] However, because of the miscibility of alcohol and water, the conversion factor is not constant but rather depends upon the concentration of alcohol.[citation needed]
See also
Notes
References
Bibliography
External links
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