Beer Strength
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When drinking beer, there are many factors to be considered. Principal among them are bitterness, the variety of flavours present in the beverage and their intensity,
alcohol Alcohol most commonly refers to: * Alcohol (chemistry), an organic compound in which a hydroxyl group is bound to a carbon atom * Alcohol (drug), an intoxicant found in alcoholic drinks Alcohol may also refer to: Chemicals * Ethanol, one of sev ...
content, and colour. Standards for those characteristics allow a more objective and uniform determination to be made on the overall qualities of any beer.


Colour

"Degrees Lovibond" or "°L" scale is a measure of the colour of a substance, usually beer, whiskey, or
sugar Sugar is the generic name for sweet-tasting, soluble carbohydrates, many of which are used in food. Simple sugars, also called monosaccharides, include glucose, fructose, and galactose. Compound sugars, also called disaccharides or double ...
solutions. The determination of the degrees Lovibond takes place by comparing the colour of the substance to a series of amber to brown glass slides, usually by a colorimeter. The scale was devised by Joseph Williams Lovibond. The
Standard Reference Method The Standard Reference Method or SRM is one of several systems modern brewers use to specify beer color. Determination of the SRM value involves measuring the attenuation of light of a particular wavelength (430 nm) in passing through 1 c ...
(SRM) and European Brewery Convention (EBC) methods have largely replaced it, with the SRM giving results approximately equal to the °L. The Standard Reference Method or SRM is a system modern brewers use to measure colour intensity, roughly darkness, of a beer or wort. The method involves the use of a spectrophotometer or photometer to measure the attenuation of light of a particular wavelength, 430 
nanometre 330px, Different lengths as in respect to the molecular scale. The nanometre (international spelling as used by the International Bureau of Weights and Measures; SI symbol: nm) or nanometer (American and British English spelling differences#-re ...
s (blue), as it passes through a sample contained in a cuvette of standardised dimensions located in the light path of the instrument. The EBC convention also measures beer and wort colour, as well as quantifying turbidity (also known as haze) in beer.


Strength

The strength of beer is measured by its alcohol content by volume expressed as a percentage, that is to say, the number of millilitres of
absolute alcohol Ethanol (abbr. EtOH; also called ethyl alcohol, grain alcohol, drinking alcohol, or simply alcohol) is an organic compound. It is an alcohol with the chemical formula . Its formula can be also written as or (an ethyl group linked to a ...
(ethanol) in 100 mL of beer. The most accurate method of determining the strength of a beer would be to take a quantity of beer and distill off a spirit that contains all of the alcohol that was in the beer. The alcohol content of the spirit can then be measured using a hydrometer and tables of density of alcohol and water mixtures. A second accurate method is the ebulliometer method, which uses the difference between the boiling temperature of pure water and the boiling temperature of the beer being tested. In practice the most common method used by brewers to estimate the strength of a beer is to measure the density of the wort before fermentation and then to measure the density once the fermentation is completed, and to use these two data points in an empirical formula which estimates the alcohol content or strength of the beer.


Density

The most common method measuring the density of a liquid is with a
hydrometer A hydrometer or lactometer is an instrument used for measuring density or relative density of liquids based on the concept of buoyancy. They are typically calibrated and graduated with one or more scales such as specific gravity. A hydrometer ...
; hydrometers can be calibrated with a number of scales. A common scale is that of specific gravity (SG); that is to say the density of a liquid relative to the density of pure water (at a standard temperature). Specific gravity can also be measured by a pycnometer or oscillating U-tube electronic meter. Water has a SG of 1.000, absolute alcohol has a SG of 0.789. Other density scales are discussed below. The density of the wort depends on the sugar content in the wort: the more sugar the higher the density. The fermented beer will have some residual sugar which will raise the SG, the alcohol content will lower the SG. The difference between the SG of the wort before fermentation and the SG of the beer after fermentation gives an indication of how much sugar was converted to alcohol and CO2 by the yeast. A basic formula to calculate beer strength based on the difference between the original and final SG is: ABV = 131.25(OG - FG) The formula below is an alternate equation which provides more accurate estimates at higher alcohol percentages (it is typically used for beers above 6 or 7%). ABV = 133(OG - FG)/FG where OG is the original gravity, or the specific gravity before fermentation and FG is the final gravity or SG after fermentation. "Original Extract" (OE) is a synonym for original gravity. The OE is often referred to as the "size" of the beer and is, in Germany, often printed on the label as '' Stammwürze'' or sometimes just as a percent. In the Czech Republic, for example, people speak of "10 degree beers", "12 degree beers" and so on. Gravity measurements are used to determine the "size" of the beer, its alcoholic strength, and how much of the available sugar the yeast were able to consume (a given strain can be expected, under proper conditions, to ferment a wort of a particular composition to within a range of attenuation; that is, they should be able to consume a known percentage of the extract). Historically gravity was measured and recorded in brewer's pounds (also known as just "pounds"). If a wort was said to be "26 lbs. gravity per barrel" it meant that a standard barrel of 36 imperial gallons of the wort weighed 26 pounds more than a barrel of pure water. The actual measurement was by saccharometer (i.e. hydrometer) correcting for temperature by a calibration scale or else by a special brewer's slide rule. An average strength first running of 1864 would be 30 pounds or 1.083 OG.


Other density scales

Three common scales used in fermentation are: * Balling (°Balling) * Brix (°Bx) * Plato (°P) The oldest scale, Balling, was developed in 1843 by Bohemian scientist Karl Joseph Napoleon Balling (1805-1868) as well as Simon Ack. In the 1850s German engineer-mathematician
Adolf Ferdinand Wenceslaus Brix Adolf Ferdinand Wenceslaus Brix (20 February 1798 – 14 February 1870) was a German mathematician and engineer.
(1798-1870) corrected some of the calculation errors in the Balling scale and introduced the
Brix Degrees Brix (symbol °Bx) is a measure of the dissolved solids in a liquid, and is commonly used to measure dissolved sugar content of an aqueous solution. One degree Brix is 1 gram of sucrose in 100 grams of solution and represents the strength ...
scale. In the early 1900s German chemist
Fritz Plato Fritz Plato (1858 – 1938) was a German chemist. The unit for specific gravity Relative density, or specific gravity, is the ratio of the density (mass of a unit volume) of a substance to the density of a given reference material. Specific g ...
(1858-1938) and his collaborators made further improvements, introducing the Plato scale. Essentially they are the same (all based on mass fraction of
sucrose Sucrose, a disaccharide, is a sugar composed of glucose and fructose subunits. It is produced naturally in plants and is the main constituent of white sugar. It has the molecular formula . For human consumption, sucrose is extracted and refined ...
); the tables differ in their conversion from weight percentage to specific gravity in the fifth and sixth decimal places. A rough conversion between Brix, degrees Plato or degrees Balling and specific gravity can be made by dividing the number behind the decimal point in the SG (which is often referred to as gravity points) by 4. So a specific gravity of 1.048 has 48 gravity points. 48 divided by 4 is 12 degrees Plato, Balling or Brix. This conversion method is accurate up to a specific gravity of 1.070 at which point the approximation begins to deviate from the actual conversion. Winemakers, as well as the sugar and juice industry, typically use degrees Brix. British and continental European beer brewers generally use degrees Plato. American brewers use a mixture of degrees Balling, degrees Plato and specific gravity. Home wine, mead, cider, and beer makers typically use specific gravity. In some countries, alcohol by volume is referred to as degrees Gay-Lussac (after the French chemist Joseph Louis Gay-Lussac). France, Spain and the United Kingdom use the system to determine alcohol content. Belgium, Norway, and Sweden use a modified table to calculate taxes on alcoholic beverages.


XXX marks

The letter "X" is used on some beers, and was traditionally a mark of beer strength, with more exes indicating a higher alcoholic content. Some sources suggest that the origin of the mark was in the
breweries A brewery or brewing company is a business that makes and sells beer. The place at which beer is commercially made is either called a brewery or a beerhouse, where distinct sets of brewing equipment are called plant. The commercial brewing of bee ...
of medieval monasteries, where the X served as a guarantee of quality for beers of increasing strength. Another explanation for the X marks may be rooted in the duty taxes of alcoholic beverages beginning in England in 1643. The "X" mark on a cask of beer was originally used to indicate that the contents were stronger than legal small beer limits, and were subject to a tax of ten ( Roman numeral X)
shilling The shilling is a historical coin, and the name of a unit of modern currencies formerly used in the United Kingdom, Australia, New Zealand, other British Commonwealth countries and Ireland, where they were generally equivalent to 12 pence o ...
s per barrel tax. Later, brewers added additional (superfluous) X marks to signify progressively stronger beers: "the present quack-like denominations of XX (double X) and XXX (treble X), which appear, unnecessarily, on the casks and in the accounts of the strong-ale brewers". In mid-19th century England, the use of "X" and other letters had evolved into a standardized grading system for the strength of beer. Today, it is used as a trademark by a number of brewers in the United Kingdom, the Commonwealth and the United States.


Bitterness

Bitterness scales attempt to rate the relative
bitter Bitter may refer to: Common uses * Resentment, negative emotion or attitude, similar to being jaded, cynical or otherwise negatively affected by experience * Bitter (taste), one of the five basic tastes Books * '' Bitter (novel)'', a 2022 nove ...
ness of beer. The bitterness of beer is provided by compounds such as
humulone Humulone (α-lupulic acid), a vinylogous type of organic acid, is a bitter-tasting chemical compound found in the resin of mature hops (''Humulus lupulus''). Humulone is a prevalent member of the class of compounds known as alpha acids, which c ...
s, or alpha acids from
hops Hops are the flowers (also called seed cones or strobiles) of the hop plant ''Humulus lupulus'', a member of the Cannabaceae family of flowering plants. They are used primarily as a bittering, flavouring, and stability agent in beer, to whi ...
used during brewing. During the brewing process, humulone undergoes isomerization to form both ''cis''- and ''trans''-
isohumulone Isohumulones are chemical compounds that contribute to the bitter taste of beer and are in the class of compounds known as iso-alpha acids. They are found in hops. Beer The bitterness of beer is measured according to the International Bittern ...
which are responsible for the bitter taste of the beer. Likewise, hops contain lupulones, or beta acids. These beta acids are not considered in the initial bittering of the wort as much as their alpha acid counterparts since they do not isomerize through boiling, and therefore do not dissolve in the wort. However, beta acids can undergo oxidation and slowly contribute to the bitterness of the beer. This bitterness is harsher than the bitterness of the alpha acids and this flavor can be undesirable. The oxidation occurs over time through fermentation, storage, and aging. At the same time, isomerized alpha acids undergo degradation and reduce the bitterness of the beer. Since the quantities of alpha and beta acids range among hops, the variety of hop should be considered when targeting a specific amount of bitterness in the beer. To maximize bitterness, hops with large alpha acid concentrations should be used. Such varieties include Chinook, Galena, Horizon, Tomahawk, and Warrior hops, and these contain alpha acid concentrations up to 16% by mass. Since the bitterness is not influenced by beta acids, beta acids are not considered when selecting the variety of hop. Also, the amount of time that the hops are boiled affects the bitterness of the beer. Since heat is needed to isomerize alpha acids, applying heat for longer amounts of time increases the conversion to the isomerized form. The International Bitterness Units scale, or IBU, is used to approximately quantify the bitterness of beer. This scale is not measured on the perceived bitterness of the beer, but rather the amount of iso-alpha acids. There are several methods to measure IBU. The most common and widely used way is through spectrophotometry. In this process, hops are boiled in wort to promote isomerization. Since the iso-alpha acids are slightly hydrophobic, a reduction of the pH by adding acid increases the hydrophobicity of the iso-alpha acids. At this point, an organic solution is added and the iso-alpha acids shift to the organic layer out of the aqueous wort. This new solution is then placed in a spectrophotometer and the absorbance is read at 275 nm. At this wavelength, the iso-alpha acids have their highest absorbance which allows for the calculation of the concentration of these bittering molecules. This technique was adopted at the same time as another method based on measuring the concentration (in milligrams per litre; parts per million w/v) of isomerized α acids (IAA) in a beer, causing some confusion among small-scale brewers. The American Society of Brewing Chemists, in the introduction to its methods on measuring bitterness, points out some differences between the results of the two methods: Additionally,
HPLC High-performance liquid chromatography (HPLC), formerly referred to as high-pressure liquid chromatography, is a technique in analytical chemistry used to separate, identify, and quantify each component in a mixture. It relies on pumps to pa ...
,
mass spectrometry Mass spectrometry (MS) is an analytical technique that is used to measure the mass-to-charge ratio of ions. The results are presented as a ''mass spectrum'', a plot of intensity as a function of the mass-to-charge ratio. Mass spectrometry is use ...
, and fluorescence spectroscopy can be employed to measure the amount of iso-alpha acids in a beer. The European Bitterness Units scale, often abbreviated as EBU, is a bitterness scale in which lower values are generally "less bitter" and higher values "more bitter". The scale and method are defined by the European Brewery Convention, and the numerical value should be the same as of the International Bittering Units scale (IBU), defined in co-operation with the American Society of Brewing Chemists. However, the exact process of determining EBU and IBU values differs slightly, which may in theory result with slightly smaller values for EBU than IBU. IBU is not determined by the perceived bitterness of the taste of the beer. For example, the bittering effect of hops is less noticeable in beers with roasted malts or strong flavours, so a higher proportion of hops would be required in strong flavoured beers to achieve the same perceived bitterness in moderately flavoured beers. For example, an imperial stout may have an IBU of 50, but will taste less bitter than a pale lager with an IBU of 30, because the pale lager has a lower flavour intensity. After around 100 IBU, hop utilization is so poor that the number ceases to be meaningful in regard to taste, although continued hop additions will increase bitterness. Light lagers without much bitterness will generally have 8–20 IBU, while an India pale ale may have 60–100 IBU or more.


Automated combined systems

For high throughput applications (as in quality control labs of large breweries for example), automated systems are available. Simple systems work with adjustment data blocks for each kind of beer, while high-end systems are matrix-independent and give accurate results for alcohol strength, extract content, pH, colour, turbidity, CO2 and O2 without any product-specific calibration. Latest innovations are packaged beverage analyzers, that measure directly out of the package (glass bottle, PET bottle or can) and give several parameters in one measuring cycle without any sample preparation (no degassing, no filtering, no temperature conditioning).


Oxidative degradation measurement

Oxidative deterioration of beer can be measured by the way of
chemiluminescence Chemiluminescence (also chemoluminescence) is the emission of light (luminescence) as the result of a chemical reaction. There may also be limited emission of heat. Given reactants A and B, with an excited intermediate ◊, : + -> lozenge -> ...
or by electron spin resonance. Automated systems exist to determine the lag time of beer related to the antioxidant capacity to resist oxidative spoilage of flavours.


Software

Software tools are available to brewers to formulate and adapt recipes with a view to accurately measure the various values in brewing. Data can be exchanged in formats such as BeerXML to allow for accurate replication of recipes at remote sites or the adaptation of recipes to account for variations in locally available water, mash ingredients, hops etc.


See also

* Beer style, information on the styles of beer


Notes


Citation


References

* * * * * * *


External links


Explanation from Brew Your Own



Colour Measurement
{{Beer metrics Beer Beer styles Brewing