Catalonia is the first producer of homebrewing beer.
Homebrewing is the brewing of beer, mead, and ciders on a small scale for personal, non-commercial purposes. Supplies, such as kits and fermentation tanks, can be purchased locally at specialty stores or online. Alcohol has been brewed on the domestic level since its advent, thousands of years prior to its commercial production, although its legality has varied according to local regulation. In the United States, a permit is required to distill spirits such as moonshine.
People choose to brew their own beer for a variety of reasons. Many homebrew to avoid a higher cost of buying commercially equivalent beverages. Brewing domestically also affords one the freedom to adjust recipes according to one's own preference, create beverages that are unavailable on the open market or beverages that may contain fewer calories, or less or more alcohol.
Some people join homebrewing clubs and enter homebrew competitions. The Beer Judge Certification Program (BJCP) is an American organization which oversees homebrew competitions, certifies judges, and offers categories for judging. Similar British organizations are The National Guild of Wine and Beer Judges, and the National Association of Wine and Beermakers (Amateur) - (NAWB), who have held an annual show since 1959.
Homebrewing kits come in many different types and from many different manufacturers. A local homebrew store may create some of their own kits by packaging materials together. Most kits come with a full set of instructions for brewing. These instructions, sometimes called recipes, may vary widely in the amount of instruction given. For instance, many all-grain kits assume a familiarity with the brewing process and so may give fewer specific instructions on the general process. Many advanced brewers prefer to design and perfect their own recipes rather than buy kits. Kits may or may not include yeast.
For brewers with equipment and knowledge about the brewing process, all-grain kits include all the ingredients necessary to create homebrew from beginning to end. Most kits include grain and hops, some kits may also include yeast. A full set of instructions is generally included. What sets these kits apart from others is the inclusion of milled malted grain which must first undergo a mash to extract the sugars, this combination of liquid and sugars is known as wort and is necessary for fermentation. A full boil of the wort is then required, with one or more hop additions at different times depending on style.
Some kits contain a concentrated malt extract rather than grain. Malt extract can be either dry or in a syrupy, liquid form. A few advanced kits may also come with a small amount of milled, malted grain that must be steeped with the wort before boiling. A grain bag is usually included to facilitate this process. These additional grains help add different character to the beer so that a single extract can be used to brew several varieties of beer. A full boil is required, with hop additions at different times depending on style.
Pre-hopped malt extract
Sometimes known as beer in a can, no-boil, and hopped wort, these beer kits contain liquid malt extract that has already been boiled with hops to introduce bitterness and flavor. Pre-hopped kits simplify the brewing process by removing the need to add hops at specific times during the boil. Some kits may not require a boil at all, though this may increase the risk of off flavors in the resulting beer due to contamination from bacteria and wild yeasts. While some feel the quality of beer from these kits can be on par with commercial beer or homebrew made from other methods, others feel that pre-hopped extract provides hop bitterness with little flavor and bouquet.
Brewing in a bag
Brewing in a bag (BIAB) is a simplified all grain technique developed in Australia. The main pioneer and continuing authority on this method is Patrick Hollingdale. The hallmarks of BIAB are a single brewing vessel, a fine mesh bag to hold the grist (crushed malt/grain) and a single heat source. The bag, usually made of nylon or fashioned out of a voile material lines the brewing pot which contains the total volume of water needed for the entire brewing process. The water is then heated to strike temperature and then the grist is added. The traditional brewing technique of sparging (rinsing the grains) is skipped and after the mashing period is complete (typically 60–90 minutes) the grain bag holding the spent grains is removed (lautering) and the bag is compressed to drain the wort from the grain ball. The all-grain brewing process then proceeds as normal: boiling, cooling, pitching and fermenting. Traditional mashing methods require three vessels and at least two heat sources. Brew in a bag has revolutionised home all-grain brewing as batch sizes of 9L (2.5 Gal) through to 45.5L (12 US Gal) of wort into the fermenter are easily employed without any compromising on quality or versatility.
The principles behind the process of homebrewing beer are similar to commercial brewing. A hopped wort is produced and yeast pitched into the wort to stimulate fermentation. The complexity of the process is mostly determined by the approach used to manufacture the wort; by far the simplest method is kit brewing.
Mashing is the step required to extract the sugars from the grains. This step varies depending on the skill of the home brewer.
For extract brewing, the mashing has been done by the supplier of the malt extract. No mashing is required for the home brewer in this instance.
A partial mash differs from an extract brew in that the extract remains enzymatically active. Unlike dead malts where some of the starch has been converted to sugar via the action of heat and the natural enzymes have been destroyed, wheat and unmalted extracts need the help of enzymes to convert their starches into sugars.
The next step up from extract brewing is to use a diastatically active malt extract to convert starches from other beer adjuncts such as flaked and torrified barleys, flaked and torrified wheat, wheat flour, and flaked oats into fermentable sugars. These extracts are currently only available in the canned form. Unmalted barleys and wheats can add extra "body" to a finished beer.
Advanced homebrewers forgo the use of concentrated extract and instead extract sugars from the grains themselves. The wort is made by making a mash from crushed malted barley (or alternative grain adjuncts such as unmalted barley, wheat, oats, corn or rye) and hot water. This requires a vessel known as a mash tun, which is often insulated. The process is often referred to as all grain brewing.
In one procedure popular with homebrewers called the "Infusion Mash", milled grains are combined in the tun and hot water is added. Before being combined with the grains, the water is heated to a temperature that is hotter than the desired temperature for enzymatic activity. The reason the water is heated is to compensate for the fact that the grain are cooler than the desired temperature.
The grains are infused with yet hotter water to rinse more sugars from the mash in a process known as sparging. There are two types of sparging. Fly sparging and batch sparging. Fly sparging involves rinsing the grain bed by adding small amounts of hot water to the top while draining equal amounts from the bottom. Batch sparging involves adding all or most of your sparge water at one time to the grain bed and slowly draining it from the bottom. The sparging process will also stop any further enzymatic activity if much hotter water is used; conversely the mash may be heated to around 80 °C (176 °F) to end such activity prior to placing it in the lauter-tun, and to prevent cooler grain from lowering the sparge water temperature to a lower than desirable figure.
Boiling the wort
Whether the homebrewer chooses to mash their own grains or chooses to purchase malt extracts, the homebrewer will then need to boil the liquid and add hops. The length of time the wort boils with the hops varies depending on the style of beer being brewed but overall boil times are usually an hour.
The resulting wort is then boiled, usually for 60–90 minutes. Hops are added at different times during the boil, depending on the desired result. Hops added at the beginning of the boil contribute bitterness, hops added in the last thirty minutes contribute flavor. Hops added in the last few minutes or even after the end of the boil contribute both flavor and hop aroma. These hop additions are generally referred to as bittering, flavor, and aroma additions respectively. Finings such as Irish moss, a form of seaweed, and others can be added in the final 15–30 minutes of the boil to help prevent haze in the resulting beer.
Cooling the wort
The primary reason to cool the wort is to get the wort to the proper temperature for healthy yeast propagation. Other benefits of rapidly cooling of the wort include "locking in" hop flavor and aroma, aiding in the production of "cold break" where haze-producing proteins coagulate ultimately resulting in a clearer beer, slowing the production of dimethyl sulfide (DMS), and hindering the growth of wort contamination by pitching yeast as soon as possible.
Many homebrewers use an inexpensive wort chiller called an "immersion chiller." These resemble the "worms" used in distilleries consisting of a coiled length of copper or stainless steel tubing (typically 50 feet in length) with an inlet and outlet connection. The inlet is attached to a source of cool water such as a sink faucet. The immersion chiller is inserted into the hot wort then cool water pumped is through the coil where a heat exchange occurs thus lowering the temperature of the wort.
Many homebrewers also use a "counterflow chiller." This device consists of a tube of copper or stainless steel tubing nested inside a larger diameter length of tube. It resembles an immersion chiller but works more like plate chiller in that hot wort is circulated through the inner tube and cool water is passed through the outer tube counter to the direction of the hot wort, thereby cooling the wort quickly.
Some homebrewers use the 'no-chill' approach. It is a water-conserving technique, depending on the ambient temperature being lower to cool the hot wort. After the boil the hot wort is racked into a fitting fermenter. After placing the cap or the lid, the fermenter is tumbled slightly to let the hot wort sanitise all internal surfaces. It then will be left alone (often overnight) until it has reached pitching temperatures, what may take up to the best part of a day. Contamination should not be an issue since near-boiling wort is a very effective sanitiser.
Primary fermentation in homebrewing takes place in large glass or plastic carboys or food-grade plastic buckets, nearly always sealed. When sealed, the fermenter is stoppered with a fermentation lock which allows the carbon dioxide gas produced to vent, while preventing other gasses and particles from entering. Recent innovations in nanotechnology have enabled a fermentation lock called the Sterilock to also prevent bacteria, wild yeasts and other potential harmful fungi reaching the fermenter although in some beer styles known as Sour Beer, bacteria or wild yeasts are desirable to obtain the sour characteristics. During this time, temperatures should be kept at optimum temperature for the particular yeast strain being used. For ale this temperature is usually 18–24 °C (64–75 °F); for lager it is usually much colder, around 10 °C (50 °F). A vigorous fermentation then takes place, usually starting within twelve hours and continuing over the next few days. During this stage, the fermentable sugars (maltose, glucose, and sucrose) are consumed by the yeast, while ethanol and carbon dioxide are produced as byproducts by the yeast. A layer of sediment, the lees or "trub", appears at the bottom of the fermenter, composed of heavy fats, proteins and inactive yeast. Often, the brew is moved to a second fermenting vessel after primary fermentation called a secondary fermenter. This secondary fermentation process is often utilized by more advanced home brewers to enhance flavor. While not required, it is generally practiced by home brewers who wish to age or clarify their beer by removing it from the sediment left behind by primary fermentation. In addition to using two different fermenting containers, some home brewers may choose to only use one container in which primary and secondary fermentation take place. This container is usually referred to as a uni-tank. Uni-tanks are usually conical in shape, and can either be made from plastic or stainless steel. A popular plastic conical for homebrewing is FastFerment, while a popular stainless steel conical fermenter for homebrewers is The Blichmann Fermenator.
Upon conclusion of fermentation, the beer is carbonated before it is consumed. This is typically done in one of two ways; force carbonation in a keg using compressed carbon dioxide, or bottle carbonation with priming sugar. Any bottle that is able to withstand the pressure of carbonation can be used, such as used beer bottles, flip-top bottles with rubber stoppers such as Grolsch, or even plastic bottles such as soda bottles, provided they are properly sanitised. Priming briefly reactivates the yeast that remains in the bottle, carbonating the brewers. Homebrewed beers and lagers are typically unfiltered (filtering improves visual appearance of the product, but complicates carbonation). Bottled beer becomes clear quicker than kegged beer, since the yeast does not have as far to descend.
In homebrewing, adding priming sugar or malt extract at bottling time to beer that has had its fermentable sugar content totally consumed is the safest approach to carbonation. Exceeding recommended levels of priming sugar for a given recipe is dangerous and can result in exploding bottles, as is using inappropriate bottles or improper capping methods. Beer may also be force-carbonated using a keg and special bottling equipment so that the carbonation level can be carefully controlled. Carbonation is often achieved with approximately 4oz of corn sugar boiled in 2 cups of water then cooled and added to a typical 5 gallon batch before bottling.
Homebrewers often use kegs for aging, filtering, and storing beer. These are seldom the standard kegs used by major brewers to transport draught beer to wholesalers, but instead are reconditioned Cornelius kegs (colloquially known as "cornies") that were originally manufactured to store soda; these vessels are much easier to fill, clean and maintain than standard beer kegs.
These kegs are stainless steel cylinders that hold approximately 5 U.S. gallons of liquid. The keg is filled with liquid via a removable hatch on the top, which is then closed and sealed. Carbon dioxide is added to pressurize the keg via an inlet port on the top and is facilitated by gently rocking the brew back and forth. Liquid is dispensed via an outlet port attached to a tube that extends to the bottom of the keg. Pin-lock and ball-lock fittings (or posts) are the two types of couplings used on the inlet and outlet ports. Coke distributors used pin-lock fittings, while Pepsi distributors used ball-lock fittings. Ball-lock are most used. The pin-lock style is often referred to as a "Coke" keg or style and the ball-lock is often referred to as a "Pepsi" keg or style, though the fittings themselves are removable, serviceable, and contain interchangeable parts.
Homebrewers sometimes use 15.5 U.S. gallon commercial kegs (known as 1/2 kegs) for boiling vessels in creating wort. The kegs are drilled for a drain at the bottom, and the top cut open to create a large stainless steel cooking kettle. Many times, the piece of metal cut out of the top is re-used to create a false bottom for straining wort during the mashing process, as well as to strain the boiled wort when adding hops without using a mesh grain bag.
Alternatively, kegs specifically designed for home brewing are available. The capacity may be matched to commercial extract brewing kits; typically 12 and 23 litres. Smaller 2.5 gallon kegs are also made for ease of transporting to a function.
Kegs may have residual pressure, and this must be vented to avoid having the valve explode and injure or kill a person as the valve shoots out. Conventional 15.5 U.S. gallon kegs have circle spring clips that can be removed to release the tap valve. Some kegs such as those used by Miller have threaded valves that are threaded into the keg, and after venting, can be opened by turning the valve counterclockwise using a piece of 13⁄4" wide metal inserted between the valve ears and turned with an adjustable wrench, or pipe wrench. A "wonderbar" type of pry bar just happens to fit. After the valve is loose it is still retained by a safety catch that must be pried inward. A simple valve seal depressing tool and a screwdriver with a 1/8" diameter shaft must be used to release the safety catch. See "How to remove a Miller threaded keg valve (not retained by a spiral ring)". The safety catch prevents the valve from releasing under pressure.
It is not recommended that kegs be sanitised with bleach. To avoid unpleasant residuals, kegs are sanitised with an iodine- or oxygen-based sanitiser. Sanitisers like Star-San and B-Brite are commonly used. The ball lock valves may be unscrewed using wrenches to allow further cleaning or replacement of O-rings or poppet valves.
Homebrewing can reduce the environmental impact of fermented beverages by using less packaging and transportation than commercially brewed beverages, and by the use of refillable jugs, reusable bottles or other reusable containers.
Brewing software and technology
Brewers now have access to a variety of software tools, whether free/open source or commercial, which allow them to formulate and adjust recipes. There are also web based recipe creation and sharing sites with extensive recipe databases contributed by users that can be viewed or downloaded for printing or importation into software using BeerXML. More traditional Internet forums continue to provide brewers with sources of advice and information from their peers all over the world.
Homebrewers can submit their beer for evaluation into competitions. These competitions provide blind feed back to brewers so they can get objective feedback, make adjustments to improve their brewing, and be recognized for outstanding homebrew. Competitions can be organized by homebrew clubs, state fairs, or businesses. The AHA, BJCP, and HomebrewCompetitions.com all keep a list of currently scheduled competitions. Homebrewcompetitions.com is a free resource for homebrewers and homebrew competition organizers.
The Beer Judge Certification Program (BJCP) trains and certifies beer judges through classes and tasting and written tests. BJCP judges evaluate the beer on 5 criteria: Aroma, Appearance, Flavor, Mouthfeel, and Overall Impression. The beer is also compared to a style provided by the brewer and described in the BJCP Style Guidelines.
The Polish Homebrewer's Association (PSPD) has developed their own guidelines for beer competition judging and trains judges for competitions in Poland. A list of competitions is available on their website.