Coffee


Coffee

beverage

Coffee, beverage brewed from the roasted and ground seeds of the tropical evergreen coffee plant of African origin. Coffee is one of the three most-popular beverages in the world (alongside water and tea) and one of the most-profitable international commodities. Though coffee is the basis for an endless array of beverages, its popularity is mainly attributed to its invigorating effect, which is produced by caffeine, an alkaloid present in coffee.


Two species of the coffee plant, Coffea arabica and C. canephora, supply almost all of the world’s consumption. Arabica is considered a milder, more-flavourful and aromatic brew than Robusta, the main variety of C. canephora. The flatter and more-elongated Arabica bean is more widespread than Robusta but more delicate and vulnerable to pests, requiring a cool subtropical climate; it must grow at higher elevations (2,000–6,500 feet [600–2,000 metres]) and requires a lot of moisture, sun, and shade. Latin America, eastern Africa, Asia, and Arabia are leading producers of Arabica coffee. The rounder, more-convex Robusta bean, as its name suggests, is heartier and can grow at lower altitudes (from sea level to 2,000 feet). Robusta coffee is cheaper to produce, has twice the caffeine content of Arabica, and is typically the bean of choice for inexpensive commercial coffee brands. Western and central Africa, Southeast Asia, and Brazil are major producers of Robusta coffee.

History

Wild coffee plants, probably from Kefa (Kaffa), Ethiopia, were taken to southern Arabia and placed under cultivation in the 15th century. One of many legends about the discovery of coffee is that of Kaldi, an Arab goatherd who was puzzled by the strange antics of his flock. About 850 ce Kaldi supposedly sampled the berries of the evergreen bush on which the goats were feeding and, on experiencing a sense of exhilaration, proclaimed his discovery to the world

Whatever the actual origin of coffee, its stimulating effect undoubtedly made it popular. Ironically, though Islamic authorities pronounced the drink intoxicating and therefore prohibited by the Qurʾān, many Muslims were attracted to the beverage as a substitute for alcohol, also prohibited by the Qurʾān. Despite the threat of severe penalties, coffee drinking spread rapidly among Arabs and their neighbours and even gave rise to a new social and cultural entity, the coffeehouse.

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Called qahveh khanehs, coffeehouses first appeared in Mecca in the 15th century and in Constantinople (now Istanbul) in the 16th. They became popular meeting places where men of learning often gathered to converse, play chess or backgammon-type games, sing and dance, listen to music, discuss politics and news of the day, and smoke and drink. They became known as “schools of wisdom” because of the clientele they attracted, and, though political and religious leaders feared the free and frank discourse common in such establishments, their frequent bans on coffeehouses were impossible to maintain. The drink had already become ingrained in daily ritual and culture.Coffee was introduced into one European country after another throughout the 16th and 17th centuries. Many accounts are recorded of its prohibition or approval as a religious, political, and medical potion. By the end of the 17th century, coffeehouses were flourishing across Britain, the British colonies in America, and continental Europe.Until the close of the 17th century, the world’s limited supply of coffee was obtained almost entirely from the province of Yemen in southern Arabia. But, with the increasing popularity of the beverage, the propagation of the plant spread rapidly to Java and other islands of the Indonesian archipelago in the 17th century and to the Americas in the 18th century. Coffee cultivation was started in the Hawaiian Islands in 1825.

By the 20th century the greatest concentration of production was centred in the Western Hemisphere—particularly Brazil. In the late 19th and early 20th centuries, industrial roasting and grinding machines came into use; vacuum-sealed containers were invented for ground roasts; and decaffeination methods for green coffee beans were developed. After 1950 the production of instant coffee was perfected. The popularity of instant coffee led to increased production of the cheaper Robusta beans in Africa.

Processing green coffee

Hulling

The ripened fruits of the coffee shrub are known as coffee cherries, and each cherry generally contains two coffee seeds (“beans”) positioned flat against one another. About 5 percent of cherries contain only one seed; called peaberries, those single seeds are smaller and denser and produce, in the opinion of some, a sweeter, more-flavourful coffee.The cherries are processed by disengaging the coffee seeds from their coverings and from the pulp and by drying the seeds from an original moisture content of 65–70 percent water by weight to 12–13 percent; all beans must be removed from their fruit and dried before roasting. Three techniques are used for processing the coffee: the dry, or “natural,” process, the wet (and washed) process, and a hybrid process called the semi-washed, or “pulped natural,” method. The coffee resulting from those processes is called green coffee, which is then ready for roasting.

The dry process

The oldest and simplest method of processing coffee, requiring little machinery, is practiced in dry climates such as those of Brazil and Ethiopia. After the fruits have been sorted (often by hand) and cleaned (via running water or washing canals or in large tanks), they are placed in the sun to dry on concrete, brick patios, or raised mats. The cherries are frequently raked or turned by hand to shift them onto the driest surface and to prevent fermentation and mold. The drying process may take several days or up to four weeks. The drying process is critical: overdried coffee will break, forming defective beans, and coffee too moist can deteriorate quickly if attacked by fungi and bacteria. When the fruits have been dried to a water content of about 12–13 percent, they are mechanically hulled to free the seeds from their coverings. In rainy regions where humidity and rains during harvest time are common, the dry process is obviously not practical.

 

The wet process

The wet process requires more equipment than the dry method but produces beans that are better preserved and more homogeneous and have fewer defects. Most Arabica coffees are produced by the wet method, and they generally command a higher price.In the first step of the wet process, the skin and the pulp of the fresh fruit are removed by a pulping machine, which consists of a rotating drum or disk that presses the fruit against a sharp-edged or slotted plate, disengaging the pulp from the seed. Pulp still clings to the coffee seed, however, as a thin mucilaginous layer. That layer is eliminated by fermentation, actually a form of digestion in which naturally occurring pectic enzymes decompose the pulp while the wetted seeds are held in tanks for one to three days. Washing clears all remaining traces of pulp from the coffee seeds, which are then dried either by exposure to sunlight on concrete terraces or by passing through hot-air driers. The dry skin around the seed, called the parchment, is then mechanically removed, sometimes with polishing.

 

The “pulped natural” process

A third method, called pulped natural, is a hybrid of dry and wet processing. Pulps are removed mechanically, but the beans are dried without any intermediate fermentation, and the mucilage is not removed until after drying. Beans thus treated have a good balance of sweet and acidic notes, with robust body.

Grading and storage

The practice of grading and classifying coffee gives sellers and buyers a guarantee concerning the origin, nature, and quality of the product to aid their negotiations. Each coffee-producing country has a certain number of defined types and grades—based on characteristics such as growing altitude and region, botanical variety, method of processing, roast appearance, and bean size, density, and defects—but there is no universal grading and classification system. Fair Trade coffee, part of the larger Fair Trade movement, arose to ensure that coffee is harvested and processed without child labour and dangerous herbicides and pesticides and that growers and exporters, particularly in the poorer regions of the coffee-growing world, are paid a fair price. How well such Fair Trade standards are enforced is a matter of controversy.The prolonged storage of coffee in the producing countries presents problems, especially in the warm and humid coastal regions, where molds and parasites may develop and cause damage; for that reason, coffee from those areas is exported as quickly as possible. In moderate climates the conservation of dry lots does not pose a problem as long as they are stocked in well-ventilated places.

Processing the bean

Decaffeination

Theterm decaffeinated coffee may strike some as an oxymoron, but a number of coffee drinkers relish the taste of coffee but cannot tolerate the jolt from caffeine. The main methods of decaffeination are based on chemical solvents, carbon filtering, carbon dioxide extraction, or triglycerides. In all cases, to make “decaf,” the caffeine is removed in the green bean stage, before the coffee is roasted.The process of decaffeination was initially solvent-based (in the early 20th century using benzene but later using methylene chloride or ethyl acetate). In the direct method, the coffee beans are steamed and then rinsed by the chemical agent. In the indirect method, the chemical agent never touches the beans but treats the water-base coffee solution in which the beans are first soaked. Although some high-volume companies still decaffeinate by using solvents (mainly ethyl acetate, as methylene chloride is considered a possible carcinogen), the process is regulated such that the chemicals are removed before the coffee is roasted.Increasingly, decaffeination methods have relied on more-natural means for extracting caffeine. One such process, the Swiss water process (invented in Switzerland), is based solely on water and carbon filtering. The coffee beans are first immersed in hot water, extracting the beans’ flavourful components. The initial beans are then discarded, and the resulting flavour-rich water (called “green coffee extract”) is used to wash and filter the next batch of beans. Caffeine is thereby filtered from the beans without recourse to chemical agents and without the beans’ losing any of their flavourful components.Yet another method is extraction by supercritical carbon dioxide, which can act (under high-enough temperature and pressure) like both a gas and a liquid. In that case, the supercritical carbon dioxide reaches into the crevices of coffee beans like a gas but dissolves caffeine like a liquid. After the beans have been soaked in water (a process that expands cell structures and makes it easier to extract the caffeine molecules), they are exposed to supercritical carbon dioxide for several hours. The caffeinated carbon dioxide liquefies and evaporates, and the beans are then processed. Because that method allows the carbohydrates and proteins to remain intact, there is less change in taste as a result of decaffeination.Finally, in the triglyceride process, water-soaked beans are immersed in coffee oils obtained from spent coffee grounds. The triglycerides in the oils, upon heating, separate the caffeine from the beans but supposedly not the flavour. The beans are then separated and dried, and the oil, once the caffeine has been removed, is reused to decaffeinate additional batches of beans.Regardless of the method of decaffeination, some adulteration of the coffee bean results along the way, and in no case is 100 percent of caffeine removed. Extracting a good shot of espresso from decaf coffee beans isperhapsthe biggest challenge of all.

The aromatic and gustatory qualities of coffee are developed by the high temperatures to which they are subjected during roasting or broiling. Temperatures are raised progressively from about 180–250 °C (356–482 °F) and heated for anywhere from 7 to 20 minutes, depending on the type of light or dark roast desired. Roasting releases steam, carbon dioxide, carbon monoxide, and other volatiles from the beans, resulting in a loss of weight between 14 and 23 percent. Internal pressure of gas expands the coffee beans by 30 to 100 percent. The beans become a deep, rich brown, and their texture becomes porous and crumbly under pressure. The most-important effect of roasting is the appearance of the characteristic aroma of coffee, which arises from very complex chemical transformations within the bean. Roasting too long can destroy volatile flavour and aroma compounds. For that reason, Robusta beans are often deliberately overroasted (as in the dark French and Italian roasts) to rid the coffee of its natural harshness.

In the oldest method of roasting, a metal cylinder, or sphere, containing the coffee is rotated above a source of heat such as charcoal, gas, or electricity. In modern roasters, hot air is propelled by a blower into a rotating metal cylinder containing the coffee. The tumbling action of rotation ensures that all beans are roasted evenly.Regardless of the method used, the coffee, after leaving industrial roasters, is rapidly cooled in a vat, where it is stirred and subjected to cold air propelled by a blower. Good-quality coffees are then sorted by electronic sorters to eliminate those seeds, either too light or too dark, that roasted badly and whose presence downgrades the overall quality.

Some coffees are left as whole beans to be ground at the time of purchase or by the consumer at home. Much coffee, however, is ground, or milled, by the manufacturer immediately after roasting. In most modern roasting plants, grinding is accomplished by feeding the coffee through a series of serrated or scored rollers, set at progressively smaller gaps, that first crack the beans and then cut them to the desired particle size.The degree of fineness is important. If a coffee is too coarse, water filters through too fast to pick up flavour; if it is too fine, water filters through too slowly and retains particles that deposit at the bottom of the cup.

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