Instant coffee

Last updated

Instant coffee
Instant coffee.jpg
Instant coffee granules
TypeCoffee
Place of origin New Zealand
Region or state Invercargill, Southland
Created byDavid Strang
Main ingredients freeze-dried coffee

Instant coffee is a beverage derived from brewed coffee beans that enables people to quickly prepare hot coffee by adding hot water or milk to coffee solids in powdered or crystallized form and stirring. The product was first invented in Invercargill, the largest city in Southland, New Zealand, in 1890. Instant coffee solids (also called soluble coffee, coffee crystals, coffee powder, or powdered coffee) refers to the dehydrated and packaged solids available at retail used to make instant coffee. Instant coffee solids are commercially prepared by either freeze-drying or spray drying, after which it can be rehydrated. Instant coffee in a concentrated liquid form, as a beverage, is also manufactured.

Contents

Advantages of instant coffee include speed of preparation (instant coffee dissolves quickly in hot water), lower shipping weight and volume than beans or ground coffee (to prepare the same amount of beverage), and long shelf life—though instant coffee can spoil if not kept dry. Instant coffee also reduces cleanup since there are no coffee grounds, and at least one study has found that it has a lower environmental footprint[ quantify ] than drip filter coffee and capsule espresso coffee, on a prepared beverage basis, disregarding quality and appeal of the beverage produced. [1]

History

David Strang Coffee Mills David Strang Coffee Mills.JPG
David Strang Coffee Mills

A concentrated coffee/milk/sugar mixture was produced for the Union army during the American Civil War under the name Essence of Coffee, a teaspoonful of which was mixed with a cup of hot water. It had the consistency of axle grease, and proved so unpopular with the troops that it was soon discontinued. [2] The brand Camp Coffee, a coffee and chicory essence, was first produced in 1876 by Paterson & Sons Ltd in Scotland.

The invention for instant or soluble coffee was filed 28 January 1889 and patented in 1890, by David Strang of Invercargill, New Zealand, under patent number 3518. [3] It was sold under the trading name Strang's Coffee [4] citing the patented "Dry Hot-Air" process. Some modern sources have credited French humorist and writer Alphonse Allais with the invention. [5] [6]

The invention was previously attributed to Satori Kato, a Japanese scientist working in Chicago in 1901. Kato introduced the powdered substance in Buffalo, New York, at the Pan-American Exposition. [7] George Constant Louis Washington developed his own instant coffee process shortly thereafter, and first marketed it commercially (1910). The Nescafé brand, which introduced a more advanced coffee refining process, was launched in 1938.[ citation needed ]

High-vacuum freeze-dried coffee was developed shortly after World War II, as an indirect result of wartime research into other areas.[ citation needed ] The National Research Corporation (NRC) was formed in Massachusetts as a process-development company employing high-vacuum technology. It developed high-vacuum processes to produce penicillin, blood plasma, and streptomycin for US military use. As the war ended, NRC looked to adapt its processes for peacetime uses. It formed Florida Foods Corporation to produce concentrated orange juice powder and originally sold its product to the United States Army. That company later changed its name to Minute Maid.

Use

A cup of instant coffee from Italy Una tazza di caffe solubile 8.jpg
A cup of instant coffee from Italy

Close to 50% of the world's green coffee is used to produce instant coffee. [8]

As food

Instant coffee in a glass jar Instant Coffee In a Glass Jar.jpg
Instant coffee in a glass jar

Instant coffee is available in powder or granulated form contained in glass and plastic jars, sachets, or tins. The user controls the strength of the resulting product by adding less or more powder or granules to the water.

Instant coffee is also convenient for preparing iced coffee like the Greek frappé.

In some countries, such as Portugal, Spain, and India, instant coffee is commonly mixed with hot milk instead of boiling water. [9] In other countries, such as South Korea, instant coffee commonly comes pre-mixed with non-dairy creamer and sugar and is called "coffee mix". [10] Said to have been popularised in the UK by GIs during World War II, instant coffee still accounts for over 75 percent of coffee bought to drink in British homes, as opposed to well under 10 percent in the U.S. and France and one percent in Italy. [11]

In the United Kingdom, instant coffee granules are sometimes used to enhance the flavour of sauces used in preparing spaghetti Bolognese. [12] [13]

Non-food uses

Instant coffee is one of the ingredients in Caffenol, [14] a home-made, non-toxic black-and-white photographic developer. The other ingredients in the basic formula are ascorbic acid (vitamin C) and anhydrous sodium carbonate; some recipes also include potassium bromide as a fog-reducing agent. The active ingredient appears to be caffeic acid. Initial experiments on Caffenol were performed in 1995 at the Rochester Institute of Technology; [15] addition of ascorbic acid began around 2000, yielding the improved Caffenol-C, which is less likely to stain negatives than the original formulation. Experiments have shown that cheaper, less desirable brands of coffee work better for this application than more expensive brands. [16]

In crafts, Instant coffee can be used as a dye to stain paper and give the impression of it being aged. [17]

Production

Close-up view of a granule of Nescafe instant coffee Close-up of a granule of Gold Blend instant coffee.jpg
Close-up view of a granule of Nescafé instant coffee

As with regular coffee, the green coffee bean itself is first roasted to bring out flavour and aroma. Rotating cylinders containing the green beans and hot combustion gases are used in most roasting plants. When the bean temperature reaches 165 °C (329 °F) the roasting begins. It takes about 8–15 minutes to complete roasting. After cooling, the beans are then ground finely. Grinding reduces the beans to 0.5-to-1.1-millimetre (0.020 to 0.043 in) pieces. Until here, the process is in general the same as for other types of coffee. [18]

Extraction

To produce instant coffee, the soluble and volatile contents of the beans, which provide the coffee aroma and flavor, have to be extracted. This is done using water. Pressurized water heated to around 175 °C (347 °F) is used for this process. The coffee concentration in the liquid is then increased by either evaporation or by freeze concentration. [18] [19]

Freeze drying

A freeze dryer Production freeze dryer.JPG
A freeze dryer

The basic principle of freeze drying is the removal of water by sublimation.

Since the mass production of instant coffee began in post-WWII America, freeze-drying has grown in popularity to become a common method. Although it is more expensive, it generally results in a higher-quality product.

  1. The coffee extract is rapidly frozen and is broken into small granules. (Slower freezing would lead to larger ice crystals and a porous product; it can also affect the colour of the coffee granules).
  2. The granules are sifted and sorted on size. [18]
  3. Frozen coffee granules are placed in the drying chamber, often on metal trays.
  4. A vacuum is created within the chamber. The strength of the vacuum is critical in the speed of the drying and therefore the quality of the product. Care must be taken to produce a vacuum of suitable strength.
  5. The drying chamber is warmed, most commonly by radiation, but conduction is used in some plants and convection has been proposed in some small pilot plants. A possible problem with convection is uneven drying rates within the chamber, which would give an inferior product.
  6. Sublimation—the previously frozen water in the coffee granules expands to ten times its previous volume. The removal of this water vapor from the chamber is vitally important, making the condenser the most critical and expensive component in a freeze-drying plant.
  7. The freeze-dried granules are removed from the chamber and packaged.

Spray drying

Laboratory-scale spray dryer. A=Solution or suspension to be dried in, B=Atomization gas in, 1= Drying gas in, 2=Heating of drying gas, 3=Spraying of solution or suspension, 4=Drying chamber, 5=Part between drying chamber and cyclone, 6=Cyclone, 7=Drying gas is taken away, 8=Collection vessel of product, arrows mean that this is co-current lab-spraydryer Labspraydryer.svg
Laboratory-scale spray dryer.
A=Solution or suspension to be dried in, B=Atomization gas in, 1= Drying gas in, 2=Heating of drying gas, 3=Spraying of solution or suspension, 4=Drying chamber, 5=Part between drying chamber and cyclone, 6=Cyclone, 7=Drying gas is taken away, 8=Collection vessel of product, arrows mean that this is co-current lab-spraydryer

Spray drying is preferred to freeze-drying in some cases because it allows larger scale economic production, shorter drying times, and because it produces fine rounded particles.

The process produces spherical particles about 300 micrometres (0.012 in) in size with a density of 0.22 g/cm3. [20] To achieve this, nozzle atomization is used. Various ways of nozzle atomization can be used each having its own advantages and disadvantages. High speed rotating wheels operating at speeds of about 20,000 rpm are able to process up to 6,000 pounds (2,700 kg) of solution per hour. [21] The use of spray wheels requires that the drying towers have a wide radius to avoid the atomized droplets collecting onto the drying chamber walls.

One drawback with spray drying is that the particles it produces are too fine to be used effectively by the consumer; they must first be either steam-fused in towers similar to spray dryers or by belt agglomeration to produce particles of suitable size.

Decaffeination

In commercial processes, the decaffeination of instant coffee almost always happens before the critical roasting process which will determine the coffee's flavour and aroma processes.

Byproducts

The main byproduct of the instant coffee production process is spent coffee grounds. These grounds can be used as biomass, for example to produce heat used in the manufacturing process. [22] Roughly two times the mass in spent coffee grounds is generated for each quantity of soluble coffee. [23]

Composition

The caffeine content of instant coffee is generally less than that of brewed coffee. One study comparing various home-prepared samples came to the result that regular instant coffee (not decaffeinated) has a median caffeine content of 66 mg per cup (range 29–117 mg per cup), with a median cup size of 225 ml (range 170–285 ml) and a caffeine concentration of 328 μg/mL (range 102–559 μg/mL). [24] In comparison, drip or filter coffee was estimated to have a median caffeine content of 112 mg, with a median concentration of 621 μg/mL for the same cup size. [24]

Regarding antioxidants, the polyphenol content of a 180 ml cup of instant coffee has been estimated to be approximately 320 mg, compared to approximately 400 mg in a cup of brewed coffee of the same size. [25]

Malabsorption

Instant coffee decreases intestinal iron absorption more than drip coffee. One study estimated that, when a cup of instant coffee was ingested with a meal composed of semipurified ingredients, intestinal absorption was reduced from 5.88% to 0.97%, compared to an absorption of 1.64% with drip coffee. [26] It was also estimated that, when the strength of the instant coffee was doubled, intestinal iron absorption fell to 0.53%. [26] However, there is no decrease in iron absorption when instant coffee is consumed 1 hour before a meal, but the same degree of inhibition as with simultaneous ingestion occurs when instant coffee is taken 1 hour after a meal. [26]

Regulation

In the European Union, regulations include the species of coffee bean, geographical origin, processing detail, year of crop, solvents used in decaffeination, and caffeine level.

Various institutions govern the coffee industry and help to achieve standardization and release information to the public, including the International Coffee Organization (London), Codex Alimentarius Commission of the UN (Rome), and National Coffee Association (New York).

See also

Related Research Articles

<span class="mw-page-title-main">Espresso</span> Type of strong coffee

Espresso is a concentrated form of coffee produced by forcing hot water under high pressure through finely-ground coffee beans. Originating in Italy, espresso has become one of the most popular coffee-brewing methods worldwide. It is characterized by its small serving size, typically 25–30 ml, and its distinctive layers: a dark body topped with a lighter-colored foam called crema.

<span class="mw-page-title-main">Spray drying</span> Method of converting liquid or slurry to powder

Spray drying is a method of forming a dry powder from a liquid or slurry by rapidly drying with a hot gas. This is the preferred method of drying of many thermally-sensitive materials such as foods and pharmaceuticals, or materials which may require extremely consistent, fine particle size. Air is most commonly used as the heated drying medium; however, nitrogen may be used if the liquid is flammable or if the product is oxygen-sensitive.

<span class="mw-page-title-main">Coffee</span> Brewed beverage made from coffee beans

Coffee is a beverage brewed from roasted coffee beans. Darkly colored, bitter, and slightly acidic, coffee has a stimulating effect on humans, primarily due to its caffeine content. It has the highest sales in the world market for hot drinks.

<span class="mw-page-title-main">Caffeinated drink</span> Type of drink

A caffeinated drink, or caffeinated beverage, is a drink that contains caffeine, a stimulant that is legal practically all over the world. Some are naturally caffeinated while others have caffeine added as an ingredient.

<span class="mw-page-title-main">Powdered milk</span> Dehydrated milk product

Powdered milk, also called milk powder, dried milk, or dry milk, is a manufactured dairy product made by evaporating milk to dryness. One purpose of drying milk is to preserve it; milk powder has a far longer shelf life than liquid milk and does not need to be refrigerated, due to its low moisture content. Another purpose is to reduce its bulk for the economy of transportation. Powdered milk and dairy products include such items as dry whole milk, nonfat (skimmed) dry milk, dry buttermilk, dry whey products and dry dairy blends. Many exported dairy products conform to standards laid out in Codex Alimentarius.

Decaffeination is the removal of caffeine from coffee beans, cocoa, tea leaves, and other caffeine-containing materials. Decaffeinated products are commonly termed by the abbreviation decaf. Decaffeinated drinks contain typically 1–2% of the original caffeine content, but sometimes as much as 20%.

<span class="mw-page-title-main">Freeze drying</span> Low temperature dehydration process

Freeze drying, also known as lyophilization or cryodesiccation, is a low temperature dehydration process that involves freezing the product and lowering pressure, thereby removing the ice by sublimation. This is in contrast to dehydration by most conventional methods that evaporate water using heat.

<span class="mw-page-title-main">Coffee production</span> Industrial process

Coffee production is the industrial process of converting the raw fruit of the coffee plant into the finished coffee. The coffee cherry has the fruit or pulp removed leaving the seed or bean which is then dried. While all green coffee is processed, the method that is used varies and can have a significant effect on the flavor of roasted and brewed coffee. Coffee production is a major source of income for 12.5 million households, most in developing countries.

<span class="mw-page-title-main">Coffee bean</span> Seed of the coffee plant

A coffee bean is a seed from the Coffea plant and the source for coffee. It is the pit inside the red or purple fruit. This fruit is often referred to as a coffee cherry, and like the cherry, it is a fruit with a pit. Even though the coffee beans are not technically beans, they are referred to as such because of their resemblance to true beans. The fruits most commonly contain two stones with their flat sides together. A small percentage of cherries contain a single seed, called a "peaberry". Peaberries make up only around 10% to 15% of all coffee beans. It is a fairly common belief that they have more flavour than normal coffee beans. Like Brazil nuts and white rice, coffee beans consist mostly of endosperm.

<span class="mw-page-title-main">White coffee</span> Number of different kinds of coffees or coffee substitutes

White coffee can refer to any of a number of different kinds of coffees or coffee substitutes worldwide.

<span class="mw-page-title-main">Coffee roasting</span> Process of heating green coffee beans

Roasting coffee transforms the chemical and physical properties of green coffee beans into roasted coffee products. The roasting process is what produces the characteristic flavor of coffee by causing the green coffee beans to change in taste. Unroasted beans contain similar if not higher levels of acids, protein, sugars, and caffeine as those that have been roasted, but lack the taste of roasted coffee beans due to the Maillard and other chemical reactions that occur during roasting.

<span class="mw-page-title-main">Coffee preparation</span> Process of turning coffee beans into a beverage

Coffee preparation is the process of turning coffee beans into liquid coffee. While the particular steps vary with the type of coffee and with the raw materials, the process includes four basic steps: raw coffee beans must be roasted, the roasted coffee beans must then be ground, and the ground coffee must then be mixed with hot or cold water for a specific time (brewed), the liquid coffee extraction must be separated from the used grounds, and finally, if desired, the extracted coffee is combined with other elements of the desired beverage, such as sweeteners, dairy products, dairy alternatives, or toppings.

<span class="mw-page-title-main">Coffee substitute</span> Non-coffee products used to imitate coffee

Coffee substitutes are non-coffee products, usually without caffeine, that are used to imitate coffee. Coffee substitutes can be used for medical, economic and religious reasons, or simply because coffee is not readily available. Roasted grain beverages are common substitutes for coffee.

<span class="mw-page-title-main">Low caffeine coffee</span> Type of coffee

Low caffeine coffee is a term that is used by coffee producers to describe coffee that has not been subjected to a process of decaffeination, but is substantially lower in caffeine than average coffee. Samples of coffee vary widely in caffeine levels due to many factors, some well documented and some not fully understood, such as the action of soil, water levels and sunlight. Low caffeine coffees are typically created by assaying caffeine levels of different bean lots and selecting the best flavor profile from the lots that are naturally lowest in caffeine.

<span class="mw-page-title-main">Cold brew coffee</span> Coffee made by steeping grounds in cold water

Cold brew coffee, also called cold water extraction or cold pressing, is the process of steeping coffee grounds in water at cool temperatures for an extended period. Coarse-ground beans are soaked in water for about 12 to 24 hours.

A drink mix is a processed-food product, designed to mix usually with water to produce a beverage resembling juice, soda, or other sweet products in flavor. Another type of drink mix is represented by products that are mixed into milk. Most drink mixes are powdered, but some are liquefied.

<span class="mw-page-title-main">Instant tea</span> Concentrated dry tea beverage mix

Instant tea is a powdered mix in which water is added, in order to reconstitute it into a cup of tea. The earliest form of instant tea was developed in the United Kingdom in 1885. A patent was granted for a paste made of concentrated tea extract, sugar, and evaporated milk, which became tea when hot water was added. However, no notable developments were made until spray drying technology allowed for drying the tea concentrates at a temperature which did not damage the flavors of the product.

Agglomerated food powder is a unit operation during which native particles are assembled to form bigger agglomerates, in which the original particle can still be distinguished. Agglomeration can be achieved through processes that use liquid as a binder or methods that do not involve any binder.

References

  1. Humbert, Sebastien; Loerincik, Yves; Rossi, Vincent; Margni, Manuele; Jolliet, Olivier (2009). "Life cycle assessment of spray dried soluble coffee and comparison with alternatives (drip filter and capsule espresso)". Journal of Cleaner Production. 17 (15): 1351–1358. doi:10.1016/j.jclepro.2009.04.011. ISSN   0959-6526.
  2. Wiley, Bell Irvin. The Life of Billy Yank. Doubleday, New York 1971. p. 241
  3. "First Annual Report". Patents, Designs and Trade-marks. New Zealand. 1890. p. 9.
  4. Papers Past — Press — 7 September 1893 — Page 3 Advertisements Column 2
  5. Tim (1 July 2019). "The Invention of Instant Coffee – Who, What, Where, and How?". Procaffeination. Retrieved 7 August 2021.
  6. "When Was Instant Coffee Invented?". Coffee Affection. 24 May 2021. Retrieved 7 August 2021.
  7. Carlisle, Rodney (2004). Scientific American Inventions and Discoveries, p.355. John Wiley & Songs, Inc., New Jersey. ISBN   0-471-24410-4.
  8. Ramalakshmi, K.; Rao, L. Jagan Mohan; Takano-Ishikawa, Yuko; Goto, Masao (2009). "Bioactivities of low-grade green coffee and spent coffee in different in vitro model systems". Food Chemistry. 115 (1): 79–85. doi:10.1016/j.foodchem.2008.11.063. ISSN   0308-8146.
  9. "The Curious Case of Coffee in Spain". 18 April 2012.
  10. "Koreans Addicted to Instant Coffee". Koreatimes.co.kr. 22 April 2009. Retrieved 17 November 2013.
  11. Magazine Monitor. "Why do Britons drink so much instant coffee?". BBC News Magazine. Retrieved 5 April 2014.
  12. Quick, Lucy (10 August 2021). "Ruth Langsford's secret spaghetti bolognese ingredient will divide fans". Prima . Retrieved 12 August 2021.
  13. Willet-Wei, Megan (8 September 2015). "This awkward spaghetti recipe is causing an online backlash against a British grocery store". Business Insider . Retrieved 12 August 2021.
  14. "Comparison of different Caffenol formulas". caffenol.blogspot.com. 17 August 2010.
  15. Williams, Scott (September 1995). "A Use for that Last Cup of Coffee: Film and Paper Development] Darkroom and Creative Camera Techniques".
  16. "Caffenol-C-M, recipe". 2 March 2010.
  17. "How to stain paper with coffee | Bookbinding Workshop Singapore". 10 October 2022. Retrieved 4 August 2024.
  18. 1 2 3 Mussatto, Solange I.; Machado, Ercília M. S.; Martins, Silvia; Teixeira, José A. (2011). "Production, Composition, and Application of Coffee and Its Industrial Residues". Food and Bioprocess Technology. 4 (5): 661–672. doi:10.1007/s11947-011-0565-z. hdl: 1822/22361 . ISSN   1935-5130. S2CID   27800545.
  19. Archived at Ghostarchive and the Wayback Machine : How It Works - Instant Coffee (video). Retrieved 4 March 2016.
  20. Masters, K (1991). Spray Drying Handbook (5th ed.). Longman Scientific & Technical. ISBN   978-0-582-06266-5.
  21. John J. McKetta, ed. (1995). Encyclopedia of Chemical Processing and Design. Marcel Dekker Inc. ISBN   978-0-8247-2604-1.
  22. "Instant Coffee". Madehow.
  23. Pfluger, R. A. (1975). Soluble coffee processing. In C. L. Mantell (Ed.), Solid wastes: origin, collection, processing, and disposal. New York: Wiley.
  24. 1 2 Gilbert, R.; Marshman, J.; Schwieder, M.; Berg, R. (1976). "Caffeine content of beverages as consumed". Canadian Medical Association Journal. 114 (3): 205–208. PMC   1956955 . PMID   1032351.
  25. Bonita, J.; Mandarano, M.; Shuta, D.; Vinson, J. (2007). "Coffee and cardiovascular disease: In vitro, cellular, animal, and human studies". Pharmacological Research. 55 (3): 187–198. doi:10.1016/j.phrs.2007.01.006. PMID   17368041.
  26. 1 2 3 Morck, T.; Lynch, S.; Cook, J. (1983). "Inhibition of food iron absorption by coffee". The American Journal of Clinical Nutrition. 37 (3): 416–420. doi:10.1093/ajcn/37.3.416. PMID   6402915.

Bibliography

This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.