Whey

Sweet whey, fluid

Whey collecting as newly made cheese drains
Nutritional value per 100 g (3.5 oz)
Energy 112 kJ (27 kcal)
5.14 g
Sugars 5.14 g
0.36 g
0.85 g
Minerals
Calcium
(5%)

47 mg

Other constituents
Water 93.12 g
Percentages are roughly approximated using US recommendations for adults.
Source: USDA Nutrient Database

Whey is the liquid remaining after milk has been curdled and strained. It is a byproduct of the manufacture of cheese or casein and has several commercial uses. Sweet whey is manufactured during the making of rennet types of hard cheese like Cheddar or Swiss cheese. Acid whey (also known as "sour whey") is a byproduct produced during the making of acid types of dairy products such as cottage cheese or strained yogurt.

Whey proteins consist of α-lactalbumin, β-lactoglobulin, serum albumin, immunoglobulins, and proteose-peptones.[1]

Production

To produce cheese, rennet or an edible acid is added to heated milk. This makes the milk coagulate or curdle, separating the milk solids (curds) from the liquid whey.[2] Sweet whey is the byproduct of rennet-coagulated cheese, and acid whey (also called sour whey) is the byproduct of acid-coagulated cheese. Sweet whey has a pH greater than or equal to 5.6, acid whey has a pH less than or equal to 5.1.[3]

Uses

Whey is used to produce whey cheeses such as ricotta, brunost, and whey butter and many other products for human consumption. The fat content of whey is low; for example 1,000 kg of whey are required to make typically 1 kg of whey butter.[4] It is also an additive in many processed foods, including breads, crackers, and commercial pastry, and in animal feed. Whey proteins consist primarily of α-lactalbumin and β-lactoglobulin. Depending on the method of manufacture, whey may also contain glycomacropeptides (GMP).

Dairy whey remaining from home-made cheesemaking has many uses. It is a flour conditioner and can be substituted for skim milk in most baked good recipes that require milk (bread, pancakes, muffins, etc.).

Throughout history, whey was a popular drink in inns and coffee houses. When Joseph Priestley was at college at Daventry Academy, 1752–1755, he records that, on the morning of Wednesday, 22 May 1754, he "went with a large company to drink whey."[5] This was probably "sack whey" or "wine whey".

Another use of whey is to make "cream of tartar whey": "Put a pint of blue milk [blue milk is characterized by the appearance on its surface, eighteen or twenty-four hours after it is drawn, of small, indigo-blue fungal spots that rapidly enlarge until the whole surface is covered with a blue film] over the fire, when it begins to boil, put in two tea spoonfuls of cream of tartar, then take it off the fire, and let it stand till the curd settles to the bottom of the pan, then put it into a basin to cool, and drink it milk warm.”[6]

In areas where cheese is made, excess whey byproduct is sometimes sprayed over hay fields as a fertilizer.

Historically whey, being a byproduct of cheese making, was considered a waste product and was pumped into rivers and streams in the U.S. Containing protein, this practice led to the growth of large concentrations of algae. These were deemed to be a hazard to the ecosystem because they prevented sunlight and oxygen from reaching the water. The government eventually prohibited this practice which led to a disposal problem for producers. Their first solution was to use it as a cheap filler in the production of ice cream. Whey eventually found its way into many other products as a filler and ultimately into a number of health food products where it remains a popular supplement.

Whey protein (derived from whey) is often sold as a nutritional supplement. Such supplements are especially popular in the sport of bodybuilding. In Switzerland, where cheese production is an important industry, whey is used as the basis for carbonated soft drinks such as Rivella and Montino. In Iceland, liquid whey is sold as Mysa.Whey is the primary ingredient in most protein powders, which are used primarily by athletes and bodybuilders to obtain the necessary amounts of protein on a daily basis. Whey protein has a high level of leucine,[7] one of the three branched-chain amino acids, making it ideal for muscle growth and repair. From cows milk, just as curds are processed and later made into cheese, the whey undergoes a lengthy road to become the powder that fills each container.  The whey is then pasteurized, just like any milk, to assure that no harmful bacteria are breeding in the liquid. It is heated to 70-80° Celsius and is then cooled back down to 4°. Studies have shown that this process of using extreme temperatures eliminates 99.7% of bacteria without coagulating the protein into a solid mass. Next, the whey must be filtered, and so is loaded into a massive web of ceramic filters and stainless steel turbines. These machines work to separate out the lactose as well as the fats, leaving a liquid of 90% whey protein.[8] The next step is solidifying the protein. The liquid is put into a massive dryer that uses hot air followed by cold air to separate all the water from the whey, leaving a dry solid. Lastly, a “high-speed blender” mixes the newly formed powder with flavors like cocoa or vanilla to mask the chalky and sometimes bitter taste. This is the final product that is often mixed with milk or water and consumed for a quick serving of 10-40 grams of protein.

Whey cream and butter

Cream can be skimmed from whey. Whey cream is saltier, tangier, and "cheesier" than ("sweet") cream skimmed from milk, and can be used to make whey butter. Due to the low fat content of whey the yield is not high, with typically two to five parts of butter manufactured from 1,000 parts of whey.[4] Whey cream and butter are suitable for making butter-flavoured food, as they have a stronger flavour of their own. They are also cheaper to manufacture than sweet cream and butter.

Health

Because whey contains lactose, it should be avoided by those who are lactose intolerant. Dried whey, a very common food additive, contains 65-75 percent lactose and 11-12 percent protein.[9] When used as a food additive, whey can contribute to quantities of lactose far above the level of tolerance of most lactose-intolerant individuals.

Liquid whey contains lactose, vitamins, protein, and minerals, along with traces of fat.

In 2005 researchers at Lund University in Sweden found that whey can help regulate and reduce spikes in blood sugar levels in people with type 2 diabetes by increasing insulin secretion.[10]

People can be allergic to whey or other milk proteins (this is an allergy, not lactose intolerance). As whey proteins are altered by high temperatures, whey-sensitive people may be able to tolerate evaporated, boiled, or sterilized milk. Hard cheeses are high in casein, but low in whey proteins, and are the least allergenic for those allergic to whey proteins. However, casein proteins (which are heat-stable) are the most important allergens in cheese, and an individual may be allergic to either or both types of protein.[11]

Protein Comparison

Whey protein is the name of globular proteins that can be isolated from whey. It is typically a mixture of globinstagers beta-lactoglobulin (~65 percent), alpha-lactalbumin (~25 percent), and serum albumin (~8 percent), which are soluble in their native culture forms, independent of pH.

There have been studies to show how whey protein may be more effective in increasing muscle mass. In one study, researchers at the Human Performance Laboratory at the University of Connecticut divided 63 men and women into groups receiving. One group received a soy protein supplement, another group a whey supplement, and the last group a carbohydrate supplement. Over the course of a nine-month training regimen, researchers found that those taking whey protein gained several more kilograms of muscle mass than people taking the other supplements, according to the 2013 article published in the Journal of the American College of Nutrition.[7] Soy, however, is still a great alternative for those who choose not to consume animal protein, as it contains arginine and glutamine.

See also

References

  1. Farrell, H.M.; Jimenez-Flores, R.; Bleck, G.T.; Brown, E.M.; Butler, J.E.; Creamer, L.K.; Hicks, C.L.; Hollar, C.M.; Ng-Kwai-Hang, K.F. (2004-06-01). "Nomenclature of the Proteins of Cows' Milk—Sixth Revision". Journal of Dairy Science. 87 (6): 1641–1674. ISSN 0022-0302. doi:10.3168/jds.s0022-0302(04)73319-6.
  2. Wiley, Andrea S. (2014). Cultures of Milk: The Biology and Meaning of Dairy Products in the United States and India. Cambridge, Massachusetts: Harvard University Press. p. 11. ISBN 978-0-674-72905-6.
  3. Miller, Gregory D. (2006). Handbook of Dairy Foods and Nutrition (Third ed.). CRC Press. p. 39. ISBN 978-1-420-00431-1.
  4. 1 2 "Full text of "Whey butter"".
  5. Tony Rail and Beryl Thomas; Joseph Priestley's Journal while at Daventry Academy, 1754, transcribed from the original shorthand; Enlightenment and Dissent (University of Wales, Aberystwyth), 1994, 13, 49–113.
  6. Raffald, Elizabeth (1782). The Experienced English Housekeeper (Eighth ed.). London: R. Baldwin. p. 314.
  7. 1 2 "Whey Protein - Supplement Facts & Safety". Live Science. Retrieved 2017-05-18.
  8. Protein purification : principles, high resolution methods, and applications. Wiley. 2013. ISBN 1118002199. OCLC 898985336.
  9. American Dairy Products Institute
  10. Frid, Anders H.; Nilsson, Mikael; Holst, Jens Juul; Björck, Inger M.E. (2005). "Effect of whey on blood glucose and insulin responses to composite breakfast and lunch meals in type 2 diabetic subjects". American Journal of Clinical Nutrition. 82 (1): 69–75. PMID 16002802.
  11. ALLSA, 2014. Food-milk allergy and intolerance retrieved from http://wayback.archive.org/web/20150324103838/http://www.allergysa.org/c_ol_food_015.asp (archived)
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