Space food

Space food is a type of food product created and processed for consumption by astronauts during missions to outer space. The food has specific requirements of providing balanced nutrition for individuals working in space while being easy and safe to store, prepare and consume in the machinery-filled weightless environments of crewed spacecraft. Most space food is freeze-dried to ensure long shelf life.

In recent years, space food has been used by various nations engaging in space programs as a way to share and show off their cultural identity and facilitate intercultural communication. Although astronauts consume a wide variety of foods and beverages in space, the initial idea from The Man in Space Committee of the Space Science Board in 1963 was to supply astronauts with a formula diet that would provide all the needed vitamins and nutrients.

Types

There are several classifications of space food, as follows:
*''Beverages (B)'' - Freeze dried drink mixes (coffee or tea) or flavored drinks (lemonade or orange drink) are provided in vacuum sealed beverage pouches. Coffee and tea may have powdered cream and/or sugar added depending on personal taste preferences. Empty beverage pouches are provided for drinking water.
*''Fresh Foods (FF)'' - Fresh fruits, vegetables, and tortillas delivered by resupply missions. These foods spoil quickly and need to be eaten within the first two days of the package's arrival to the ISS to prevent spoilage. These foods are provided as psychological support for astronauts who may not return home for extended periods of time.
*''Irradiated (I) Meat'' - Beef steak that is sterilized with ionizing radiation to keep the food from spoiling. NASA has dispensation from the U.S. Food and Drug Administration (FDA) to use this type of food sterilization.
*'' Intermediate Moisture (IM)'' - Foods that have some moisture but not enough to cause immediate spoilage. Examples include sausage and beef jerky.
*''Natural Form (NF)'' - Commercially available, shelf-stable foods such as nuts, cookies, and granola bars that are ready to eat.
*''Rehydratable (R) Foods'' - Foods that have been dehydrated by various technologies (such as drying with heat, osmotic drying, and freeze drying) and allowed to rehydrate in hot water prior to consumption. Reducing the water content reduces the ability of microorganisms to thrive.
*''Thermostabilized (T)'' - Also known as the retort process, this process heats foods to destroy pathogens, microorganisms, and enzymes that may cause spoilage.
*''Extended shelf-life bread products'' - Scones, waffles, and rolls specially formulated to have a shelf life of up to 18 months.

More common staples and condiments do not have a classification and are known simply by the item name.

Processing

Designing food for consumption in space is an often difficult process. Foods must meet a number of criteria to be considered fit for space. Firstly, the food must be physiologically appropriate. Specifically, it must be nutritious, easily digestible, and palatable. Secondly, the food must be engineered for consumption in a zero-gravity environment. As such, the food must be light, well packaged, fast to serve, and require minimal cleaning up. Finally, foods require a minimum of energy expenditure throughout their use; they must store well, open easily, and leave little waste behind (foods that tend to leave crumbs, for example, are ill-suited for space).

Carbonated drinks have been tried in space but are not favored due to changes in belching caused by microgravity. Without gravity to separate the liquid and gas in the stomach, burping results in a kind of vomiting called " wet burping". Coca-Cola and Pepsi were first carried on STS-51-F in 1985. Coca-Cola has flown on subsequent missions in a specially designed dispenser that utilizes BioServe Space Technologies hardware used for biochemical experiments. Space Station Mir carried cans of Pepsi in 1996.

Beer has also been developed that counteracts the reduction of taste and smell reception in space and reduces the possibility of wet burps in microgravity. Produced by Vostok 4-Pines Stout, a parabolic flight experiment validated that the reduced carbonation recipe met the criteria intended for space. Barley harvested from crops grown for several generations in space has also been brought back to Earth to produce beer. While not a space food (it used the same high carbonation 'Earth' recipe), the study did demonstrate that ingredients grown in space are safe for production.

Space bread has proved elusive because of a variety of challenges. By 2012 a method was suggested where the dough is leavened by dissolved (as opposed to yeast) and cooked by a low-temperature process, which could allow for fresh bread to be baked from bulk ingredients on future spaceflights.

Packaging

The primary purpose of packaging space food is preserving and containing the food. However, the packaging must also be light-weight, easy to dispose of and useful in the preparation of the food for consumption. The packaging also includes a bar-coded label, which allows for the tracking of an astronaut's diet. The labels also specify the food's preparation instructions in both English and Russian.

Many foods from the Russian space program are packaged in cans and tins.Bourland, Charles (2001) ''Packaging foods for flight''— NASA FTCSC News, July 2001 These are heated through electro-resistive (ohmic) methods, opened with a can-opener, and the food inside consumed directly. Russian soups are hydrated and consumed directly from their packages.Lu, Edward (2003) ''Expedition 7: Eating at Cafe ISS'', Greetings Earthlings:Ed's musings from space

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NASA space foods are packaged in retort pouches or employ freeze drying. They are also packaged in sealed containers which fit into trays to keep them in place. The trays include straps on the underside, allowing astronauts to attach the tray to an anchor point such as their legs or a wall surface and include clips for retaining a beverage pouch or utensils in the microgravity environment.

Cooking in space

The International Space Station is fitted with rehydration chambers and food warmers to prepare the packaged food before consumption. The first and only kitchen on ISS was located in the Russian Orbital Segment (ROS), containing a hydration system for reheating food, and a food warmer for canned food. The United States developed the second food warmer system in a briefcase-like shape to provide the reheating function for packet-style food items. A second galley was added to the ''Unity'' module due to the crew size increase. Combined dinners were rare, as Russian, Space Shuttle, and other ISS astronauts were often eating in their own segments with different schedules.

On Tiangong Space Station, the kitchen is located in the ''Tianhe'' core module, along with living quarters and entertainment systems. Huang Weifen, the chief astronaut trainer of China Manned Space Agency (CMSA), explained that the station is equipped with a small kitchen table for food preparation and the first-ever microwave oven in spaceflight so that astronauts can "always have hot food whenever they need."

History

Early space food was primarily composed of bite-sized cubes, freeze-dried powders, and thick liquids stuffed in aluminum tubes. Eventually, the tubes were discontinued, the powders made easier to re-freeze, and the cubes were coated in gelatin to prevent crumbling on the equipment. With the introduction of the "spoon bowl," astronauts were able to open the contents of the package and eat the simple meal with a spoon.

For lunch on Vostok 1 (1961), Yuri Gagarin ate from three toothpaste-type tubes, two of which contained servings of puréed meat and one which contained chocolate sauce.

In August 1961, Soviet Cosmonaut Gherman Titov became the first human to experience space sickness on Vostok 2; he holds the record for being the first person to vomit in space. This event "heralded the need for space flight nutrition."

John Glenn, as the first American to orbit Earth in 1962, was to experiment with eating in weightless conditions. Some experts had been concerned that weightlessness would impair swallowing. Glenn experienced no such difficulties, and it was determined that microgravity did not affect the natural swallowing process, which is enabled by the peristalsis of the esophagus.

Astronauts in later Mercury missions (1959–1963) disliked the food that was provided. They ate bite-sized cubes, freeze-dried powders, and tubes of semiliquids. The astronauts found it unappetizing, experienced difficulties in rehydrating the freeze-dried foods, and did not like having to squeeze tubes or collect crumbs. Prior to the mission, the astronauts were also fed ''low residual'' launch-day breakfasts to reduce the chances that they would defecate in flight.

Project Gemini and Apollo (1965–1975)

Several of the food issues from the Mercury missions were addressed for the later Gemini missions (1965–1966). Tubes (often heavier than the foods they contained) were abandoned, gelatin coatings helped to prevent bite-sized cubes from crumbling, and simpler rehydration methods were developed. The menus were also expanded to include items such as shrimp cocktail, chicken and vegetables, toast squares, butterscotch pudding, and apple juice.

The crew of Gemini 3 sneaked a corned beef sandwich on their spaceflight. Mission Commander Gus Grissom loved corned beef sandwiches, so Pilot John Young brought one along, having been encouraged by fellow astronaut Walter Schirra. However, Young was supposed to eat only approved food, and Grissom was not supposed to eat anything. Floating pieces of bread posed a potential problem, causing Grissom to put the sandwich away (although he did enjoy it) and the astronauts were mildly rebuked by NASA for the act. A congressional hearing was called, forcing NASA deputy administrator George Mueller to promise no repeats. NASA employed renewed vigilance regarding what astronauts brought along on future missions.

Prior to the Apollo program (1968–1975), early space food development was conducted at the US Air Force School of Aerospace Medicine and the Natick Army Labs. The variety of food options continued to expand for the Apollo missions. The new availability of hot water made rehydrating freeze-dried foods simpler and produced a more appetizing result. The "spoon-bowl" allowed more normal eating practices. Food could be kept in special plastic zip-closure containers, and moisture allowed the food to stick to a spoon. However, the lack of taste was an issue at that time. In order not to over-stimulate the intestinal system, the food was prepared using few spices. Thus astronauts were always looking for something that had a little more taste. Apollo 17 moonwalker Harrison Schmitts favorites were the bacon squares. Buzz Aldrin enjoyed the shrimps. Paul Weitz went for the ice cream.

Apollo 11 (1969)

Buzz Aldrin partook of the Presbyterian Christian sacrament of Holy Communion on the Moon. It had been consecrated by his pastor, the Rev. Dean Woodruff, two weeks prior to the space mission.

Aldrin received the Eucharist in the same hour that his local church did on that Sunday Sabbath and he later stated that "I sensed especially strongly my unity with our church back home, and with the Church everywhere".

Skylab (1973–1974)

Larger living areas on the Skylab space station (1973–1974) allowed for an on-board refrigerator and freezer. This allowed perishable and frozen items to be stored, making microgravity the primary obstacle of future missions. When Skylab's solar panels were damaged during its launch and the station had to rely on minimal power from the Apollo Telescope Mount until Skylab 2 crewmembers performed repairs, the refrigerator and freezer were among the systems that Mission Control kept operational. The OWS module had a specially designed wardroom dedicated for food preparation and dining (see image on the right). The table was designed to avoid hierarchical positions through its triangular layout and to support social cohesion. It could accommodate all three crew members at the same time using a variety of microgravity restraints.

Menus included 72 items; for the first time about 15% was frozen. Shrimp cocktail and butter cookies were consistent favorites; Lobster Newberg, fresh bread, processed meat products, and ice cream were among other choices. A dining room table and chairs, fastened to the floor and fitted with foot and thigh restraints, allowed for a more normal eating experience. The trays used could warm the food, and had magnets to hold eating utensils and scissors used for opening food containers.Benson, Charles Dunlap and William David Compton.
Living and Working in Space: A History of Skylab
'. NASA publication SP-4208.Belew, Leland. (editor)

' NASA publication SP-400. The food was similar to that used for Apollo, but canned for preservation. The crew found it to be better than that of Apollo but still unsatisfying, partially due to food tasting different in space than on Earth. The frozen foods were the most popular, and they enjoyed spicy foods due to sinus congestion from weightlessness dulling their senses of taste and smell. Weightlessness also complicated both eating and cleaning up; crews spent up to 90 minutes a day on housekeeping.Living It Up in Space
''Time'', 25 June 1973.

After astronaut requests, NASA bought cream sherry for one Skylab mission and packaged some for testing on a reduced-gravity aircraft. In microgravity smells quickly permeate the environment and the agency found that the sherry triggered the gag reflex. Concern over public reaction to taking alcohol into space led NASA to abandon its plans. The astronauts instead drank the purchased supply while consuming their pre-mission special diet.

The astronauts of the Apollo–Soyuz Test Project (1975) received samples of Soviet space food when the combined crew dined together. Among the foods provided by Soyuz 19 were canned beef tongue, packaged Riga bread, tubes of borscht (beet soup), and caviar. The borscht was labeled "vodka".

Salyut (1971-1986)

The Soviet Union's Salyut stations were the first to be structured in zones for different activities, including a table for work and having dinner together. By the mid-1970s, cosmonauts and astronauts on the Russian Salyut space research stations were able to eat fresh food such as tomatoes, coriander and cucumbers from their orbital space gardens, and some even had the possibility of a sip of wine or vodka with their food. The pioneering Oasis greenhouse on Salyut 1 (launched in April 1971) led to the implementation of plant-growing facilities on the later Salyut stations, on Mir and on the International Space Station, and the first space-grown vegetables were reportedly eaten in 1975 onboard Salyut 4.

Interkosmos (1978–1988)

As part of the Interkosmos space program, allies of the Soviet Union, including the People's Republic of Bulgaria, actively participated in the research and deployment of space technologies from the 1960s until the end of communism in 1989-1990 in the Eastern Bloc. The Institute of Cryobiology and Lyophilization (now the Institute of Cryobiology and Food Technology), founded in 1973 as a part of the Bulgarian Academy of Sciences, produced space food for the purposes of the program. The menu includes traditional Bulgarian dishes such as tarator, sarma, musaka, lyutenitza, kiselo mlyako, dried vegetables and fruits, etc.

Today

International Space Station

Modern astronauts have a greater variety of main courses to choose from and many astronauts request personalized menus from lists of available foods including items like fruit salad and spaghetti. Fresh fruits and vegetables that can be safely stored at room temperature are eaten on space flights. Astronauts sometimes request beef jerky for flights, as it has an extended shelf life and a strong flavor.

Since 2002, the small LADA Greenhouse system (the leaf chamber is just 16 x 20 x 26 cm/6 x 8 x 10 inches) has been used onboard the International Space Station to study how plants grow in microgravity and to grow edible vegetables for the astronauts. LADA includes a control module and was sent to the station already equipped with the root media for the plants to be grown and eaten in space.

*Italian: On 3 May 2015, Italian astronaut Samantha Cristoforetti became the first person to drink freshly brewed coffee in space. Commercial firms Lavazza and Argotec developed an espresso machine, called ''ISSpresso'', for the International Space Station. It can also brew other hot drinks, such as tea, hot chocolate, and broth. While the device serves as a quality-of-life improvement aboard the station, it is also an experiment in fluid dynamics in space. The brewing machine and drinking cups were specially designed to work with fluids in low gravity.
*Japanese: The Japan Aerospace Exploration Agency (JAXA) have developed traditional Japanese foods and drinks such as matcha, yōkan, ramen, sushi, soups, and rice with ume for consumption in orbit. The foods have been produced in collaboration with Japanese food companies such as Ajinomoto, Meiji Dairies, and Nissin Foods.
*Korean: In April 2008, South Korea’s first astronaut, Yi So-yeon, was a crew member on the International Space Station and brought a modified version of Korea's national dish, kimchi. It took three research institutes several years and over one million dollars in funding to create a version of the fermented cabbage dish that was suitable for space travel.Starship Kimchi: A Bold Taste Goes Where It Has Never Gone Before
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* Russian: On the International Space Station, the Russian crew has a selection of over 300 dishes. An example daily menu can consist of:
**''Breakfast:'' curds and nuts, mashed potatoes with nuts, apple-quince chip sticks, sugarless coffee, and vitamins
**''Lunch:'' jellied pike perch, borscht with meat, goulash with buckwheat, bread, black currant juice, sugarless tea
**''Supper:'' rice and meat, broccoli and cheese, nuts, tea with sugar
**''Second supper:'' dried beef, cashew nuts, peaches, grape juice
*Swedish: Swedish astronaut Christer Fuglesang was not allowed to bring reindeer jerky with him on board a shuttle mission as it was "weird" for the Americans so soon before Christmas. He had to go with moose instead.

NASA's Advanced Food Technology Project (AFT) is researching ways to ensure an adequate food supply for long-duration space exploration missions.

Chinese space program

In October 2003, the People's Republic of China commenced its first crewed spaceflight, Shenzhou 5. The astronaut, Yang Liwei, brought along with him and ate specially processed yuxiang pork (), Kung Pao chicken (), and Eight Treasures rice (), along with Chinese herbal tea. Food made for this flight and the subsequent crewed flight in 2007 has been commercialized for sale to the mass market.

At Tiangong space station, meals consisting of 120 different types of food, selected based on astronauts' preferences, are stored aboard. Staples including shredded pork in garlic sauce, kung pao chicken, black pepper beef, yuxiang shredded pork, pickled cabbage, and beverages, including a variety of teas and juices, are resupplied by trips of the Tianzhou-class robotic cargo spacecraft. Fresh fruits and vegetables are stored in coolers. Huang Weifen, the chief astronaut trainer of CMSA, explains that most of the food is prepared to be solid, boneless, small-piece. Condiments such as pork sauce and Sichuan pepper sauce are used to compensate for the changes in the sense of taste in microgravity. Food items are often adjusted according to astronauts' feedback, such as when larger supplies of vegetables were included in Tianzhou 4.

Consumer derivatives

Capitalizing on the popularity of the Apollo space missions in the early 1970s, Pillsbury marketed "Food Sticks" (also known as " Space Food Sticks") for the consumer market. Fourteen individually packaged sticks were included in a box, and came in six flavors such as peanut butter, caramel, and chocolate. Food Sticks were marketed as a "nutritionally balanced between meal snack".

Examples of derivative products can be found in NASA Space Center gift shops, general sweets and novelty shops, online retailers, or at Army Surplus stores. A popular example is freeze-dried ice cream. Tang, originally marketed in 1959, saw an increase in popularity in the 1960s due to its inclusion on American human space flights.

See also

*Airline meal
*Alcohol and spaceflight
* HI-SEAS
*Meal, Ready-to-Eat

References

External links

Space food
by NASA Human Spaceflight


by NASA


(1969) by NASA
* by NASA/Scott Kelly

"Beyond Tang: Food in Space"
by NPR

{{DEFAULTSORT:Space Food
Human spaceflight
Space science
Food processing
Soviet inventions