Solar cooker
From Wikipedia, the free encyclopedia
A solar oven or solar cooker is a device which uses sunlight as its energy source. Because they use no fuel and they cost nothing to run, humanitarian organizations are promoting their use worldwide to help slow deforestation and desertification, caused by using wood as fuel for cooking. Solar cookers are also sometimes used in outdoor cooking, especially in situations where minimal fuel consumption or fire risk are considered highly important.
Contents |
[edit] Types of solar cookers
There are many different types of Solar cookers. All solar cookers use the sun's heat and light to cook food. The basic principles of solar cookers are:
- Concentrating sunlight: Some device, usually a mirror or some type of reflective metal, is used to concentrate light and heat from the sun into a small cooking area, making the energy more concentrated and therefore more potent.
- Converting light to heat: Any black on the inside of a solar cooker, as well as certain materials for pots, will improve the effectiveness of turning light into heat. A black pan will absorb almost all of the sun's light and turn it into heat, substantially improving the effectiveness of the cooker. Also, the better a pan conducts heat, the faster the oven will work.
- Trapping heat: Isolating the air inside the cooker from the air outside the cooker makes an important difference. Using a clear solid, like a plastic bag or a glass cover, will allow light to enter, but once the light is absorbed and converted to heat, a plastic bag or glass cover will trap the heat inside using the Greenhouse Effect. This makes it possible to reach similar temperatures on cold and windy days as on hot days.
Alone, each of these strategies for heating something with the sun is fairly ineffective, but most solar cookers use two or all three of these strategies in combination to get temperatures sufficient for cooking.
Apart from the obvious need for sunlight and the need to aim the solar oven before use, using a solar oven is not substantially different from a conventional oven. However, one disadvantage of solar cooking is that it provides the food during the hottest part of the day, when people are less inclined to eat a hot meal. However, a thick pan that conducts heat slowly (such as Cast Iron) will lose heat at a slower rate, and that combined with the insulation of the oven can be used to keep food warm well into the evening.
The top can usually be removed to allow dark pots containing food to be placed inside. The box usually has one or more reflectors with aluminum foil or other reflective material to bounce extra light into the interior of the box. Cooking containers and the inside bottom of the cooker should be dark-colored or black. The inside walls should be reflective to reduce radiative heat loss and bounce the light towards the pots and the dark bottom, which is in contact with the pots.
[edit] Box cookers
The inside insulator for the solar box cooker has to be able to withstand temperatures up to 150°C (300 °F) without melting or off-gassing. Crumpled newspapers, wool, rags, dry grass, sheets of cardboard, etc. can be used to insulate the walls of the cooker, but since most of the heat escapes through the top glass or plastic, very little insulation in the walls is necessary. The transparent top is either glass, which is durable but hard to work with, or an oven cooking bag, which is lighter, cheaper, and easier to work with, but less durable. If dark pots and/or bottom trays cannot be located, these can be darkened either with flat-black spray paint (one that is non-toxic when warmed), black tempera paint, or soot from a fire.
The solar box cooker typically reaches a temperature of 150 °C (300 °F). This is not as hot as a standard oven, but still hot enough to cook food over a somewhat longer period of time. Food containing moisture cannot get much hotter than 100 °C (212 °F) in any case, so it is not necessary to cook at the high temperatures indicated in standard cookbooks. Because the food does not reach too high a temperature, it can be safely left in the cooker all day without burning. It is best to start cooking before noon, though. Depending on the latitude and weather, food can be cooked either early or later in the day. The cooker can be used to warm food and drinks and can also be used to pasteurize water or milk.[1]
Solar box cookers can be made of locally available materials or be manufactured in a factory for sale.[2] They range from small cardboard devices, suitable for cooking a single meal when the sun is shining, to wood and glass boxes built into the sunny side of a house.[3] Although invented by Horace de Saussure, a Swiss naturalist, as early as 1767, solar box cookers have only gained popularity since the 1970s. These surprisingly simple and useful appliances are seen in growing numbers in almost every country of the world.[4] An index of detailed wiki pages for each country can be found here.
[edit] Panel cookers
Panel solar cookers are very inexpensive solar cookers that use shiny panels to direct sunlight to a cooking pot that is enclosed in a clear plastic bag. A common model is the CooKit. Developed in 1994 by Solar Cookers International, it is often produced locally by pasting a reflective material, such as aluminum foil, onto a cut and folded backing, usually corrugated cardboard. It is lightweight and folds for storage. When completely unfolded, it measures about three feet by four feet (1 m by 1.3 m). Using materials purchased in bulk, the typical cost is about US$5. However, CooKits can also be made entirely from reclaimed materials, including used carboard boxes and foil from the inside of cigarette boxes.[5]
The CooKit is considered a low-to-moderate temperature solar cooker, easily reaching temperatures high enough to pasteurize water or cook grains such as rice. On a sunny day, one CooKit can collect enough solar energy to cook rice, meat or vegetables to feed a family with up to three or four children. Larger families use two or more cookers.
To use a panel cooker, it is folded into a bowl shape. Food is placed in a dark-colored pot, covered with a tightly fitted lid. The pot is placed in a clear plastic bag and tied, clipped, or folded shut. The panel cooker is placed in direct sunlight until the food is cooked, which usually requires several hours for a full family-sized meal. For faster cooking, the pot can be raised on sticks or wires to allow the heated air to circulate underneath it.
High-temperature plastic bags (oven roasting bags) can be re-used for more than a month, but any plastic bag will work, if measures (such as sticks or wires) are taken to keep the bag from touching the hot cooking pot and melting to it. The purpose of the plastic bag is to trap heated air next to the pot; it may not be needed on very bright, windless days.
A recent development is the HotPot developed by US NGO Solar Household Energy, Inc. The cooking vessel in this cooker is a large clear pot with a clear lid into which a dark pot is suspended. This design has the advantage of very even heating since the sun is able to shine onto the sides and the bottom of the pot during cooking. An added advantage is that the clear lid allows the food to be observed while it is cooking without removing the lid. The HotPot provides an alternative to using plastic bags in a panel cooker.
[edit] Solar kettles
Solar kettles are solar thermal devices that can heat water to boiling point through the reliance on solar energy alone. Typically they use evacuated (or vacuum) solar glass tube technology to capture, accumulate and store solar energy needed to power the kettle. Besides heating liquids, since the stagnating temperature of solar vacuum glass tubes is a high 220 degrees Celsius (425 °F), Solar kettles can also deliver dry heat and function as ovens and autoclaves. Moreover, since solar vacuum glass tubes work on accumulated rather than concentrated solar thermal energy, solar kettles only need diffused sunlight to work and needs no sun tracking at all. If solar kettles uses solar vacuum tubes technologies, the vacuum insulating properties will keep previously heated water hot throughout the night.
[edit] Parabolic cookers
Although these types of solar cookers can cook as well as a conventional oven, they are difficult to construct. Parabolic cookers reach high temperatures and cook quickly, but require frequent adjustment and supervision for safe operation. Several hundred thousand exist, mainly in China. They are especially useful for large-scale institutional cooking.
[edit] Hybrid cookers
A hybrid solar oven is a type of solar oven that uses both the regular elements of a solar box cooker as well as a conventional electrical heating element for cloudy days or nighttime cooking. Hybrid solar ovens are therefore more independent. However, they lack the cost advantages of some other types of solar cookers, and so they have not caught on as much in third world countries.
A hybrid solar grill consists of an adjustable parabolic reflector suspended in a tripod with a movable grill surface.[6] These outperform solar box cookers in temperature range and cooking times. When solar energy is not available, the design uses any conventional fuel as a heat source, including gas, electricity, wood, etc. The tripod hybrid grill is revolutionary in that many, if not all, of the parts required to build them can be scavenged from commonly thrown away items.
[edit] Environmental advantages
Solar ovens are just one part of the alternative energy picture, but one that is accessible to a great majority of people. A reliable solar oven can be built from everyday materials in just a few hours or purchased ready-made.
Solar ovens can be used to prepare anything that can be made in a conventional oven or stove — from baked bread to steamed vegetables to roasted meat. Solar ovens allow you to do it all, without contributing to global warming or heating up the kitchen and placing additional demands on cooling systems. Nearly 75 percent of US households prepare at least one hot meal per day; one-third prepare two or more. Some of those meals could be made in an environmentally responsible way, using a solar oven.
The World Health Organization reports that cooking with fuel wood is the equivalent of smoking two packs of cigarettes a day. Inhalation of smoke from cooking fires causes respiratory diseases and death. One of the solutions advocated to address this problem is solar cooking which makes no smoke at all. It just uses free and abundant solar energy.
[edit] Solar cooking projects
[edit] Bakeries in Lesotho
Michael Hönes of Germany has established solar cooking in Lesotho, enabling small groups of women to build up community bakeries using solar ovens.[7]
[edit] Use in Darfur refugee camps
Cardboard, aluminum foil, and plastic bags for well over 10,000 solar cookers have been donated to the Iridimi refugee camp and Touloum refugee camps in Chad by the combined efforts of the Jewish World Watch, the Dutch foundation KoZon, and Solar Cookers International. The refugees construct the cookers themselves, using the donated supplies and locally purchased Arabic gum,[8] and use them for midday and evening meals. The goal of this project was to reduce the Darfuri women's need to leave the relative safety of the camp to gather firewood, which exposed them to a high risk of being beaten, raped, kidnapped, or murdered.[9][10][11] It has also significantly reduced the amount of time women spend tending open fires each day, with the results that they are healthier and they have more time to grow vegetables for their families and make handicrafts for export.[8]
[edit] Indian solar cooker village
Bysanivaripalle, a silk-producing village that is 125 km (80 mi) northwest of Tirupati in the Indian state of in Andhra Pradesh, is the first of its kind: an entire village that uses only solar cooking. Intersol, an Austrian non-governmental organisation, sponsored the provision of powerful "Sk-14" parabolic solar cookers in 2004.[12]
[edit] References
- ^ Untitled 1. Retrieved on 2008-03-04.
- ^ Solar Cooking Documents in the Solar Cooking Archive, Solar Cooker Manufacturers. Retrieved on 2008-03-04.
- ^ Solar Box Journal #17: Through-the Wall Ovens. Retrieved on 2008-03-04.
- ^ International Directory of Solar Cooking Promoters. Retrieved on 2008-03-04.
- ^ Patricia McArdle (2007). "My Solar Cooker Epiphany" in the Solar Cooker Review. Solar Cookers International. Retrieved on 2008-04-26.
- ^ Tripod Solar Hybrid Grill Kit - Solar Cooking - a Wikia wiki. Retrieved on 2008-03-04.
- ^ Financial Mail Innovations. Retrieved on 2008-03-06.
- ^ a b Solar lifeline saves Darfur women - CNN.com. Retrieved on 2008-03-06.
- ^ Sides, Phyllis. Local woman helps keep the spotlight on the crisis in Darfur. Journal Times: Beyond Wisconsin. May 16, 2007, accessed May 29, 2007
- ^ Jewish World Watch. Solar Cooker Project. 2007, accessed May 29, 2007.
- ^ Tugend, Tom Jewish World Watch Eyes National Stage. Jewish Journal of Greater Los Angeles. June 16, 2006, accessed May 29, 2007.
- ^ An Indian village full of solar cookers (Mitra - Natural Innovation). Retrieved on 2008-03-06.
[edit] See also
- Solar Cookers International
- Farrington Daniels
- Solar forge
- Solar furnace
- Solar still
- Solar water disinfection
[edit] External links
Information
- The Solar Cooking Archive Wiki Extensive information about building and using solar cookers
- The Solar Cooking Archive
- U.S. Department of Energy page on residential energy use
- Cook With the Sun Information from a solar cooker aficionado
- Solar Oven test review of a simple box cooker
- The Solar Bowl at Auroville
- Solar Funnel analysis of a design
- Infinitely large solar furnace, suggested as a possible project for students
- Solar Cooking Engines - Database of home-made and commercial solar cookers
Organizations
- Solar Cookers International (NGO)
- Solar Food Projects
- STAR-TIDES (Sustainable Technologies, Accelerated Research - Transportable Infrastructures for Development and Emergency Support)
- Cornell University ESW Solar Oven Project
- Documentary of Nepal organization FoST promoting Solar Cookers - by Edwin van Gorp.
- Atouts Soleil solar cookers - by Xavier Devos