Solar thermal energy
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The major applications of solar thermal energy at present are heating swimming pools, heating water for domestic use, and space heating of buildings. For these purposes, the general practice is to use flat-plate solar energy or evacuated tube collectors with a fixed orientation (position).
The highest efficiency with a fixed flat-plate collector or evacuated tube collector is obtained if it faces toward the equator and slopes at an angle to the horizon equal to the latitude plus about 15 degrees. Solar collectors fall into two general categories: nonconcentrating and concentrating.
In the nonconcentrating type, the collector area (i.e. the area that intercepts the solar radiation) is the same as the absorber area (i.e., the area absorbing the radiation).
In concentrating collectors, the area intercepting the solar radiation is greater, sometimes hundreds of times greater, than the absorber area. Where temperatures below about 200 degrees F are sufficient, such as for space heating, flat-plate collectors of the nonconcentrating type are generally used. These hold temperatures "in stagnation" at between 150 and 220 degrees celsius.
There are many flat-plate collector designs but generally all consist of (1) a flat-plate absorber, which intercepts and absorbs the solar energy, (2) a transparent cover(s) that allows solar energy to pass through but reduces heat loss from the absorber, (3) a heat-transport fluid (air or water) flowing through tubes to remove heat from the absorber, and (4) a heat insulating backing. One flat plate collector is designed to be evacuated, to prevent heat loss.
The most effective use of collectors is with a sealed heat exchange system, rather than having the potable water flow through the collectors. Polypropolene glycol (which is used is the food industry) is used as a heat exchnage medium to protect against freeze damage up to minus 30 degrees Celsius.
Solar space heating systems can be classified as passive or active. In passive heating systems, the air is circulated past a solar heat surface(s) and through the building by convection (i.e. less dense warm air tends to rise while more dense cooler air moves downward) without the use of mechanical equipment. In active heating systems, fans and pumps are used to circulate the air or the heat absorbing fluid.
See also: solar power, solar heating, renewable energy
External link
- Solar Energy (http://www.eia.doe.gov/kids/renewable/solar.html)