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Solar power describes a number of methods of harnessing energy from the light of the sun. It has been present in many traditional building methods for centuries but has become of increasing interest in developed countries as other power sources such as fossil fuels become more scarce and expensive both in financial and environmental terms. It is often employed where other supplies of power are absent such as in remote locations and in space.As the earth orbits the sun, it receives 1,410 W / m2 of energy, as measured upon a surface kept normal (at a right angle) to the sun. Of this, approximately 19% of the energy is absorbed by the atmosphere, while clouds on average reflect a further 35% of the total energy.
After passing through the Earth's atmosphere, most of the sun's energy is in the form of visible and ultraviolet light. Plants use solar energy to create chemical energy through photosynthesis. We use this energy when we burn wood or fossil fuels.
1 Classifications of solar power
1.1 Direct or indirect
Solar power can be classified as direct or indirect.
Direct solar power involves only one transformation into a usable form.
Examples:
- Sunlight hits a photovoltaic cell creating electricity. (Photovoltaics are classified as direct although the electricity is usually converted to another form of energy such as light or mechanical energy before becoming useful.)
- Sunlight hits a dark surface and the surface warms when the light is converted to heat by interacting with matter. The heat is used to heat a room or water.
Indirect solar power involves more than one transformation to reach a usable form.
Example:
- Systems to close insulating shutters or move shades.
Many other types of power generation are indirectly solar-powered. Plants use photosynthesis to convert solar energy to chemical energy, which can later be burned as fuel to generate electricity; oil and coal originated as plants. Hydroelectric dams and wind turbines are indirectly powered by the sun.
1.2 Passive or active
Solar power can also be classified as passive or active:
Passive solar systems are systems that do not involve the input of any other forms of energy apart from the incoming sunlight.
Active solarActive solar is the use of mechanical systems to use the sunlight or other renewable energy sources for heating or other energy needs. If no mechanical systems are involved, the system relies on architectural elements and is termed passive solar. Typical This usually refers to system which use additional mechanisms such as circulation pumps, air blowers or automatic systems which aim collectors at the sun.
2 Types of solar power applications
Most solar energy used today is harnessed as heat or electricity.
2.1 Solar design in architecture
Solar designThe goal of solar design is to incorporate passive solar design features into buildings, to help keep a structure warm in the winter and cool in the summer. A building's windows, walls, and floors can be designed to collect, store, and distribute warmth d is the use of architecturalArchitecture is the art and science of designing buildings. A wider definition would include within its scope the design of the total built environment, from the macrolevel of town planning, urban design, and landscape architecture to the microlevel of fu features to replace the use of grid electricity and fossil fuels with the use of solar energy and decrease the energy needed in a home or building with insulation and efficient lighting and appliances.
- Architectural features used in solar design:
- South-facing (for the Northern Hemisphere) or north-facing (for the Southern Hemisphere) windows with insulated glazing that has high ultraviolet transmitance.
- Thermal massA thermal mass in the most general term refers to any mass used to absorb and hold heat. Materials with high specific heat like stone, concrete, adobe or water work best. Thermal mass is often confused with insulation, but is distinct from it. Thermal mases -- any masses such as walls or roofs that absorb and hold the sun's heat. Materials with high specific heat like stone, concrete, adobe or water work best. See Trombe wallA Trombe wall is a sun-facing wall built from material that can act as a thermal mass such as stone, concrete, adobe or water tanks combined with an air space, insulated glazing and vents to form a large solar thermal collector. During the day sunlight shs.
- Insulating shutter s for windows to be closed at night and on overcast days. These trap solar heat in the building.
- Fixed awnings positioned to create shade in the summer and exposure to the sun in the winter.
- Movable awnings to be repositioned seasonally.
- A well insulated and sealed building envelope.
- Exhaust fans in high humidity areas.
- Passive or active warm air solar panels. Pass air over black surfaces fixed behind a glass pane. The air is heated by the sun and flows into the building.
- Active solar panelSolar panels are devices consisting of solar cells that convert light into electricity. They are called solar after the sun or "Sol" because the sun is the most powerful source of the light available for use. The solar cells are sometimes called photovolts using water or antifreeze solutions. These get hot in the sun and the hot liquid is used to heat the building or in a solar hot water system.
- Passive solar panelSolar panels are devices consisting of solar cells that convert light into electricity. They are called solar after the sun or "Sol" because the sun is the most powerful source of the light available for use. The solar cells are sometimes called photovolts for preheating potable water.
- Photovoltaic systems to provide electricity.
- Solar chimneyA solar chimney is an apparatus for harnessing solar energy by convection of heated air. In its simplest form, it simply consists of a black-painted chimney. During the daytime, solar energy heats the chimney and therby heats the air within it, resultings for cooling.
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