Solar power is generated when special panels of solar cells, or modules, capture sunlight and convert it directly into electricity. These panels are known as photovoltaic, or PV. (Photo is Greek for light, and voltaic pertains to electricity.)
Several PV panels can be grouped into solar arrays, and large numbers of these can be used to create a solar power plant. The electricity produced by solar panels can be used right away, fed into the power grid for others to use or stored in a battery so it is also available on cloudy days.Solar thin films are light-absorbing materials that are rolled, sprayed or painted onto rooftops and other surfaces. Thin films are cheaper to make than traditional solar cells, but they are not yet as efficient at producing electricity.
Thermal solar power uses mirrors or panels containing tiny tubes filled with water that absorb heat from the sun. On rooftops, they can supply hot water for individual buildings. Concentrated solar power can also be used to create steam that spins turbines at electric power plants.
Traditional hydropower changes a body of water so that the water’s flow can be used to generate electricity. For example, a dam may be built on a river to trap the water so it can be released through a turbine to generate electricity. Or, water can be pumped from a lower reservoir to a higher reservoir, and stored there. When it is needed, it flows down through a turbine for electricity generation. Most traditional hydropower facilities are found in hilly or mountainous areas.
New hydropower uses energy from the natural movement of water to produce electricity without changing the water flow. For example, the constant flow of water in a river can spin the blades of underwater turbines to produce electricity.
Tidal PowerOcean energy is another form of harnessing the temperature and movement of water to create energy. Oceans cover more than 70% of the earth’s surface, making them the world’s largest solar collectors. The ocean stores thermal (heat) energy, which can be used to generate electricity using special turbine generators.
The energy of the ocean’s waves and tides can also be used to generate electricity with dams that force ocean water through turbines. This is called tidal energy, or wave energy. The world’s first wave power station is on the Scottish island of Islay. It generates enough electricity for about 400 homes. Wave energy uses buoys or other mechanisms embedded with turbines to create electricity as they shift with the movement of waves. The world’s first wave power station was built on the Scottish island of Islay. Other wave power stations are located in Mutriku Bay, Spain; Jaffa Port, Israel; Kaneohe Bay near Oahu, Hawaii; and Cobscook Bay on the East Coast of the United States near Eastbrook, Maine.
Scientists and engineers around the world are working on systems to use the ocean’s energy on a large scale.
Geothermal EnergyGeothermal energy comes from steam (or hot water that has been converted to steam) from deep inside the earth. The word geothermal comes from the Greek words geo for earth, and therme for heat. So geothermal means “earth heat.”
Our planet’s interior is very hot – at its core, 4,000 miles deep, temperatures may reach over 9,000°F. This heat is continuously conducted from the earth’s core to the surrounding layer of rock, the mantle.
There are some places around the earth where magma (hot molten earth from the mantle) pushes up through cracks into the crust near the earth’s surface. Magma can heat nearby rock and water as hot as 700°F. Some of this hot water reaches the earth’s surface as hot springs or geysers, and some stays trapped deep underground in cracks and porous rocks. This hot water can be used directly or converted into steam to turn turbines that generate electricity at geothermal power plants.
Wind power is one of the world’s fastest-growing sources of renewable energy. It uses the force of the wind to spin turbines. These spinning turbines generate electricity. Most wind power is produced at wind farms, which are large groups of turbines in consistently windy locations. A very large wind farm can generate enough electricity for all the homes in a city of about one million people.
Small wind turbines can be used for individual homes, businesses and boats. They can be used to pump water, or the electricity can be stored in large batteries for use at another time.
Biomass is organic matter, such as agricultural and animal waste, that is collected to create energy in the form of electricity, heat, steam and fuels. Biomass can be burned in an incinerator to heat water to make steam, which turns a turbine to make electricity. It can also be converted into a liquid or gas, which can be burned to do the same thing.
Biomass includes energy crops like wood, grains, kelp and beets grown primarily for use as a fuel. Energy crops are renewable, but some, like trees, take a long time to grow. For example, farmers can grow trees on some of their land instead of wheat or other kinds of food. The wood is harvested regularly, cut into small chips and burned to provide heat or run small electric power plants.
Another type of biomass is methane gas, a by-product of decay in landfills. As garbage rots in the ground, it gives off gases that can be collected and burned to produce heat. These gases can also be burned to heat water into steam, which can be used to turn a turbine and generate electricity.