Traditionally, the sun has provided energy for practically all living creatures on earth, through the process of photosynthesis, in which plants absorb solar radiation and convert it into stored energy for growth and development. Scientists and engineers today seek to utilize solar radiation directly by converting it into useful heat or electricity.
Two main types of solar energy systems are in use today: photovoltaics, and thermal systems. There is a great deal of opportunity for using these systems in the state of Pennsylvania, and ongoing work at Penn State is seeking to improve the available technology and increase the utilization of solar energy systems in the keystone state.
Photovoltaic systems convert solar radiation to electricity via a variety of methods. The most common approach is to use silicon panels, which generate an electrical current when light shines upon it. Penn State University is involved in several projects to demonstrate and encourage the use of solar energy at appropriate locations within Pennsylvania. Solar photovoltaics are especially valuable for remote rural applications where it would be prohibitively expensive to supply electricity from a utility line.
Solar Thermal Systems
Solar Thermal Systems seek to store heat from the sun that can be used for a variety of purposes. Many different approaches can be employed here, including active systems, such as solar hot water heaters, and passive systems, in which careful engineering design results in a building that automatically stores and utilizes solar energy. Greenhouses are a prime candidate for passive solar design, in which they collect solar energy on sunny days in winter and utilize it to keep the house warm at night
Solar power is the technology of obtaining usable energy from the light of the sun. Solar energy has come into use where other power supplies are absent, such as in places off from the national electrical grid and in space. Solar energy is currently used in a number of applications: