Energy Transformation Of Solar Panels On A Space Satellite

Sspidr would use solar power panels.

Energy transformation of solar panels on a space satellite.

Batteries are used to store the energy so that the satellite can continue to work when the sun is eclipsed or far away for example during a mission to visit a comet or a distant planet. The solar panels absorb energy from the sun and the batteries store the energy for use by the satellite. Self assembling satellites are launched into space along with reflectors and a microwave or laser power transmitter. Satellites are usually fitted with a re chargeable battery and solar panels.

In a silicon solar cell light energy a photon of energy 1 1ev is absorbed in silicon and the energy absorbed excites an electron hole pair so charge particles are formed. If there is an. For the sake of example if you are getting 5 hours of direct sunlight per day in a sunny state like california you can calculate your solar panel output this way. These panels convert solar power into either a microwave or a laser and beam uninterrupted power down to earth.

The solar arrays attached to a typical satellite generating 1 6gw in space and an average of 1gw on earth would measure about 5 to 6 square kilometers and use a transmitting antenna array with a diameter of about 1 km. How much energy does a solar panel produce. The service is partnering with defense contractor northrop grumman on the space solar power incremental demonstration and research project or sspidr for short. Space based solar power attracted considerable attention in the 1970s as the necessary individual technical components in essence photovoltaic cells satellite technology and wireless power.

5 hours x 290 watts an example wattage of a premium solar panel 1 450 watts hours or roughly 1 5 kilowatt hours kwh. Depiction of a possible space solar power system. A space based solar power station would capture the sun s energy that never makes it to the planet and use laser beams to send the energy back to earth to meet energy demand needs. To make this possible a satellite has to produce its own power generating electricity from sunlight falling on photovoltaic cells or solar panels.

Reflectors or inflatable mirrors spread over a vast swath of space directing solar radiation onto solar panels.