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Intro to Solar Energy.

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Presentation on theme: "Intro to Solar Energy."— Presentation transcript:

1 Intro to Solar Energy

2

3

4 Important concepts Silicon happens to be a very shiny material, which can send photons bouncing away before they've done their job, so an ​antireflective coating​ is applied to reduce those losses. The final step is to install something that will protect the cell from the elements -- often a glass cover plate.

5 Important concepts Photovoltaic cells ( hint photo= light voltaic = electricity) Solar Panels

6 Chemistry of A Solar Cell

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8 Important concepts Si Semi conductor (silicon)
wants electrons to complete its outermost shell Si

9 Energy cannot be created or destroyed only transferred
Phosphorus Phosphorus + Silicon (N-Type Silicon) 8 9 P 7 P+Si 6

10 P Type Silicon Boron Silicon + Boron 7 Si + B B 6 5

11 Extra Electrons Free Spots P Type N Type
Diode- an electric field that allows the transfer of electrons from P to N side P Type N Type Extra Electrons Barrier due to Traffic Free Spots

12 Photons When light, in the form of ​photons​, hits our solar cell, its energy breaks apart electron-hole pairs. Each photon with enough energy will normally free exactly one electron, resulting in a free hole as well. If this happens close enough to the electric field, or if free electron and free hole happen to wander into its range of influence, the field will send the electron to the N side and the hole to the P side. This causes further disruption of electrical neutrality, and if we provide an external current path, electrons will flow through the path to the P side to unite with holes that the electric field sent there, doing work for us along the way. The electron flow provides the current, and the cell's electric field causes a voltage. With both current and voltage, we have power, which is the product of the two.

13 Renewable Energy

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15 Important Concepts This flow of electrons is a ​current​, and by placing metal contacts on the top and bottom of the PV cell, we can draw that current off for external use, say, to power a calculator. This current​, together with the cell's ​voltage​ (which is a result of its built-in electric field or fields), defines the power​ (or ​wattage​) that the solar cell can produce.

16 SHS Solar Site

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