2. First⌠A Brief Introduction
About The Sun
Generates itâs energy through nuclear fusion
Needed to make the earth function:
-Photosynthesis for plants
-Provides solar energy
-Evaporation > Rain
-MUCH MORE
6. The Atmosphere
Solar radiation first hits the
atmosphere in this layer and ionizes
air molecules. A region of ionized
particles in the thermosphere is called
the ionosphere. Auroras, which are
interactions of charged solar particles
and the ionosphere, can be seen in
this layer of the atmosphere.
Temperature is up due to ionization of
air molecules by solar radiation. Air is
extremely thin.
7. Auroras in the
Thermosphere
An aurora is an interaction of the
ionosphere and charged solar
particles within the thermosphere.
9. The Atmosphere
Troposphere (where we are) has high
temperatures due to molecules
absorbing the Sunâs energy.
10. We can tell the Sunâs
The Sunâs Energy energy is presentâŚ
The radiation/energy off of the sun
heats up pavement, causing you to
see âheat wavesâ. âHeat wavesâ
look like water almost, causing
mirages in the desert. For example,
if you saw that watery look ahead in
the desert, you would think there is
water ahead, when it is really only
hot sand
11. The Sunâs Energy
We can tell the Sunâs
Radiation/energy from energy is presentâŚ
the sun can also heat
swimming pools.
12. What is Solar Energy?
⢠Originates with the
thermonuclear
fusion reactions
occurring in the
sun.
⢠Represents the
entire
electromagnetic
radiation (visible
light, infrared,
ultraviolet, x-rays,
and radio waves).
13. How much solar energy?
The surface receives about 47% of the total solar
energy that reaches the Earth. Only this amount
is usable.
14. The Sunâs energy is out there, but
how can we convert it into electrical
power?
What is the missing link to take the sunâs energy
and convert it into electrical energy?
??????????????????????????????????
16. How Solar Panels Work
The basic element
of solar panels
is the same
element that
helped create
the computer
revolution --
pure silicon.
17. Direct Conversion into Electricity
⢠Photovoltaic cells are
capable of directly
converting sunlight into
electricity.
⢠A simple wafer of silicon
with wires attached to the
layers. Current is produced
based on types of silicon (n-
and p-types) used for the
layers. Each cell=0.5 volts.
⢠Battery needed as storage
⢠No moving partsď do no
wear out, but because they
are exposed to the weather,
their lifespan is about 20
years.
18. How Solar Panels Work
When silicon is stripped of all impurities, it makes a ideal
neutral platform for the transmission of electrons. Silicon
also has some atomic-level properties which make it
even more attractive for the creation of solar panels.
Silicon atoms have room for eight electrons in their outer
bands, but only carry four in their natural state. This
means there is room for four more electrons.
19. How Solar Panels Work
If one silicon atom contacts another silicon atom, each
receives the other atom's four electrons. This creates a
strong bond, but there is no positive or negative charge
because the eight electrons satisfy the atoms' needs.
Silicon atoms can combine for years to result in a large
piece of pure silicon. This material is used to form the
plates of solar panels.
20. How Solar Panels Work
Here's where science enters the picture. Two plates of pure silicon
would not generate electricity in solar panels, because they have no
positive or negative charge. Solar panels are created by combining
silicon with other elements that do have positive or negative
charges. Phosphorus, for example, has five electrons to offer to
other atoms. If silicon and phosphorus are combined chemically, the
result is a stable eight electrons with an additional free electron
along for the ride. It can't leave, because it is bonded to the other
phosphorus atoms, but it isn't needed by the silicon. Therefore, this
new silicon/phosphorus plate is considered to be negatively
charged.
21. How Solar Panels Work
In order for electricity to flow, a positive charge must also
be created. This is achieved in solar panels by
combining silicon with an element such as boron, which
only has three electrons to offer. A silicon/boron plate
still has one spot left for another electron. This means
the plate has a positive charge. The two plates are
sandwiched together in solar panels, with conductive
wires running between them.
22. How Solar Panels Work
With the two plates in place, it's now time to bring in the
'solar' aspect of solar panels. Natural sunlight sends out
many different particles of energy, but the one we're
most interested in is called a photon. A photon
essentially acts like a moving hammer. When the
negative plates of solar cells are pointed at a proper
angle to the sun, photons bombard the
silicon/phosphorus atoms.
23. How Solar Panels Work
Eventually, the 9th electron, which wants to
be free anyway, is knocked off the outer
ring. This electron doesn't remain free for
long, since the positive silicon/boron plate
draws it into the open spot on its own
outer band.
24. How Solar Panels Work
As the sun's photons break off more
electrons, electricity is generated.
25. Solar Power Plants
Solar Power Plants have massive
amounts of solar panels to power
their city. Rizhao City, in China is
converting to solar energy. There
is construction going on to build a
solar power plant in Nevada, that
will meet the needs of about
40,000 households with solar
energy.
26. Sun goes down, Lights go out???
Many people think that when the sun goes down,
or we have a cloudy day, no energy would be
produced, leaving us in the dark. That theory is
not true. In fact, even with clouds, some rays
from the sun still get through, just not as many
on a clear day. Also, when the solar panels
collect energy during the day, not all of it is used.
What isnât used is stored in giant batteries at the
plant so there is always a reserve. However, it
would be quite a test in Alaska, because the
reserve may not hold out for three months!
27. Batteries to hold Solar Power
These batteries are small batteries to hold
solar power
28. Batteries to hold Solar Power
These are heavy-duty batteries that could be used at a solar power
plant to hold some of the reserve power.
29. Could your house âgo greenâ?
Yes, it is possible. Houses have already gone to solar power. They put
solar panels on their roof to collect sunlight and have batteries in
their basement to store the reserve power. Some have even put up
solar panels in their yards.
31. Disney World & The Environment
Disney World in
Orlando
Florida has
gone green.
They provide
their own
power, they
treat their own
sewage... All in
all, theyâre self
sufficient.
32. Want to try some Solar Power?
You do not need tens of thousands of solar panels just to
power something. You can power small electronics with
a small solar panel you can use!
10 Watt - http://www.ccrane.com/more-categories/alternative-power/10-watt-solar-
panel.aspx
2.5 Watt - http://www.ccrane.com/more-categories/alternative-power/2-watt-solar-
panel.aspx
33. Want to try some Solar Power?
Solar Powered
Just âGoogleâ Solar Lights!!!
Lights