How do solar panels work? – Richard Komp

How do solar panels work? – Richard Komp

The Earth intercepts a lot of solar power: 173 thousand terawatts. That’s ten thousand times more power
than the planet’s population uses. So is it possible that one day the world could be completely
reliant on solar energy? To answer that question, we first need to examine how solar panels
convert solar energy to electrical energy. Solar panels are made up of smaller units
called solar cells. The most common solar cells
are made from silicon, a semiconductor that is the second
most abundant element on Earth. In a solar cell, crystalline silicon is sandwiched
between conductive layers. Each silicon atom is connected
to its neighbors by four strong bonds, which keep the electrons in place
so no current can flow. Here’s the key: a silicon solar cell uses
two different layers of silicon. An n-type silicon has extra electrons, and p-type silicon has extra spaces
for electrons, called holes. Where the two types of silicon meet, electrons can wander across
the p/n junction, leaving a positive charge on one side and creating negative charge on the other. You can think of light
as the flow of tiny particles called photons, shooting out from the Sun. When one of these photons strikes
the silicon cell with enough energy, it can knock an electron from its bond,
leaving a hole. The negatively charged electron and
location of the positively charged hole are now free to move around. But because of the electric field
at the p/n junction, they’ll only go one way. The electron is drawn to the n-side, while the hole is drawn to the p-side. The mobile electrons are collected by
thin metal fingers at the top of the cell. From there, they flow through
an external circuit, doing electrical work, like powering a lightbulb, before returning through the conductive
aluminum sheet on the back. Each silicon cell only puts out
half a volt, but you can string them
together in modules to get more power. Twelve photovoltaic cells are enough
to charge a cellphone, while it takes many modules
to power an entire house. Electrons are the only moving parts
in a solar cell, and they all go back where they came from. There’s nothing to get worn out
or used up, so solar cells can last for decades. So what’s stopping us from being
completely reliant on solar power? There are political factors at play, not to mention businesses that lobby
to maintain the status quo. But for now, let’s focus on the physical
and logistical challenges, and the most obvious of those is that solar energy
is unevenly distributed across the planet. Some areas are sunnier than others. It’s also inconsistent. Less solar energy is available
on cloudy days or at night. So a total reliance would require efficient ways to get electricity
from sunny spots to cloudy ones, and effective storage of energy. The efficiency of the cell itself
is a challenge, too. If sunlight is reflected
instead of absorbed, or if dislodged electrons fall back into
a hole before going through the circuit, that photon’s energy is lost. The most efficient solar cell yet still only converts 46% of
the available sunlight to electricity, and most commercial systems are currently
15-20% efficient. In spite of these limitations, it actually would be possible to power the entire world
with today’s solar technology. We’d need the funding
to build the infrastructure and a good deal of space. Estimates range from tens
to hundreds of thousands of square miles, which seems like a lot, but the Sahara Desert alone is over
3 million square miles in area. Meanwhile, solar cells are getting
better, cheaper, and are competing
with electricity from the grid. And innovations, like floating solar farms,
may change the landscape entirely. Thought experiments aside, there’s the fact
that over a billion people don’t have access
to a reliable electric grid, especially in developing countries, many of which are sunny. So in places like that, solar energy is already much cheaper
and safer than available alternatives, like kerosene. For say, Finland or Seattle, though, effective solar energy
may still be a little way off.

16 thoughts on “How do solar panels work? – Richard Komp

  1. How to get infinite energy
    Step 1: put a solar panel under a light pole
    Step 2: connect the panel to the pole
    Step 3: turn on the pole
    Step 4 enjoy!

  2. there is push for solar in Australia and since Australia started with renewables our electricity cost have risen to become the third highest in the world due to have to have two electricity systems and as more solar panels are installed electricity suppliers are having problems with voltage consistency, also we are hearing hundreds of reports unreliability with the panels themselves lasting years and some even months.

  3. So in theory, couldn't we mount a bunch of magnifying glasses to a board and aim then at a few pipes of water so they get hot enough to make steam?

  4. I think that I have an idea how to store solar energy:
    We just make a generator that gets powered by a turbine that is powered by the solar panels

    So when the solar panel gets sunlight, it will power a generator that will hopefully produce somewhere around 100%+ of the panels power and making the power easier to store

  5. O wow, this is great content. I personally also was challenging high energy bills and looking for alternatives. What really helped me is the following program and this saves me a lot of money each month: @t

  6. Great video… very interesting, it sounds like humans need to come together and continue working on increasing the designs and structures of the the solar cells in ways to allow us to harness the suns energy more effectively.. like we’ve got all the right ideas now we just need to dig in a little more on our structure design?

  7. E=m[c]^2 This is the law of relativity of Einstein, According to this law, one gram of radioactive material radiates an energy equal to the amount of speed of light squared ( which is 3×10^8) in the mass of radioactive matter. This law applies to the sun, for that reason sun has not extinguished billions of years since the Earth was formed and even before it was formed. Can you imagine that energy!!!, I never forgot when I asked my teacher, "When will the sun's energy end?"He told me to take tea cups and throw them in the Indian Ocean , when the cups fill the ocean then the energy of the sun ends, I was impressed by this answer and began to care about our dear sun .

Leave a Reply

Your email address will not be published. Required fields are marked *