Electricity from the moon | Electricity | solar panel

Electricity from the moon
Electricity from the moon.

Can we generate electricity from the moon?

Solar panels rely on raw sunlight to generate electricity, and raw sunlight contains many different particles. The most important particle for solar energy is photons. When photons from the sun come in front of the solar panel, the electrons inside the panel generate charge and usable energy. When the sun sets, electrons are no longer exposed to sunlight and therefore will not be charged for generating electricity.

The moon does not produce its own light like the sun and the reason why the moon is bright is because the sunlight reflects the surface area of the moon, thus the moon is created to shine. The moon does not produce any photons, nor does its own light unfortunately be able to charge the solar panel.

If you put a solar panel on the moon, it will generate electricity from sunlight, but only on the earth at night, because the sun illuminates the moon when the sun sets. So in theory, the only way for solar panels to generate electricity at night is to stay on the moon!

However, this is not all. So we've established that the moon can't charge solar panels, but what about its light? All right, stars. Just as the sun has solar energy, the stars have stellar energy. Stellar energy is the internal energy propagated by a star. If a substance that is sensitive to stellar energy (as well as solar sensitive silicon) is used to make 'stellar panels', we can use solar cells to generate energy from starlight. Can combine substances. . Unfortunately, this has just been put into practice, but it is not possible to say who is not.

What do solar panels do at night?

The sun is an important source in which solar panels effectively convert sunlight into electricity. But why can't solar panels happily generate electricity at night? corruption! Solar panels are designed and manufactured to work with the sun. Very few experts say that Chandnet 34V: 1 can be used to power PV cells at a cost. That is, a panel that normally produces 3450 W in the afternoon produced only 10 W of electricity during the full moon. A quarter of the moon (50% light) will similarly produce only 5W. Collecting moonlight using reflective or reflective techniques will increase the watts. A long as the wavelength of light is 400 to 1128 anime, the PV cell will convert it into electricity. Some say that in the near future we will have a technology called "Lunar Panel". Existing solar panels require 1.1 eV (equivalent to a silicon band difference) to form an electron hole pair that cannot provide moonlight due to low intensity (low energy).

If in the future, we would be able to replace silicon with a substance whose band difference is equal to the energy supplied by the moon, then Will enable Currently in use, since solar panels can only generate electricity during the day, the question arises, "How will solar panels provide electricity overnight when there is no sunlight?" Two solutions to this problem. Net metering and solar pulse storage technology allow your solar panel system to access electricity overnight when solar panel output is inactive, whether connected to a power grid or to a battery. Thanks to grid connections and solar storage, solar panels are a 24-hour energy solution. To move beyond the dreams of our solar panel working at night, we need to make it a reality. Understand the possibilities and practical skills behind it.

The search for night and its light.

The moon is only sunlight that reflects the moon. Of course it's less than about 1/350. But it is still something. If you are focusing on solar energy without dealing with cold or high energy densities, detecting the accumulated moon is a great way to test your system. Once you test your system in the moonlight, you will once again make sure that you are doing some cooling and tracking and lighting the moonlight and performing well that you can see from the camera. Can track and not melt like that. I spent two years developing a solar-powered photovoltaic system in focused sunlight. Dealing with 1000 sunlight can be scary. The process of dealing with 1000x centered moonnet is equivalent to dealing with 3x sunlight. Leo Baldwin notes, right now a little powerful but not as dangerous as 1000x sunlight. Honors Applied Physics, University of Waterloo. Faculty of Science.

Many people say that if solar panels can work at night, the first two factors to understand are:

  • How much energy is required for this particular solar panel (photovoltaic cell) to run or strike electrons and compensate for storage. There are many types of solar panels depending on their material. Still, researchers use ultraviolet and infrared wavelengths to get the charge. So we need to know the range and power of the wavelength emitted in each electromagnetic color range.
  • What is the wavelength limit of this particular source? In this case, it's the moon.

We will write this article in full soon.

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