Green Energy” Is the Way To Go, But How Do Solar Panels Work?

If we are serious about decreasing environmental pollution, then solar energy should be a part of the equation it isn’t a part of the problem, so it must be part of the solution. It’s recognized as an “alternative energy source”, as it isn’t widely used as a main source of power for very many people. It’s expensive to produce solar panels, and in today’s world, calculators and lawn decor are two of the most popular solar powered gadgets used by the mainstream. So, the burning question that could maybe help solve our planet’s current dilemma is, how do solar panels work? How does a panel harness the sun’s energy and turn it into electricity?

Solar panels are made from special materials that absorb the sun’s rays and turn them into electricity that can power all sorts of electronic devices. Devices that we use electricity for everyday without thinking twice about could be powered by solar panels.

A budding technology used today for solar panels is photovoltaic (PV) electricity. It involves the use of specific materials that convert solar energy into electricity. The electricity can be used right away or it can be stored using DC batteries. Either way, we’ve got power!

These special materials for solar panels have just recently been developed. They release electrons when influenced by the sun’s energy. This creates the flow of voltage and the flow of electricity. A simpler, more descriptive name for a photovoltaic panel is a “direct energy conversion device”. This makes perfect sense since all these effects take place on an atomic level without any moving parts.

It used to be that only space age technology, like satellites and space stations, used photovoltaic panels. They were reliable for their continuous solar energy conversion, and once in outer space, the sun’s radiation is at least 50% stronger than it is on our planet.

Those living far from an electrical grid, more than a mile, are more likely to use photovoltaic technology, especially in residential homes. Power transmission cables cost way more to install than a photovoltaic power array would. If you’re a notable distance from an electrical grid, then it may be a good idea to consider solar energy for your power source.

But the question hasn’t been fully answered yet”how do solar panels work?”, and to better understand this we should know what solar energy is. Solar energy is made up of two kinds of radiation. The first and the best kind for solar panels to function is called “beam radiation”. Imagine you are laying on the beach in the middle of June on a bright sunny day. Feel the sun’s rays beating down on your skin. The energy you feel on your skin is “beam radiation”. A clear blue sky is a good day at work for a solar panel, but that solar panel needs to be properly placed in order to absorb the most direct sun rays as it can to achieve optimal results.

The second kind of radiation is called “diffuse radiation”. This radiation isn’t the most desirable for solar panels because, as its name suggests, its radiation is diffused, scattered in a multitude of directions. It’s the primary radiation source on an overcast day, or if you’re relaxing under a shade tree. It isn’t very powerful and to rely solely on diffuse radiation would be impractical to say the least.

Needless to say, a bright sunny location is the most desirable place to mount a solar panel. Most of Western America is solid as far as good sun for solar energy goes. Northern climates and coastal states stand to face some difficulties since diffuse radiation is what they get most of the time.

Solar panels can be built to meet special needs. 12 volt, 24 volt and 48 volt DC systems are the most popular. 12 volt solar panels can survive for over 20 years and are about 12-14% efficient.

Today’s production of solar panels consists of using supremely pure silicone semi-conductor materials. This is primarily what makes the use of solar power so expensive. Luckily there are new materials in the making and they’re particularly geared toward lowering the cost of production, thus lowering the cost for the consumers. Cadmium Telluride based solar panels are an example of new solar energy technology, and if these materials are successful in the final outcome then the price of solar panels should greatly decrease, making our environment that much cleaner as more and more people convert to solar power.

Soon enough, solar energy won’t be considered “alternative” anymore. You want to consider certain things if you’re planning on converting to solar power before making a decision, but it’s a step in the right direction for the environment. The benefits outweigh the cost when it comes to our planet’s health. Energy independence has become a common goal for many, and if you want to use solar as just a back up plan, then the choice is practically already made for you. The planet will benefit immensely once solar energy is accessible to everyone.

For a free report on how solar panels work get more information here.