How Does Solar Paneling Affect Climate?
Research from the association of Solar Energy Industries indicates that solar energy supply is surplus among all clean energies worldwide. Researchers also agree that if institutions decide to tap the minimum attainable solar power reaching the earth, it would sufficiently suffice the whole world.
With this information, why not then install numerous solar panels to ensure a constant supply of electricity? Probably not a great idea, here is why.
With massive solar installations, come extensive solar radiation. Radiations from the solar paneling are distributed differently from the natural way leading to a shift in radiation balance. The result is a significant change in atmospheric circulation. Another research shows that solar panels tend to cause regional cooling once they convert solar energy into electricity, increasing temperature levels when the power turns into heat.
Also, during the production of solar panels, chemicals such as hydrofluoric acid are used. The chemicals are responsible for emitting greenhouse gases into the environment, which, over time, becomes an environmental hazard.
Solar Panels and Snow
“Solar panels will help slow-melting ice” How true is this statement?
During the winter season, chances of solar panels covered in snow are high. This occurrence usually leads to their batteries cracking up. To remedy this situation, they can be kept clean by use of a specialized rake to clear the snow. Though this can be a dangerous process if the roof to be cleaned is on the house over two stories high. The procedure of staging a ladder is also risky because it can slip and fall over. But if it necessitates using a ladder, make sure that its footing is firm and firmly tied at the top roof.
Another idea is to pass on either hot indoor air or water through the interior parts of the panels. In this way, it can warm and unfreeze the ice and frost on its exterior part. However, solar panels with vacuum-like conditions will be hard to warm since the interior circulated heat cannot warm the outer part of the tube.
The angle at which the solar paneling is positioned also plays an essential role in ensuring that the ice is melting faster. Steeply placing the solar panels will naturally lead to the ice falling. However, angle panel positioning is set on other conditions, such as the direction of the sun’s rays. During the summer, the solar panels are positioned in a slight angle because the sun’s location is high above the sky.
More ideas on how Solar panels will help slow-melting ice
It is mounting a steeply angled absorber at the bottom of the panel. Here, a solar warming system is positioned steeply at the bottom of the panel, thus, making the snow slide off. And its contact with the solar panel will transfer heat that will make snow start melting from the panel’s surface.
Tie a relative blunt object with some lightweight on one end of a cable and toss it up to the roof where the panels are located. The weight of the object should be enough to pass through the snow on the panels. Once on top of the roof, pull it back with the intention of bringing down snow. Do it several times until the panels are somehow exposed. Then let the sun do its work. That is heating the panels and gradually unfreezing the snow for more panel exposure.
Solar energy is the driving force behind the majority of cellular functions worldwide. Water bodies and land depend on it since it is in charge of plant development, that is the primary source of an extensive food chain. It is responsible for raising the temperature of atmospheric air and determining the type of weather within a location at a given time.
Benefits of Solar Energy
Institutions and homeowners, especially in the United States, have seen an increased preference for using solar energy over recent years. Partly due to its availability and the cheap cost of solar panels. Another reason is the need by the majority of US residents to protect their environments and reduce their overreliance on fossil fuels.
Here are some of its benefits:
- It is an immaculate and renewable source of power.
- It is responsible for the less release of detrimental greenhouse matter to the atmosphere, such as C02 gas.
- Cheap and readily available as compared to the extraction of fossil fuels. You can save money instead of using it to pay electricity bills.
- It ensures a reduction of carbon footprint due to less pollution of the environment.
- It leads to fewer respiratory infections on humans and other living organisms because of its safe nature.
Solar Energy and Climate
The orbital relationship between the sun and planet earth is responsible for the changes at which solar power reaches different geographical locations worldwide. Research proposes that fluctuating solar radiations can affect climate either by transforming the rate at which the sun heats the atmosphere and the price of the formation of clouds.
Different seasons and different day times determine the strength at which solar rays hit the ground. Other human causes, such as aerosol particle emissions, also determine the strength of solar energy on earth. With countries that emit more aerosols, their surface warmth is lower because aerosol limits the amount of penetrable sunlight.
How Does Solar Energy Affect Climate?
Research done by environmental scientists indicates that solar energy noticeably changes climatic conditions but over a long period, probably several years. However, it is not the right course for the present-day global warming experienced worldwide. So, how does solar energy affect climate? Here are two hypotheses that try to explain the phenomena.
Ultra Violet Rays (UV), and Ozone Layer
This hypothesis puts its argument on an 11-year pattern. There is a shorter and lengthy cycle whereby the prolonged period has extensive solar energy changes at UV (more concise) wavelengths. This short wavelength is responsible for adjusting ozone concentrations at an atmospheric location where weather forms. These ozone layer changes may filter down to weather creating layers and, therefore, modify temperature changes and cloud development.
The Development of Clouds and Cosmic Rays
This second hypothesis puts its emphasis on solar activity changes. Any change in solar activity leads to a change in the flow of cosmic rays. Cosmic rays are small and energetic particles whose responsibility is to sail across the atmosphere to the earth. They then create charged atoms that are responsible for cloud modification. The result is a massive change in temperatures below. However, such changes are not strong enough to affect climate significantly.
These two hypotheses do not have convincing evidence to demonstrate changes in climatic conditions. The cloud variations and atmospheric temperature brought about by these hypotheses appear to be too minute to influence any significant climate change.