Solar Panels are an Earth-Friendly Power Solution
June 22, 2017
Solar panels are a groundbreaking new method to harness energy from the sun, rather than relying on limited resources such as fossil fuels.
As we progress into an era in which our conventional source of energy for the past decades and centuries has begun to dry up, everyone from huge companies to individuals who just want to keep the lights on is looking into new forms of energy to solve the future energy crisis. Luckily, one solution hangs large and bright right before our very eyes. We’re talking, of course, about the potential for energy that can be harnessed from our sun.
Solar panels have become increasingly common in the past few years, and as they have gained acceptance in more mainstream industries, they have been hailed as an incredibly earth-friendly solution to our modern-day energy crisis. Though everyone has undoubtedly heard at least a little bit about these solutions, the average person is unaware of the precise mechanisms of how they work. We’ll explain the function of solar Adelaide panels, then move on to the myriad of exciting, innovative benefits that they can confer to individuals and businesses alike and, ultimately, to the entire planet.
To begin with the more technical side of things: solar panels are also known as photovoltaic modules or photovoltaic panels. The name derives from the fact that these are composed of an interconnected network of solar cells, are also known as photovoltaic cells. The sun emits a form of energy in photons; these cells work to capture the energy of photons through a process called the photovoltaic effect. While the exact process is much more complex, in simple terms, the photovoltaic effect allows solar energy to be converted to electrical energy of the kind that can be harnessed for everyday use. This is the most fundamental and yet an essential process that defines the importance of this new solution.
Each photovoltaic cell, however, does not produce much of an effect on its own. Many, many cells are linked together to create one solar panel. Even in this formation, however, each panel is only capable of producing a relatively limited amount of energy. That is why well-designed systems combine several different solar Adelaide panels to collect the most amount of energy from the sun possible. These multi-panel structures are known as a photovoltaic array. In its final stage, a completed photovoltaic installation includes not only cells and panels but also wiring, batteries, and an inverter. Because they must be exposed to the sun to function, these arrays are often vulnerable to natural dangers such as moisture, which can destroy wiring and interfere with transmission, or other inclement weather conditions such as hail or sleet. Designers of these photovoltaic arrays are careful to maximise energy efficiency and sturdiness. Completed modules might be either flexible or extremely rigid and durable.