The time of year can make a huge difference in the amount of energy you can generate with a solar panel. The summer months are best for solar energy because the sun is directly overhead. In winter, however, the sun is less direct and the rays are less intense. This means that solar panels produce more power during the summer than they do during the winter. The following are four factors that will affect the amount of energy you can generate with solar panels. If your panels are not working properly, you should consult with reliable solar energy companies.
Climate
The Earth’s tilt and orbit around the Sun both influence the amount of solar energy we receive on Earth. Over thousands of years, these changes cause large climate changes. Big volcanic eruptions can change the climate by reducing the amount of solar energy we receive. The researchers examine climate changes and solar energy reliability. Their findings will help solar energy developers understand how to make the most of the sun’s energy.
The tilt of solar panels
The tilt angle of a solar panel has several important effects. The highest amount of energy can be generated by an optimally tilted panel. A higher tilt angle limits the accumulation of snow, ice, and soiling on the solar panels. A higher tilt angle limits the deterioration of the solar panel’s surface over time, thereby increasing its ability to convert energy.
Seasonality
The season plays an important role in the amount of energy you can generate from solar panels. This is because, during summer, the sun sits higher in the sky and is more directly overhead, resulting in more direct sunlight hitting your solar panels. The shorter days during the winter months mean fewer hours of sunlight, and this decreases the amount of energy your solar system can produce. Therefore, you may earn net metering credits based on the amount of sun you receive in a day.
Infrared and UV energy
The sun’s total radiation output is virtually constant over time. Variations are restricted to the UV and extreme ultraviolet ends of the solar spectrum, and contribute very little energy to the overall total. The earth revolves around the sun in an elliptical orbit, completing one revolution a year. Because the sun emits so much energy, the distribution of its intensity across wavelengths can be very important for human survival.