There are several easy ways to improve the performance of solar panels. They include improving the airflow underneath your solar panels and installing Hexagonal lenses. Your solar panels can’t work properly if these measures aren’t done. Then, there’s the issue of shadows. In such a case, your whole solar system’s output will be affected. To prevent this from happening, follow these easy ways recommended by solar energy companies to improve the performance of solar panels.
Airflow beneath solar panels:
The performance of BIPVs is based on their thermal and total efficiency. However, natural cooling improves the performance of the PV cells. It increases their efficiency by about 1%, but its effect is negligible. In the case of PV modules that use converging channels, the airflow beneath the panels improves their thermal performance. Adding an airflow beneath solar panels improves their performance.
Surple:
Solar panels’ efficiency depends on many factors, including irradiance, temperature, and cell type. The higher the temperature, the less energy the panels will generate. You can increase the efficiency of your solar panels by keeping them oriented towards the path of the sun and avoiding shadows when possible. A black sheet will also absorb more heat and reduce the overall conversion efficiency of the panels.
Hexagonal lenses:
Hexagonal lenses are embedded in the protective glass of solar panels, which increases their efficiency by concentrating light. The famous solar energy company says its solution is better than existing concentration modules, which are large-scale constructions of mirrors and lenses with electric drives. They claim that its solution can achieve 30 percent efficiency for sun-to-electricity conversion. Current modules achieve an average efficiency of 18 percent.
Silicon:
The optimal finger size for silicon PV cells is 60 um. Silicon improves solar panels’ performance by increasing solar cells’ efficiency. Silicon wafers must be made with a metallization layer on both the front and rear surfaces to transport collected current to an external load. Silicon wafers are typically made of high-quality silicone, preferably monocrystalline silicon. Silicon wafers are widely used in solar panels because they are highly efficient and compatible with semiconductor industry manufacturing technologies.
Standard industrial silicon cells have higher efficiencies than other mass-produced single-junction devices. They also have a longer lifetime, reaching 25 years or more. In addition, crystalline silicon cells have minimal long-term degradation. Silicon is the second most abundant element in the Earth’s crust. Silicon improves the performance of solar panels. The use of solar panels for energy generation has become a common sight, but how does silicon improve the performance of solar panels?