Technological Advances in Solar Energy Panels
Solar energy panels are gaining importance as one of the sustainable energy sources. Today, technological advances in solar energy panels increase their efficiency and reduce their costs.
1- Monocrystalline, Polycrystalline and Film Panels
Solar panels are produced in three different types: monocrystalline, polycrystalline and film panels. Monocrystalline panels are the type of panel with the highest efficiency. Polycrystalline panels are used more because they are cheaper than monocrystalline panels. Although film panels are cheaper than the other two types, their efficiency is lower.
2- Thin Film Technology
Thin film technology is a new technology used in solar panels. Thanks to this technology, it is possible to produce thinner and lighter panels, while efficiency can also be increased. Thin-film panels are especially preferred in hot regions as they have high temperature performance.
3- High Efficiency Panels
High efficiency panels are panels that provide higher energy production with less surface area. They are ideal for use in particularly tight spaces. High efficiency panels are more expensive than monocrystalline panels, but they produce more energy than lower cost panels.
4- Double Sided Panels
Double-sided panels are panels that can collect solar energy on both sides. The panels have double-sided glass or plastic surfaces and produce more energy by reflecting sunlight from both sides.
5- Microinverters
Microinverters are a technology that converts the energy from each panel from DC to AC. The performance of each panel can be monitored independently and maintenance becomes easier
6- Higher Efficiency
The efficiency of solar panels is constantly increasing thanks to technological advances. Especially high efficiency panel technologies enable solar energy systems to generate higher power. This means higher energy production with less panel usage.
7- Flexible Panels
Flexible panels are thinner and lighter than conventional panels. They are more cost-effective as they can be produced using a smaller amount of material. Flexible panels can be mounted on a variety of surfaces and thus have various application areas.
8- More Durable Panels
Technological advances make solar panels more durable. This ensures that the panels last longer and require less maintenance. More durable panels are better able to withstand adverse weather conditions and thus work efficiently for longer.
9- Advanced Monitoring Systems
The performance of solar panels can be affected by the angle of sunlight. Advanced monitoring systems can automatically adjust the position of the panels to achieve higher energy efficiency, ensuring maximum exposure of the panels to the sun.
10- Storage Technologies
Since solar energy is dependent on sunlight, energy production stops when the sun goes down. Storage technologies allow excess energy to be stored and used when needed. Solar energy systems become more reliable and their areas of use expand.
Thanks to technological advances, solar panels are becoming more efficient, more durable, cheaper and have more diverse application areas.
MapperX in Solar Panel Inspection
Solar panel inspections are important to improve panel efficiency and reduce maintenance costs. MapperX collects, analyzes and reports data on PV plants with aerial thermography.
What is MapperX Software?
MapperX is a software that collects, analyzes and reports aerial thermography data. It is used to assess the thermal condition of solar panels. The software is designed to increase energy efficiency and reduce maintenance costs.
What is the Importance of MapperX Software in Solar Panel Inspections?
MapperX software is important in solar panel inspections in many ways. The software detects problems in the panels through aerial thermography and recommends action plans to solve these problems. MapperX software allows you to quickly identify problems and thus minimize costs.
How is MapperX Software Used in Solar Panel Inspections?
MapperX software assesses the thermal condition of solar panels through aerial thermography. MapperX software is used in solar panel inspections with the following steps:
– Create a suitable flight plan.
– Take aerial thermal images.
– Transfer the acquired data to the MapperX software.
– The software analyzes and reports the aerial thermography data.
– Based on the analysis results, problem areas are identified.
Visit the website to learn more about “Thermographic Inspection of Solar Power Plants”