PV panels can be installed on rooftops, in fields, on the facade walls of buildings and other places. PV systems run on light and generate electricity from sunlight throughout the day. PV plants bring many advantages. First, PV plants are a clean source of energy and do not pollute the environment. PV plants provide energy during power outages.
PV systems consist of several main components. These are solar panels, inverter, battery and other electrical components. Solar panels are devices that convert sunlight into electrical energy. The inverter converts the DC electricity from the PV panels into AC electricity. The battery is the device that stores solar energy and provides electrical energy when needed. Other electrical components consist of cables, fuses and other fittings.
PV systems are expensive in terms of investment costs, but they save money in the long run. The investment cost of PV systems depends on factors such as solar panel capacity, inverter, battery and other accessories.
The construction and operation of solar power plants is a laborious process. Conducting aerial solar power plant inspections can help build and manage them more effectively.
PV Inspection with Thermal Drone
Thermal drone technology is a very useful tool for aerial PV inspection. With this technology, solar power plants can be inspected quickly and precisely. Thermal drones can heat map the plants, detect damaged or malfunctioning panels and identify other potential problems.
When thermal drones are used for aerial inspection of solar power plants, they offer several advantages. First of all, thermal drones have access to every part of the power plants. Thus, they can easily inspect every panel and component of the plant. Second, thermal drones allow for a faster and more efficient inspection of power plants. Thus, they provide advantages in terms of time and cost.
Aerial solar power plant inspection is not only important from an operational point of view, but also from an environmental point of view. Weather has an impact on the production quality and performance of solar power plants. Thermal drone technology helps to better manage power plants and increase solar energy production.
PV Inspection with Aerial Thermography
Airborne thermography is used to detect thermal sources in PV systems by analyzing thermal images obtained from the air. It is an effective method to detect problems such as overheating, electrical faults, cracks and contamination on the devices.
PV inspection is an inspection to check the condition of the components of PV panels. During the inspection, solar panels, cable connections, inverters and other components are reviewed. With the procedures, the efficiency of the power plant is increased and possible failures are prevented.
PV inspection with aerial thermography provides many benefits to system owners. This technique helps early detection of faults in the PV system and saves time and money for system owners.
Examining PV Plant Data with MapperX
PV plant data obtained by aerial thermography is analyzed using MapperX software. The software detects errors, malfunctions and anomalies and provides reports to business managers and ensures that necessary interventions are made. Accurate detection of errors thanks to MapperX is very important to increase efficiency in solar power plants.
For example, the low capacity of solar panels can be detected by artificial intelligence algorithms. MapperX tracks environmental factors that affect the efficiency of the panels.
The large amount of data can make it difficult for humans to analyze it. MapperX can detect this data by analyzing it automatically.
MapperX reduces operational risks in solar power plants. Errors caused by human factors can have serious consequences in solar power plants. Thanks to artificial intelligence technologies, errors caused by human factors can be reduced and the safety of power plants can be increased. Visit the website to learn more about “History of Solar Energy“