Drone thermal imaging is now widely used in a variety of extreme situations, including rescue, industry, construction and defense. Key applications of thermal imaging drones have brought new vitality to many industries. Here, we follow the autel evo 2 dual 640t to discover the role of drone thermal imaging in extreme conditions.
What is drone thermal imaging?
Thermal imaging is a technology that can record and analyze the thermal radiation emitted by an object. Drone thermal imaging is a technology that uses a thermal camera lens on a drone to enable it to capture the infrared radiation emitted by an object or environment and convert it into a visible image.
In extreme conditions, such as high or low temperatures, dense fog, heavy rain or smoke, its effectiveness can vary greatly. Thermal imaging cameras work by detecting infrared radiation and converting it into thermal images, which can detect temperature differences in the environment.
In difficult atmospheric conditions, the distance the drone flies, the quality of the drone thermal imager, the image resolution and the calibration of the device are crucial. autel evo 2 dual 640t is equipped with an 8K visible light camera and a 640*512 thermal imager, with a maximum flight time of 38 minutes, and can be used in complex terrain and extreme conditions.
Key applications of thermal imaging in extreme situations
autel evo 2 dual 640t has been upgraded from the original autel evo 2 dual 640t v2 to the current autel evo 2 dual 640t v3, with a 1/2-inch visible light camera upgraded to a 1/1.28-inch visible light camera, and an image transmission distance upgraded from 10KM to 15KM, which will have higher detection accuracy.
Currently, autel evo 2 dual 640t v3 supports 8K 1/1.28-inch visible light camera, RYYB color array design, 640*512@30fps resolution, 10 color thermal images, multiple temperature measurement methods, and advanced picture-in-picture mode. It can combine RGB images and thermal images to find heat change values. In thermal target recognition detection, the drone can accurately identify targets within a distance of 2-50 meters, regardless of day or night.
- Many industries are beginning to use thermal imaging drones to deal with extreme situations and improve mission efficiency. In the fire department, it can quickly locate the source of the fire and find people trapped in smoke-filled rooms.
- In search and rescue (SAR) operations, it helps find missing people in difficult terrain such as ruins or mountainous areas.
- In industry, it is used to monitor the condition of machines and equipment in extreme temperatures, helping to prevent failures.
- In environmental protection, thermal imaging can detect chemical leaks and monitor changes in ecosystems.
How is the EVO II Dual 640T thermal imaging drone applied?
Thermal imaging in firefighting systems: locating fires and injured people
The fire department is able to quickly detect fire sources and locate people trapped in burning buildings with the help of the thermal imaging drone EVO II Dual 640T. Based on the thermal radiation detection technology, hot spots that may indicate the danger of collapse are identified. The high image resolution and real-time working ability enable rescuers to make fast and accurate decisions.
Thermal imaging drones are also effective in wildfire rescue operations. The use of real-time aerial vision can quickly analyze the size of the fire, wind direction, fire point, and fire direction, helping rescuers identify the direction and effectively navigate in the dense smoke with limited visibility, reducing casualties. The thermal imaging drone Autel 640T helps to improve the efficiency of firefighting operations and improve the safety of rescuers.
Thermal imaging in search and rescue operations: searching for people in ruins and hard-to-reach places
In search and rescue (SAR) missions, thermal imaging is a key tool that can quickly find missing people in difficult terrain conditions. With infrared technology, heat sources can be detected even in complete darkness and dense vegetation.
Autel EVO2 Dual 640T can quickly search large areas with the help of a thermal imaging camera mounted on a drone and transmit images to the command center in real time. In the case of building disasters, thermal imaging helps to find victims trapped under the rubble, minimizing the time required for intervention. The effectiveness of this technology makes it an indispensable part of modern rescue operations.
The use of thermal imaging in mountain rescue: challenges and advantages
Mountain rescue needs to be carried out in extreme weather conditions, often with low temperatures and limited visibility. Even in extremely low ambient temperatures, thermal imaging drones can find missing tourists, which is essential for their survival.
Thermal imaging drones can search large areas, check key areas, and can also assess slope stability and detect avalanche threats. In many cases, the thermal imaging drone autel evo2 dual 640t can shorten search times and increase the chances of saving lives. The combined use of thermal imaging and drones greatly improves the efficiency of rescue operations in difficult mountainous terrain.
Thermal imaging in the energy sector: inspecting facilities and identifying heat leaks
In the energy sector, thermal imaging drones play a key role in the diagnosis of transmission networks, transformers and photovoltaic panels. With aerial thermal imaging, it is possible to detect where too much heat is being dissipated, allowing faulty connections or overheated components to be detected quickly.
The thermal imaging drone autel evo ii dual 640t is also used in wind power plants and nuclear power plants to monitor the temperature of key components. Regular thermal imaging inspections can significantly reduce the risk of failure and improve energy efficiency. In terms of building energy efficiency, this technology can identify heat losses and optimize insulation systems.
Building thermal imaging: heat loss identification and insulation control
In the construction sector, thermal imaging drones play an irreplaceable role in building energy efficiency analysis. They are able to accurately detect thermal bridges that can lead to heat losses and increased operating costs.
In addition, the thermal imaging autel 640t v3 can be used to locate leaks, making it possible to detect problems related to leaks in roofs or water and sewage facilities. Drone thermal imaging inspections are also useful when evaluating the quality of insulation works, quickly identifying any construction errors. By using this technology, the durability of buildings can be significantly improved and their energy efficiency can be increased.
Thermal imaging in adverse weather conditions
Atmospheric conditions have a significant impact on the effectiveness of thermal imaging systems. High humidity, heavy rain or fog can cause scattering and absorption of infrared radiation, which reduces the detection range.
Bad weather can have a significant impact on the thermal readings of drone thermal imaging. Changing ambient temperature conditions affect the propagation of infrared radiation and reduce the surface emissivity of the detected object.
Fog, rain and smoke pose the greatest challenges to thermal imaging technology. When performing infrared detection technology, the thermal readings must be verified and measured according to the actual situation on site.
Thermal imaging at extreme temperatures
Using thermal imaging in extremely high and low temperatures is also a challenge for thermal imaging drones. High temperatures require thermal cameras to have a wide dynamic range and not saturate under high thermal radiation. In cold conditions, the temperature can drop below -50°C, and it is critical to ensure that the equipment is properly calibrated and protected from freezing.
Autel 640T V3 has a temperature range of -20° to +150° in High gain mode and a temperature range of 0° to +550° in Low gain mode. The temperature difference accuracy value is ±3℃ or ±3%.
Summary
UAV thermal imaging technology plays a key role in many industries, allowing it to operate effectively in extreme conditions such as extreme temperatures, adverse weather conditions or limited visibility. The use of the Autel EVO2 Dual 640T thermal imaging drone in the rescue, industrial, energy and construction sectors can respond to threats faster, improve safety and increase operational efficiency.
As technology develops, thermal imaging drones are increasingly combined with artificial intelligence systems and automatic data analysis, greatly improving the accuracy of measurements and their interpretation, and also providing better solutions for dealing with extreme conditions.
