Thermal imaging cameras are typically used in various environments where it is important to map hotspots or areas of humidity. The good news is that thermal imaging, through advanced developments in digital sensor technology, has become more affordable and available than ever before. Having said that, if you rely on a thermal imaging device for your work, it is important that you invest your money in a model that is high quality, accurate, and precision engineered to the highest standards.
Why Use Thermal Imaging?
Thermal imaging cameras are often used for the following purposes and in the following areas:
- Commercial and industrial: For any industrial production facilities, manufacturing plants, and other sectors where high-end machines, robotics, and automated process lines are used, it is vital that all areas are thermally imaged. In these environments, even the tiniest problem can cause a delay in production, and thermal imaging can often locate problem areas where there is abnormal heat build-up either due to design faults, leaks, or other flaws. They are also good for detecting areas where there is a buildup of humidity. This is especially useful for air compressors and other machines where mould formation is of great concern, and corrosion can be caused by moisture and condensation due to the higher levels of humidity.
- Pest inspection: Most people are unaware of this fact, but thermal imaging equipment is extremely useful when it comes to detecting pests such as termites, rats, mice, and other nasties. In fact, it is very common for termite inspectors to use a high quality thermal imaging camera in Indonesia to detect areas of humidity and higher-than-normal levels of heat build-up in wall cavities and other areas where termites may be active.
Of course, because thermal imagers show where the hotspots and humid areas are in a property or piece of equipment, they will also show cold areas. This is actually very useful in construction areas, because cold temperatures within pipes due to a feed of compressed air can actually freeze equipment, specifically in regions where winter temperatures can drop below freezing.
All about Modern Thermal Imagers
The thermal imaging equipment of today has benefited greatly from advancements in both digital imaging and miniaturisation. In fact, many thermal imagers are now capable of connecting directly to smartphone applications that show the visual analysis of a specific area.
Furthermore, specific software from certain quality thermal equipment manufacturers can even retain site-specific information so that repeated testing of the same site can be overlaid on earlier thermal maps. This provides the thermal imaging technician with a baseline with which to compare results so that an accurate evaluation can be made.
Even though modern thermal imagers usually come in the form of small handheld devices, they can actually analyse very large properties by condensing a number of smaller maps into one single pixel-perfect image. This is where advancements in both digital imaging and software have significantly changed thermal imaging devices for the better.