3 Different Ways Thermal Imaging Cameras Can Help Identify Potential Home Issues
The inspection of home issues is a profession that demands sophisticated technology if anyone must yield reasonable results from it. Considering that several home issues cannot be detected with the naked eye, the task of home inspection inevitably requires the adoption of specialized tools.
Helpfully, the emergence of thermal imaging camera has elevated the business of home inspection by facilitating the detection of home issues. Of course, these cameras spot various things ranging from potential to established home issues. Put simply, they are adapted for tracking various sorts of invisible building defects.
Optimal thermal imaging cameras provide in-depth temperature details of home features, hence enabling home inspectors to compare the temperature levels of different home areas and materials. Undeniably, these temperature details are useful for inspecting a whole lot of building issues including electrical defects, moisture intrusion, and faulty insulation.
This article centers around the three different ways thermal imaging cameras can be used in identifying possible home issues. Therefore, it emphasizes that thermal imaging cameras locate certain minor issues which can easily be prevented from causing severe damage.
Moisture damage is one of the most destructive home issues thermal imaging cameras are designed to spot. Leakages within ceilings, floors, and walls could be vulnerable to penetration of air which tends to develop into condensation. While moisture readily allows for mold formation, proper use of thermal imaging cameras can help identify moist areas hence preventing the formation of mold.
Tracking or spotting moisture may seem tricky but scanning with thermal imaging provides temperature variations that help to distinguish moist areas from dry areas. Unlike that of dry areas, the temperature of moist areas, materials or spots vary at a considerably slower rate. This way, thermal imaging facilitates the detection of moisture by enhancing the visibility of moist materials.
Thermal imaging cameras are capable of discovering improper or missing insulation. Needless to say, these cameras are effective for inspecting absence of insulation in crucial areas such as attics, windows, and walls. In general, a thermal imaging camera shows indications of insulation absence or improper installation of insulation. With such indications, it’s been proved that a wall with no insulation will have abnormally warm studs or perhaps, the studs will be its hottest area. Without doubt, the appropriate adoption of thermal imaging enables one to easily detect whether insulation is missing or inadequately installed in certain areas of a home.
Electrical Wiring Issues
Thermal imaging cameras are highly useful devices which may be used in rooting out hidden faults in electrical connections, fuses, and cabinets. With the appropriate use of such cameras, one can be sure to quickly detect minor issues in electrical installations before they become drastic or cause serious damage. Of course, faulty electrical installations can result in high temperatures which are very likely to snowball into devastating sparks.
Broadly speaking, increased resistance and inordinate current flow are the major factors behind the defects in electrical installations. While these factors often come with excessive heating, it becomes necessary to adopt thermal imaging cameras in spotting them early enough.
Through infrared thermography, thermal imaging cameras facilitate the detection of damaging thermal indications which are generally hard to detect with the naked eye. Obviously, the application of thermal imaging can help you spot early instances of excessive heating caused by high resistance and simply correct them before they become worse.
Home inspections with thermal imaging cameras can help locate heated spots resulting from faulty electrical components and connections. If you’re able to detect a faulty electrical component or connection at its early stage, you’ll not only prevent the risk of productivity loss but also avoid serious electricity hazards.