Inspecting large commercial flat roofs can be time-consuming, expensive, and dangerous. Using drones to facilitate rapid inspections of these properties can make roof inspections faster, safer, and less expensive. In fact, the benefits of drone inspections have become so obvious that the adoption of this technology has skyrocketed during the last five years. However, equipping these drones with additional technologies beyond regular visible cameras, such as thermal imaging cameras that allow the operator to see infrared energy invisible to the naked eye, brings additional benefits that make this type of inspection invaluable.
Thermal Roof Inspections: The Old and the New
Thermal, or infrared, imaging uses specialized cameras to make still images and video of the differing amounts of thermal energy being emitted or reflected from a surface.
While this generally corresponds to an object’s relative temperature, meaning that things that appear to be giving off more thermal energy are hotter than the things around it, that’s not always the case as discussed on previous DELTA Solutions Series. Differing materials and surface finishes can impact an object’s ability to give off its heat energy, otherwise known as emissivity. This natural phenomenon can cause a surface to be more reflective, causing it to look much hotter or colder than it really is. Understanding properties such as emissivity is vital to effective inspection and can be learned as part of a beginner thermography training course, which will enable operators to get the most out of a thermal camera equipped airframe investment.
Figure 1: Thermal cameras can provide temperature of a surface and show insulation and moisture issues during roof inspection from a drone.
An Efficient Formfactor for Roof Inspection
Using handheld thermal cameras to inspect membrane covered roofs for potential moisture damage is nothing new to seasoned industry pros, and often those same standards and practices still apply when using a drone to carry the camera instead of walking the roof.
ASTM standard C1153 lays out the guidelines for cameras, environmental conditions, and moisture verification when doing thermal inspections of membrane roofs, and it applies to drone inspections as well as manual inspections. In a nutshell, the basic requirements are as follows:
- Inspect after sundown. Thermal loading caused by direct sunlight on a roof can affect accuracy.
- Have at least a 10 °C temperature difference between the underside of the deck and the roof surface. The greater the contrast, the easier it will be for operators to detect potential issues.
- Make sure there is no standing water, snow, or ice, and no debris on the roof. Those conditions on the surface can mask potential problems below the surface of the roof membrane.
- For best results, inspect when the roof has been exposed to moisture within a week, but not within 24 hours of the inspection.
These preconditions are designed to give operators the best chance of finding the very subtle heat differences that can indicate moisture trapped under the roof membrane. During the day, the roof surface is exposed to sunlight, and absorbs the energy of that solar radiation. After the sun goes down, the areas of the roof with dry insulation will radiate that stored heat off more rapidly than the wet areas. Because water has a high thermal capacity, it will take longer to shift temperature and will therefore present a different thermal signature than the dry areas.
Figure 2: Water leaks appear as irregular shaped lighter (warmer) areas on an otherwise darker (cooler) roof during a qualitative thermal inspection
It is important to note, however, that while these thermal anomalies may be indicative of possible moisture intrusion, they are not diagnostic. Someone will still need to get on the roof to verify whether there is moisture under the membrane. The advantage drones provide is to cover large roofs in a matter of minutes, capturing a series of overlapping images that can then be stitched together into a large thermal image mosaic of the entire roof through readily available software. This allows the facility manager or roofing contractor to localize the few points that need to be manually inspected, greatly reducing the amount of time they need to spend with boots on the roof while reducing the chances for injury.
New Tech, New Techniques – Thermal Zoom
One of the limitations of previous drone thermal camera technology is an inability to effectively zoom and review potential issues more closely. Until recently, the only way to get a closer look at an anomaly – other than flying closer to the roof – has been to use the camera’s electronic zoom, which digitally enlarges the pixels creating a fuzzy, lower resolution image with poorer detail.
That’s why a dual thermal camera payload for drones that includes a wide field of view (FOV) thermal camera paired with another narrower FOV thermal camera was introduced. With two cameras instead of one, operators can utilize 5x optical zoom without affecting resolution and image quality. This feature greatly improves the efficiency of thermal drone inspection, opening more possibilities to inspect larger roofs faster while reducing flight time.
Furthermore, large commercial and industrial roofs also include more than a roof. At the very least there will be mechanical systems like generators, HVAC systems including air handlers and duct work, access points, even solar panels, and numerous of other things that can all be inspected with thermal imagers. The ability to measure temperature of objects in the scene will allow operators to identify potential issues as well as reduce false positives. Review past DELTA Solution Series notes to refresh on apparent temperature versus true temperature and the requirements regarding spot size for temperature measurement.
Figure 3: Thermal imaging (640x512 resolution) of the roof leak and mechanical systems from 100 feet.
In conclusion, drones give roofing professionals the power to inspect large areas of roofs quickly and safely, without having to spend hours on hot and potentially dangerous surfaces to do their initial inspections. The latest advances in thermal imaging, including dual thermal camera payloads, brings even more advantages to these drone inspections – from rapid moisture inspections, to detailed examinations of roof mounted mechanical systems. For more information, please visit https://www.flir.com/delta.