Find compressed air leaks
with acoustic imaging cameras
Acoustic imaging cameras are innovative technological devices used to detect compressed air leaks in compressed air systems, among others. These cameras use sound waves to detect and visualize the location of a leak. It is a widely used method to save energy and reduce costs in industrial processes and buildings.
Detection of compressed air leaks
Acoustic imaging cameras have a wide range of applications. In addition to detecting compressed air leaks, they can also be used to detect gas leaks. In short, acoustic imaging cameras are a valuable tool for professionals in various industries dealing with leak detection and resolution.
Save energy and costs
The FLIR Si2 LD is an acoustic imaging camera designed specifically for detecting compressed air leaks in compressed air systems. Technicians can quickly and accurately determine and repair the location of a leak, preventing unnecessary energy loss and costs. This makes acoustic imaging cameras a valuable tool for maintenance technicians and energy auditors in a wide range of applications.
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Detection of compressed air leaks with acoustic imaging cameras from TELEDYNE FLIR
Teledyne FLIR is the global market leader in designing, producing, and selling thermal infrared camera systems. FLIR is a pioneer in the field of commercial infrared cameras and has been delivering thermographic cameras for applications in the building sector, industry, and R&D for 50 years. From preventive maintenance, non-destructive testing, R&D, medical science, temperature measurement, and thermal testing to monitoring, safety, and production process control.
How leak detection works with an acoustic imaging camera
An acoustic imaging camera works by converting sound waves into visual images. This is done using an array of microphones that capture sound waves and transmit this information to a chip that converts it into images.
The microphones capture the sound emitted by the object being examined. The captured sound is analyzed and processed to generate an image of the sound sources within the object. This is done by calculating the delay between the arrival times of the sound at the different microphones and combining the information to form an image.
An acoustic imaging camera works by converting sound waves into visual images. This is done using an array of microphones that capture sound waves and transmit this information to a chip that converts it into images.