@Model.PrimaryHeadlineSize>
INDUSTRIAL
Acoustic Imaging
Acoustic imaging technology from FLIR addresses two critical challenges faced by industries today: detecting pressurized air leaks and gas leaks in compressed air systems and monitoring partial electrical discharges in high-voltage systems. These issues not only pose significant safety risks but also lead to operational inefficiencies and increased maintenance costs.
By integrating FLIR's acoustic imaging technology, industries can proactively address these critical issues, enhancing safety, reducing maintenance costs, and improving operational efficiency.
sEE FLIR's ACOUSTIC CAMERAS REQUEST INFO
@Model.PrimaryHeadlineSize>
Air Leak Detection: Automated for Effortless Use
The leak detection (LD) camera from FLIR is designed to identify and assess various types of gas leaks. This technology is capable of detecting leaks in systems utilizing compressed air, vacuum, carbon dioxide (CO₂), and other gases. Once a leak is detected, the LD system not only locates it but also quantifies the leak, providing valuable data regarding its magnitude and potential impact.
@Model.PrimaryHeadlineSize>
Avoid Critical Failures with Early-Stage Partial Discharge Detection
FLIR’s acoustic imaging camera for partial discharge (PD) employs artificial intelligence (AI) to evaluate the severity and type of partial discharge occurring. The AI component also distinguishes between various forms of partial discharge such as arcing, corona, and surface discharge. Each type has distinct characteristics and implications for the integrity of electrical systems.
@Model.PrimaryHeadlineSize>
Si2-Pro: A Dual-Function Acoustic Imaging Camera
The Si2-Pro combines the capabilities of both LD and PD detection systems. This acoustic imaging camera integrates both acoustic leak and partial discharges detection. By consolidating these two functions, the Si2-Pro offers a comprehensive solution for monitoring and maintaining the integrity and efficiency of various industrial systems, from pneumatic networks to complex electrical infrastructures.