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Gas Leak Detection in Ordinary Scenarios
Identify Gas Leaks at a Glance
The acoustic camera transforms sound waves emitted by leaking gases into visual representations, overlaying them onto live video feeds. With its ability to cover extensive distances and a broad field of view, the acoustic camera facilitates rapid response to address the issue efficiently.
Locate leaks in real-time
As the camera scans the area, it instantly visualizes the location of leaks on the screen
Works for all gas types
By detecting sound waves generated by gas leaks, the device can located any type of gas
Pinpoint the Tiniest Leaks
In industrial settings where even a minor leak can have significant consequences in terms of safety, environmental impact, and financial costs, early detection is crucial. By detecting leaks at their earliest stages, acoustic cameras empower industrial operators to take proactive measures to mitigate risks and minimize the potential impact on operations.
Excludes noise with mic array
Background noise and other irrelevant sounds are excluded by beamforming of microphone array
0.32 ml/s under 0.5 m 5 bar
With a minimum leak detection capability of 0.32 ml/s, acoustic camera covers the majority industrial gas scenarios
Prioritize Safety
The protection of personnel and assets are the top priority for industrial facilities. The acoustic camera allows for inspections from a safe distance, ensuring that operators stay out of harm’s way.
Far-field and non-intrusive
With a working distance from 0.5 – 150 m, the acoustic camera eliminates exposure to harmful gases and the need for personnel to scale scaffolding
Intrinsically safe
The ATEX certificate assures safety in hazardous zones, eliminating the possibility of sparking or causing explosions
Minimal Training Requirements
Other gas leak detection solutions on the market require specialized training to interpret images, distinguish between true leaks and false positives, and navigate complex industrial environments. With sophisticated acoustic camera technology, users quickly learn how to operate the device, saving time and reducing frustration.
Intuitive display
The screen of the acoustic camera presents vivid images with a touchscreen interface
No experts needed
The device is user-friendly, requiring little training to operate.
Measure Leaks, Measure Cost
The acoustic camera uses advanced algorithms to quantify leaks by analyzing factors such as sound pressure levels, distance, leak type, and other characteristics of escaping gases. By accounting for variables like gas type, market value, and energy costs, the camera calculates the economic impact, enabling more informed decision-making.
See the cost of leaks
Based on the measured dB SPL value, the acoustic camera calculates the leak rate and economic loss of each leak
Streamline the reporting process
With the reporting tool, data can be shared among teams to prioritize repairs, and optimize resource allocation
System Devices
CRY8124 Advanced Acoustic Imaging Camera
Microphone array
200 channels MEMS microphone
Frequency range
2k - 100k Hz
SPL range
28 - 132 dB
CRY578 Bluetooth LE Audio Interface
Bluetooth Version
v5.4
Profile
A2DP Source/Sink V1.3, AVRCP Target/Controller V1.6, HFP Hands Free/Audio Gateway V1.7, HSP Headset/Audio Gateway V1.2
Codec
SBC, AAC, aptX Series, LHDC, LDAC, LC3, LC3 plus, mSBC, CVSD
CRY8500 Series SonoCam Pi Acoustic Camera
Mic Array
128, up to 208 channels
Beamforming Frequency
200 - 20k Hz (110cm array)
NAH Frequency
20 - 20k Hz (110cm array)
CRY3018 Sound Calibrator
Frequencies
1000 Hz, 250 Hz
Frequency Accuracy
< 0.5 Hz
Sound Pressure Levels (SPL)
94 dB / 114 dB
Explore More Cases
To ensure the quality and performance of smart loudspeakers, CRYSOUND has developed a measurement solution specifically designed for quality control and performance assessment.
Construction not only promotes urban development but also brings about noise pollution issues, especially in noise-sensitive areas such as communities, schools, and hospitals, where the impact of these issues is more pronounced. CRYSOUND.
Vehicle and vessel air-tightness testing is a method used to evaluate the effectiveness of sealing in vehicles and vessels during operation, ensuring that there are no leaks under different conditions, thereby enhancing safety and performance. CRYSOUND.
Get in touch
If you are interested or have questions about our products, book a demo and we will be glad to show how it works, which solutions it can take part of and discuss how it might fit your needs and organization.
