Quote
0
Gas Leak Detection in Explosion-Proof Scenarios
The Current State of Leak Detection
In the past, leak detection demanded substantial resources in terms of manpower, materials, and time, leading to high operational costs. For instance, using soapy water to identify leaks in a chemical plant could take several weeks. Furthermore, for safety reasons, leak detection was often limited to production shutdown periods, adding to the overall complexity and expense.
Improve detection efficiency by 10X
Real-time display of detection results improves detection efficiency and response capabilities.
A simple detection method
Aim the device at the area we need to evaluate and the detection results will be displayed.
Why Choose Acoustic Imaging Technology?
Unlike traditional leak detection methods like soapy water or gas concentration alarms, CRYSOUND utilizes advanced acoustic imaging technology to detect leaks. Our system identifies the distinct sound frequencies generated by gas leaks, enabling safe and efficient detection from a distance, regardless of the gas type.
Detects any type of gas
Regardless of the type of pressurized hazardous gas, users can detect any type of gas leak.
Long-distance detection
The device detects leaks from 0.3 ~ 120 m (1 ~ 393.7 ft), making climbing aids unnecessary.
Suitable for Explosive Environments
The ATEX-certified CRYSOUND acoustic imaging camera has demonstrated exceptional effectiveness in detecting hazardous gases like hydrogen and acetylene, ensuring the safety and reliability of equipment in the field.
Explosion-proof requirements
The ATEX-certified device has been tested by a professional explosion-proof organization and obtained certification.
High accuracy
The device displays real-time detection results, quickly and accurately locating even the smallest gas leaks.
Save on Time & Cost
Chemical plants benefit greatly from acoustic imaging technology, which reduces the need for extensive materials, manpower, and time, ultimately driving down overall costs. This technology simplifies the detection of even small leaks of toxic or explosive gases, making it easier to align safety protocols with reliability objectives.
Better leak assessments
An acoustic imaging camera ensures all leak data is readily available, improving decision-making across various use cases.
Economic value analysis
Conduct the economic value analysis based on the assessed leakage volume, providing a more intuitive display of losses.
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.
