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FT-IR Gas Leak Monitor
The FT-IR Gas Leak Monitor employs advanced passive Fourier Transform Infrared (FT-IR) technology for remote sensing of gas leaks. Constructed from non-adsorbing materials that resist reaction with gaseous pollutants, it ensures longer maintenance cycles and enhanced stability, meeting the demands of real-world applications.
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FT-IR Gas Leak Monitor
Product Code: GF380
application
Description
The FT-IR Gas Leak Monitor employs advanced passive Fourier Transform Infrared (FT-IR) technology for remote sensing of gas leaks. Constructed from non-adsorbing materials that resist reaction with gaseous pollutants, it ensures longer maintenance cycles and enhanced stability, meeting the demands of real-world applications.
This device leverages the temperature difference between the target gas and background, capturing unique infrared spectral fingerprints for rapid, highly sensitive qualitative identification and semi-quantitative concentration analysis of various toxic gases.
It displays real-time dynamic distribution and diffusion trends of hazardous gases within the scanned area, providing acoustic and optical alarms for exceeded limits. In scenarios where danger is indeterminate, the FT-IR Gas Leak Monitor enables remote, non-contact risk assessments, mapping hazardous gas distributions and their chemical compositions while tracking diffusion trends, effectively supporting emergency response efforts. For more insights on FT-IR Gas Leak Monitor products and industry trends, consider exploring Optosky solutions in gas leak detection technology.
Features
- Monitors 500+ gases, including alkanes, aldehydes, and alcohols.
- Non-reactive materials ensure stability and longer maintenance.
- 360-degree scanning with ppm detection limit.
- Long-distance monitoring (≥2 km).
- Standard protocols for easy integration with systems.
- Preset gas types reduce leak risks.
- Visualizes gas diffusion and emission sources.
- Supports intelligent event detection for intrusions and boundaries.
Parameter | |
Gas Types | Over 500 gas types (alkanes, alkenes, aldehydes like formaldehyde, ammonia, sulfides, alcohols, ketones, esters, acids, etc.; customizable for industrial needs) |
Detection Method | Passive Fourier infrared fingerprint continuous spectral remote sensing principle |
Dual Channels | 7 μm - 14 μm; InSb detector: 2 μm - 5 μm |
Wavelength Range | 2 - 16 μm (625 - 5000 cm⁻¹) |
Spectral Resolution | ≤ 1 cm⁻¹ |
Wavelength Stability | ≤ 0.009 cm⁻¹ |
Wavenumber Accuracy | ±0.03 cm⁻¹ |
Measurement Speed | ≥ 10 spectra/second |
SNR | ≥ 40,000 (peak-to-peak) |
Noise Equivalent Radiance | MCT ≤ 4 × 10⁻⁹ W/(cm²·sr·cm⁻¹), InSb < 4 × 10⁻¹⁰ W/(cm²·sr·cm⁻¹) |
Measurement Range | ≥ 5 km |
Detection Limit | SF6: < 5 ppm·m |
Alarm Response Time | < 2 seconds |
Visible Light Bitrate | 3840 × 2160 @ 25 fps |
Chip Processing Power | ≥ 2 T |
Gyroscope Module | Support for built-in capabilities |
Telescope Diameter | ≥ 235 mm |
Spectral Database | > 500 gases |
Cooling Method | Stirling refrigeration |
Structure Type | Dual-arm swinging Michelson with tilt compensation |
