1080-B Portable Odor Gas Monitor Introduction: The 1080-B portable ultraviolet differential multi gas monitoring instrument is based on the strong absorption characteristic spectra of odorous gases such as ammonia, trimethylamine, hydrogen sulfide, carbon disulfide, methyl mercaptan, methyl sulfide, dimethyl disulfide, styrene, benzene, toluene, xylene, dimethylformamide, etc. in the 185-500 nm ultraviolet range. It uses imported high-resolution miniature spectrometers and combines embedded single board computer control technology. It is a high-resolution low detection limit odorous gas monitoring instrument carefully developed by Borui Guangke, which can continuously monitor the real-time concentration of the above-mentioned gases emitted from unorganized emission sources in industrial and mining enterprises. characteristic: 1. Equipped with specialized calibration devices; 2. Imported high-performance spectrometer with high resolution and stable performance; 3. Embedded industrial control computer, stable and reliable operation, anti-static interference prevention; 4. The display screen features a tilted design, with a one-time molding process for easy operation; 5 . Portable structural design, easy installation, 2 minutes to set up optical transceiver system; 6. Equipped with a laser ranging module, it can accurately measure and monitor the optical path length, improving measurement accuracy; 7 . Equipped with GPS positioning function, it can accurately display the location information of the measurement site, ensuring data traceability; 8 . Equipped with GPRS wireless transmission module, it can send measurement results to designated locations; 9 . Embedded printer design, realizing online printing of data and supporting USB data export; 10. Adopting ultraviolet differential absorption spectroscopy, with multiple detection items, standard molecular spectra can be added according to requirements to increase monitoring items; 11. WIN7 operating system, human-machine dialogue interface, illustrated with text and rich online operation prompts, easy to operate; 12. Optional meteorological five parameter, GPS positioning, wireless transmission and other units can be configured to complete the traceability of odorous gases; 13. The structural design is reasonable, which can be used as a portable instrument or automatically monitored continuously online; 14. Online continuous monitoring data transmission is suitable for wired and wireless (3G) transmission, and the communication protocol supports HJ212 protocol; Technical parameters: Wind speed: (0~60)m/s Wind direction: (0~359) ° Temperature: (-40~80) ℃ Humidity (RH): (0~100)% Atmospheric pressure: (150~1020)Kpa Ozone: (5~1000 )μg/m³ Sulfur dioxide: (3~1000 )μg/m³ Nitrogen dioxide: (3~5000 )μg/m³ Ammonia gas: (1~40000 )μg/m³ Trimethylamine: (10~130000)μg/m³ hydrogen sulfide: (2~80000)μg/m³ Carbon disulfide: (1~10000)μg/m³ Methyl sulfide: (1~100000)μg/m³ Methyl mercaptan: (5~100000)μg/m³ Dimethyl disulfide: (20~50000)μg/m³ Styrene: (50~50000)μg/m³ Benzene: (5~50000)μg/m³ Toluene: (10~40000 )μg/m³ Xylene: (10~40000)μg/m³ Dimethylformamide: (40~4000)μg/m³ Working temperature: -5~40 ℃ Working humidity: 15%~85% RH Light source lifespan: Xenon lamp flashes more than 10 ∧ 9 times Host size: 503x308x213 mm; Telescope: Ø 260 × 280 mm Weight of the whole machine: 11.2 kg for the main unit; Telescope: 10 Kg; Meteorological five parameters: 0.5 Kg
Introduction: The 1080-B portable ultraviolet differential multi gas monitoring instrument is based on the strong absorption characteristic spectra of odorous gases such as ammonia, trimethylamine, hydrogen sulfide, carbon disulfide, methyl mercaptan, methyl sulfide, dimethyl disulfide, styrene, benzene, toluene, xylene, dimethylformamide, etc. in the 185-500 nm ultraviolet range. It uses imported high-resolution miniature spectrometers and combines embedded single board computer control technology. It is a high-resolution low detection limit odorous gas monitoring instrument carefully developed by Borui Guangke, which can continuously monitor the real-time concentration of the above-mentioned gases emitted from unorganized emission sources in industrial and mining enterprises.