JINSP - Online Gas Analyzer
The RS2600PAT Multi-Gas Analyzer from Jinsptech leverages Raman spectroscopy to perform online analysis of a wide range of gases. Designed with an industrial explosion-proof build, it is apt for detecting multiple components in reaction gases with rapid valve-switching capabilities. This advanced gas analyzer can concurrently measure over 500 gas types, including symmetric molecules such as N2, H2, and F2, as well as isotope gases like H2, D2, and T2. It features a quick response time of under 2 seconds and operates without the need for consumable components like chromatographic columns. The device offers a substantial quantitative measurement range from parts per million to 100%. It employs a chemometric approach to relate spectral signals to substance concentrations, maintaining accuracy despite changes in gas pressure or testing conditions. Typical applications include real-time monitoring and alarm notifications for raw and reactor tail gases, making it a versatile tool for various industries, including petrochemical, electronic, and pharmaceutical sectors.Industrial explosion-proof design, suitable for online analysis of multiple components in reaction gases, switching detection can be performed on the gas path through valve switching.
- Multi-component: simultaneous online analysis of multiple gases
- Universal: 500+ gases can be meaasured including symmetric molecules (N2, H2, F2, Cl2, etc.), isotope gases (H2, D2, T2, etc.), and can detect almost all gases except inert gases
- Rapid response: < 2 seconds
- Maintenance-free: can withstand high pressure, direct detection without consumables (chromatographic column, carrier gas)
- Wide quantitative range: ppm ~ 100%
Based on Raman spectroscopy, Raman gas analyzer can detect all gases except noble gases (He, Ne, Ar, Kr, Xe, Rn, Og), and can realize the simultaneous online analysis of multi-component gases.
Following gases can be measured:
- CH4, C2H6, C3H8, C2H4 and other hydocarbon gases in petrochemical field
- F2, BF3, PF5, SF6, HCl, HF and other corrosive gases in fluorine chemical industry and electronic gas industry
- N2, H2, O2, CO2, CO, etc. in the metallurgical industry
- HN3, H2S, O2, CO2, and other fermentation gas in the pharmaceutical industry
- Gas isotopologues including H2, D2, T2, HD, HT, DT
The gas analyzer adopts the quantitative model of multiple standard curves, combined with the chemometric method, to establish the relationship between the spectral signal (peak intensity or peak area) and the content of multi-component substances. Changes in sample gas pressure and test conditions do not affect the accuracy of quantitative results, and there is no need to establish a separate quantitative model for each component.