Hydrogen Sulfide in Flare Gas

 
Tunable diode laser absorption spectroscopy (TDLAS) was introduced to hydrocarbon applications by SpectraSensors more than a decade ago. The rugged nature of these laser-based analyzers has allowed them to be used in natural gas pipelines with very little maintenance, no interference, and with no detrimental effects from glycol, methanol, amine,moisture slugs, etc. Since its inception, this technology has demonstrated its reliability in thousands of installations worldwide.
 

                                                        Application Note 10902
 
 
Model Description Certification
SS2100 SpectraSensors SS2100 H2S Measurement Analyzer measures hydrogen sulfide in natural gas quickly and reliably without light source aging, tape replacement or ongoing recalibration. CSA Class I Division 2
2-Pack & 3-Pack The SpectraSensors 2-Pack & 3-Pack H2S, H2O and CO2 gas analyzer systems retain the analytical benefits and reliability known by our existing customers. In addition, reduced installation costs, support and complexity are achieved via a single technology for gas quality measurements. CSA Class I Division 2
SS2100a Single Box SpectraSensors SS2100a Process Gas Analyzers are exceptionally reliable for measuring trace gas components using Tunable Laser Diode (TDL) technology. ATEX Zone 2
SS2100i-1 Single Box SpectraSensors SS2100i-1 Process Gas Analyzers are exceptionally reliable for measuring trace gas components using Tunable Laser Diode (TDL) technology. ATEX and IECEx Zone 1
SS2100i-2 Dual Box SpectraSensors SS2100i-2 Process Gas Analyzers are exceptionally reliable for measuring trace gas components using Tunable Laser Diode (TDL) technology. ATEX, IECEx and GOST-R Zone 1
SS2100r Rack Mount SpectraSensors SS2100r Gas Analyzers are exceptionally reliable and compact analyzers for measuring gas components using Tunable Laser Diode (TDL) technology. TDL absorption spectroscopy is a high-resolution infrared technique that enables the measurement of specific gases with precision while avoiding interferences. CE