Downloads

  1. Hydrogen Chloride Analyzer (HCl, H2O)
    5/11/2017

    LGR's Hydrogen Chloride Analyzer (HCl, H2O) provides sensitive measurements of HCl and H2O in ambient air or in industrial process flows (e.g., coal and cement exhaust streams) continuously with extremely high precision and sensitivity. No longer do you have to spend a lot of money or wait a long time to measure HCl with extremely high sensitivity – LGR's HCl Analyzer provides measurements every second with sub-ppb-level precision. In addition, the Analyzer can report measurements quickly over a very wide range of HCl concentrations (for process control and compliance monitoring applications).

  2. Hydrogen Chloride Analyzer (HCl, H2O) Datasheet
    5/11/2017

    LGR’s Hydrogen Chloride Analyzer (HCl Analyzer) continuously measures HCl in ambient air or in industrial process flows with extremely high precision and sensitivity.

  3. H2S/NH3 Analyzer (Hydrogen Sulfide, Ammonia, Water Vapor)
    5/11/2017

    LGR’s H2S/NH3 Analyzer (ammonia, hydrogen sulfide) provides sensitive measurements in ambient air or in industrial process flows with extremely high precision and sensitivity. No longer do you have to wait a long time to measure these gases with high sensitivity and accuracy – LGR’s H2S/NH3 Analyzer provides measurements every second with sub-ppm level precision. In addition, the H2S/NH3 Analyzer can report measurements quickly over a very wide range of mole fractions even in complex process flows.

  4. Ammonia Analyzer - Economical (NH3, H2O)
    5/11/2017

    Los Gatos Research's (LGR's) Ammonia Analyzer provides sensitive measurements of ammonia in ambient air or in process flows containing ethylene with extremely high precision and sensitivity. No longer do you have to spend a lot of money or wait a long time or rely on scrubbers to measure ammonia with high sensitivity – LGR’s Ammonia Analyzer provides direct measurements every second with ppb-level precision. In addition, the Ammonia Analyzer can report measurements quickly (fast response time) over a very wide range of concentrations. The instrument, based on LGR’s cavity enhanced laser absorption spectroscopy, is simple to use, inexpensive to operate, and includes all components (internal vacuum pump, keyboard,mouse, video monitor) to start recording data within minutes.

  5. Methane/Ethane Analyzer (CH4, C2H6)
    5/11/2017

    LGR’s new Fast Methane/Ethane Analyzer (FMEA) reports measurements of methane and ethane, the two major components of natural gas, simultaneously in a package that is compact, crushproof and travels anywhere. Small enough to be carried on-board aircraft (TSA approved size) or vehicles, and requiring only 70 W, the FMEA offers new opportunities to quickly and accurately measure and unambiguously find natural gas leaks anywhere.

  6. Greenhouse Gas Analyzer (CH4, CO2, H2O)
    5/11/2017

    LGR's Greenhouse Gas Analyzer (model GGA-24EP) is the world's most advanced instrument for simultaneous measurements of methane (CH4), carbon dioxide (CO2) and water vapor (H2O).

  7. Greenhouse Gas Analyzer (CH4, CO2, H2O) Datasheet
    5/11/2017

    LGR’s Greenhouse Gas Analyzer is the world’s most advanced instrument for simultaneous measurements of methane, carbon dioxide and water vapor.

  8. Ammonia Analyzer - Economical (NH3, H2O) Datasheet
    5/11/2017

    LGR’s Ammonia Analyzer provides sensitive measurements of ammonia (and water vapor) in ambient air or in industrial process flows with extremely high precision and sensitivity.

  9. Carbonyl Sulfide Analyzer (OCS, CO2, CO, H2O)
    5/11/2017

    To address exciting new opportunities for studying gross photosynthesis, LGR's OCS Analyzer (Carbonyl Sulfide or COS) simultaneously reports measurements of carbonyl sulfide (OCS or COS), carbon dioxide (CO2), carbon monoxide, and water vapor (H2O) in air continuously with extraordinary precision and sensitivity.

  10. Carbonyl Sulfide Analyzer (OCS, CO2, CO, H2O) Datasheet
    5/11/2017

    Since OCS uptake by vegetation is associated with photosynthetic CO2 uptake, but not with respiration, simultaneous measurements of OCS and CO2 may serve as a new and potentially powerful method to study gross photosynthesis.