LSE Monitors

5 products found

LSE Monitors Products

  • LSE - NH3 Monitor

  • LSE - Model NH3-1700 - Low PPB Ammonia Monitor

    LSE - Model NH3-1700 - Low PPB Ammonia Monitor

    Ammonia from farm animals and industrial processes are main contributors to acid rain and plays an important role in the formation of aerosols in the atmosphere. In higher concentrations also the smell becomes a problem. Various actions have been taken to improve the ambient air quality by reducing the high ammonia concentration.

  • LSE - NH3 Multipoint Sampler

    LSE - NH3 Multipoint Sampler

    In order to extract sample gas from multiple points and transport it to an LSE NH3 analyzer, LSE Monitors has developed a multipoint sampler for measuring NH3 in ambient air. The multipoint sampler and the gas connections be-tween the sample points and the analyzer are custom-built for an optimum solution for the customer.

  • LSE - Model N H3 - 17 H2 - Low PPB Ammonia Monitor

    LSE - Model N H3 - 17 H2 - Low PPB Ammonia Monitor

    LSE Monitors has developed a robust and cost-effective analyzer based on photo acoustics with a quantum cascade laser. The concentration of NH3 in hydrogen is continuously determined with a detection limit better than 10 ppb and a time resolution of 1 minute in dry H2.

  • LSE - N2O Monitor

  • LSE - Model N2O-4405 - Ultra Sensitive N2O Monitor

    LSE - Model N2O-4405 - Ultra Sensitive N2O Monitor

    Nitrous oxide (N2O) plays an important role as greenhouse gas and is involved in the depletion of the ozone layer in the atmosphere. In the last century, the anthropogenic sources of N2O increased by a factor 2 and, consequently, the concentration in the atmosphere increased from 285 in 1900 to 330 ppbv in 2010. Emissions from Agriculture are the main source, followed by industry and energy plants. Globally, the natural sources are still causing over...

  • LSE - Model N2O-4410 - Ultra Sensitive N2O Monitor

    LSE - Model N2O-4410 - Ultra Sensitive N2O Monitor

    LSE Monitors has developed a robust and cost-effective analyzer based on photo acoustics with a quantum cas-cade laser. The concentration of N2O in ambient air is continuously determined with a sensitivity of 0.02 ppm and a time resolution of 2 s.