Principle of Operation
The LasIR is based on the absorption of light in the near infrared region of the spectrum. What is unique to the LasIR is its very special light source, called a Tunable Diode Laser. These tiny devices are similar to the solid state lasers used in telecommunication and in consumer products such as laser printers and compact disc players. Laser diodes can be selected which are unique to a particular gas ensuring that the measurement is free from interferences from any other gas or particle.
Gases that can be Measured with the LasIR Include:
HF, HCl, HBr, HI, HCN, CO, CO2, CH4, C2H2, C2H4, C2H6, C3H8, CH2CHCl, NO, NO2, NH3, H2S, H2O, O2 ,D2O, HOD
Industries that are Using these Systems Include:
Aluminium Semiconductor Power
Generation Specialty Gases Natural Gas
Petrochemical Landfills Oil Refineries Combustion Geothermal
Incinerators Sewage and
Waste
treatment Pulp and Paper Auto-exhaust Cement
Glass Fertilizer Steel
Main Advantages
o No interferences from other gases: TDLAS technology provides the most interference free method of any analytical technique.
o No interference from particles: Measurements of gas
concentrations are unaffected by the presence of particles,
including rain and snow.
o Fast time response: measurements can be made in less than 1
second if desired.
o High sensitivity: Sensitivities down to and below 1 ppbv
depending on the path length
o Fiber optic link for remote control: permits the instrument
to be located long distances from the measurement point
o Cost effective: multiplexing of fiber optic cables permit simultaneous measurement at a number of locations with the same instrument
o Long Paths Lengths: up to 1 kilometer
o Easy to install and rugged, maintenance-free operation
o Can cover a broad range of concentrations