Thermal Conductivity
Thermal Conductivity Gas Sensors
Because pellistors measure the flammability of a gas, they cannot be used to measure levels of gas above the Lower Explosive Limit (LEL), since the reducing level of oxygen will result in a fall-off of signal. However, a similar device can be used to monitor these high levels of gas.
We have a range of thermal conductivity sensors, which are designed to complement the pellistor range in terms of electrical characteristics, so that they can be used in the same Wheatstone Bridge circuits. They are supplied with a compensator bead which is in a sealed enclosure of air. This enclosure acts as the thermal conductivity reference in exactly the same way as it acts as the reference for a pellistor.
Because thermal conductivity measurements do not rely on the flammability of the gas, the technique can be used to analyse a whole range of gas mixtures, provided that there are only two gases present and that the two gases have significantly different thermal conductivities. Examples include:
- 0 - 100% Hydrogen in Air
- 0 - 100% Methane in Air
- 0 - 100% Carbon Dioxide in Air
- 0 - 100% Carbon Dioxide in Methane
- 0 - 100% Helium in Air
Thermal conductivity cannot be used for gas mixtures where the thermal conductivities of the two gases are similar. The best example of this is oxygen levels in air, as the thermal conductivities of oxygen and nitrogen are too close to give a meaningful signal.
Fixed Gas Detection Heads
Our pellistors and thermal conductivity sensors can be obtained already packaged as complete, flameproof gas detection heads for use in fixed gas detection systems. The VQ4250 gas detection head has CSA and BASEEFA approval and is just one example of our success in packaging sensors. The VQ600 is the latest product in this range and shows our commitment to continual development of device performance whilst reducing costs.