COMTEC^® 6000 The World's First InSitu O₂ & CO_e* (Combustibles) Analyser

COMTEC^® 6000 is a totally new and unique InSitu Oxygen & COe (Combustibles) flue gas and process gas analyser. The innovative combustibles sensor pioneered and developed by ENOTEC (patent pending), combines with its world-proven "leak-proof" Zirconia Cell technology to produce the worlds first InSitu O₂ & COe analyser. 

Both measuring cells, (O₂ & COe), are actually located inside the process measuring actual real-time values without the need for sampling, conditioning and expensive hybrid systems. The COMTEC^® 6000 probe simply installs directly inside the duct for direct & continuous dual readings of Oxygen & COe present. COMTEC^® 6000 can easily be installed as standalone instrument or as a retrofit upgrade to an existing system. It's designed to be maintenance free, with minimal calibration requirements, and completely user-friendly operation.

The Measuring Principle of COMTEC^® 6000

The COMTEC^® 6000 measures the net concentration of O₂ and COe (combustibles) in the flue gas of combustion. The water content existing in any flue gas and which has an influence on the actual O₂ concentration is taken into account in this wet measuring process.

Measuring principle of the ZrO₂-sensor for O₂ measurement

The EMF (electrical motive force) produced by a temperature-stabilised Zirconia cell indicates the amount of oxygen concentration. Measurement is made direct and InSitu, i.e. the measuring cell is inside the flue gas duct at the end of a probe in the middle third of the gas stream.

The measuring cell consists of a small zirconium-oxide disc, which is coated with porous layers of platinum on both sides and soldered with a gas-tight seal into the end of a steel tube cell holder.

The temperature of the measuring cell is stabilised by a built-in heater whose temperature is kept constant by a temperature controller. At a constant temperature the mV-output of the cell is equal to the Nernst equation.

The reference gas (Instrument Air) is clean, dry and oil-free air (20.95% by volume O₂). When different oxygen concentrations occur between measuring and reference side of the electrochemical cell, there is a migration of oxygen ions from the higher to the lower partial pressure side. The mV output signal of the cell is inversely logarithmically proportional to the oxygen content of the process gas. The reduction of oxygen content in the process gas causes the mV signal of the measuring cell to increase. Air on the process gas side, the ZrO₂-cell generates approx. 0 mV ± 5 mV (cell constant) and with 2.1% O₂ approx. + 50 mV (rise of the characteristic line or decade voltage).

In general, a metal oxide sensor consists of an active layer, which resistance changes when exposed to the gas being measured. This unique semiconductor gas sensor is operated at high temperatures approx. 750°C. Ga₂O₃ sensors show faster response and recovery times and lower cross sensitivity to humidity than other sensors. Additionally, Ga₂O₃ based sensors show stable long-term sensor properties even in flue gases containing of sulphur and dirt e.g. found in fuel oil burners. Furthermore, the sensor has an excellent performance and measurement repeatability.

The benefits of the Ga₂O₃ cell compared to other materials are the physical and electronic characteristics of the material. Compared to other commercially available metal oxide sensors, Ga₂O₃ sensors provide a series of unique product features: