Leading analysis technology for combustion optimization and emission monitoring
Saving energy not only makes a valuable contribution to protecting the environment, but is also a cost factor.
Energy-intensive processes in particular, such as those that take place every day in power plants and incineration plants worldwide, can be optimized through comprehensive and continuous process analysis.
Such combustion optimisation allows combustion processes to be optimally controlled and energy consumption to be reduced overall and, above all, permanently.
For combustion processes to run more efficiently, you need the right analysis technology to optimize combustion. ENOTEC supplies you with market-leading flue gas and process analysis technology for this purpose. Our analyzers are particularly suitable for oxygen analysis in small and medium-sized combustion plants, O2 and COe measurement in large combustion chambers or for continuous measurements in high-temperature inlet chambers of rotary kilns in cement plants.
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But ENOTEC not only provides you with the right product for combustion optimization. In addition to systems for combustion optimization, we also manufacture systems for gas analysis of water vapour, which are indispensable in the production of plasterboard and for optimizing other drying processes. Continuous water vapor and oxygen analysis guarantee efficient drying processes.
ENOTEC analysers for combustion optimisation and emission monitoring are characterised in particular by precision and robustness that no competitor has been able to imitate. These quality and safety standards are regularly certified by an independent German testing institute and are based on the ISO9001 guidelines.
Certified safety.
Tested quality.
Our equipment meets the highest requirements.
Suitability test in accordance with
DIN EN 15267
Quality management in accordance with
DIN ISO 9001
ATEX test certificate
Our focus has always been on performance and quality
Since 1980, ENOTEC has specialized in the manufacture of devices for gas analysis.
