Sauermann Combustion Gas Analysers

The Sauermann range of combustion gas analysers offers a new degree of efficiency. These digital analysers are compact and intuitive analysers to enhance your performance.

Sauermann

Si-CA 030

All the essentials for combustion gas analysis - up to three gas sensors: O2, CO and NO (for NOx) with auto pump cut-off for CO levels.


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Sauermann

Si-CA 130

Comprehensive, versatile analyser with touch-screen display - detecting up to three gas sensors: O2, CO, and NO or Low NO (for NOx) with field replaceable pre-calibrated sensors

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Sauermann

Si-CA 230

State-of-the-art, industrial emissions analyser - detecting up to Six Gas Sensors: can include - O2, CO, NO, Low NO, NO2, Low NO2, SO2, Low SO2, H2S, & CxHy

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Sauermann

Combustion App

The Sauermann Combustion app lets you control your Si-CA analyser remotely, view results in real time, & customise them before exporting in the format of your choice.

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Applications for the Si-CA Combustion Gas Analysers

Residential  Boilers Water Heaters	Commercial  Boilers Water Heaters Burners Furnaces	Industrial  Boilers Water Heaters Burners Furnaces Industrial Kilns Gas and Diesel Engines Industrial Heating Systems Incinerators

Si-CA Combustion Analyser quick comparison or download the selection guide

What are Combustion Gas Analysers?

A combustion gas analyser, also known as a flue gas analyser, is a device that is used to measure the composition of gases produced by combustion processes. Combustion is the chemical process of burning a fuel and oxidizer, such as air, to produce heat and other products.

Combustion gas analysers are used in a variety of applications, including:

• Boilers and furnaces: to ensure that the boilers and furnaces are operating efficiently and safely. The analyser measures the composition of the flue gases, thus the technicians can identify problems with the combustion process, such as incomplete combustion or excessive emissions of pollutants.
• Engines: used to diagnose and troubleshoot problems with internal combustion engines, such as those found in cars, trucks, and generators. By measuring the composition of the exhaust gases, the technician can identify problems such as ignition misfires, fuel injector problems, and leaks in the exhaust system.
• Industrial processes: used in a variety of industrial processes, such as cement production, power generation, and waste incineration. By measuring the composition of the flue gases, engineers and technicians can ensure that these processes are operating efficiently and within environmental regulations.

Combustion gas analysers typically measure a variety of gases, including:

• Oxygen (O2): Oxygen is necessary for combustion to occur. By measuring the oxygen content of the flue gases, technicians can determine whether the combustion process is getting enough air.
• Carbon dioxide (CO2): Carbon dioxide is a natural product of combustion. By measuring the carbon dioxide content of the flue gases, technicians can determine how efficiently the combustion process is using fuel.
• Carbon monoxide (CO): Carbon monoxide is a poisonous gas that is produced by incomplete combustion. By measuring the carbon monoxide content of the flue gases, technicians can identify problems with the combustion process that could be releasing harmful gases into the environment.
• Nitrogen oxides (NOx): Nitrogen oxides are a group of pollutants that can cause respiratory problems and contribute to smog. By measuring the nitrogen oxide content of the flue gases, technicians can ensure that emissions from combustion processes are within environmental regulations.