Shanghai Non Methane Total Hydrocarbon Analyzer

Methane Non Methane Total Hydrocarbon AnalyzerNot only can it accelerate the analysis cycle and improve work efficiency, but it also has the advantages of easy operation, fast response speed, good stability, high sensitivity, strong anti-interference ability, small size, light weight, and easy maintenance.

Characteristics of methane non methane total hydrocarbon analyzer:

1. The modular structure is compact and reasonable, with multiple expansion functions, accurate and fast analysis, and more convenient installation and maintenance.

2. On the basis of full reverse control function, real-time display of various data spectra.

3. External control events can achieve automated operation of instruments. Accurate qualitative and quantitative analysis and detection of methane/non methane total hydrocarbons, as well as benzene, toluene, and xylene substances, in conjunction with automatic injection valves and chromatographic columns;

4. The instrument has functions such as power on self-test, power-off protection, automatic restart, and automatic ignition, ensuring high sensitivity, stability, and repeatability of the entire instrument.

5. Capable of sample filtration, decompression, extraction, and other functions

Shanghai Non Methane Total Hydrocarbon AnalyzerApplication areas:

Widely used in petrochemical, industrial production, exhaust monitoring, environmental monitoring, sewage treatment, biopharmaceuticals, home environmental protection, school laboratories and other fields.

Working principle of methane non methane total hydrocarbon analyzer

1. The gas sample undergoes a complex ionization process after passing through the flame, producing a large amount of ions.

2. The high-voltage electrodes at both ends of the flame nozzle generate an electrostatic field, and the positive and negative ions generated by ionization move towards the positive and negative electrodes respectively, thereby generating electrode current between the two electrodes.

3. The intensity of the current is proportional to the concentration of hydrocarbons in the combustion gas sample. Thus, the content of hydrocarbons in the gas sample can be measured based on the current intensity.