Split Zirconia Flue Oxygen Analyzer: Real-time Monitoring Of Combustion Conditions in The Boiler

The core components of the Split zirconia oxygen analyzer are the converter and the detector, where the detector is often called the zirconia oxygen probe. The Zirconia flue analyzer uses nanomaterials and high-quality production processes, and adds additives to the electrode coating to inhibit electrode aging, thereby greatly improving the accuracy and service life of the Zirconia oxygen probe. This Flue gas oxygen content measuring instrument can timely reflect the combustion conditions in the boiler without the need for a sampling system and can effectively control the combustion conditions.

The detector adopts a direct plug-in zirconia oxygen probe structure. Its design allows the Split zirconia oxygen analyzer to be easily inserted into the combustion equipment without the need for a sampling system. This feature enables the Zirconia flue analyzer to monitor the combustion conditions in the boiler in real time and provide timely feedback to the automatic control device, thereby achieving effective control of the combustion process. By working with automatic control devices, precise combustion regulation can be achieved, energy utilization efficiency can be improved, and emissions can be reduced.

Split zirconia oxygen analyzer converter adopts intelligent PID algorithm and is equipped with LCD display, making data display and function control more user-friendly. This makes the operation of the instrument simple and understandable, and anyone can master its use. The Zirconia flue analyzer is a high-temperature electrolyte concentration cell with conductive properties that can produce oxygen ion migration. In a high temperature environment, the oxygen partial pressure of the measured gas (flue gas or other gases) and the reference gas (air or other gases) at the platinum electrodes on both sides of the zirconia are different, and a certain amount of oxygen ions will migrate between the two electrodes. An oxygen concentration difference potential is generated, and there is a certain relationship between its potential value and oxygen concentration. Therefore, the Split zirconia oxygen analyzer can be used to measure the oxygen concentration in gases, allowing for accurate oxygen analysis.