Used for combustion optimization, low concentration monitoring, and process control in power plants
Application:

The UV analyzer UVA 17 m can be used to monitor emissions from incineration plants and NO generated during the production process of chemical and pharmaceutical plants, NO2, NH3, SO2, O2 and other components. This analyzer is based on a high-temperature spectrometer and can measure all gas components in the ultraviolet absorption zone. The jet pump provides sample gas, and due to the use of a heated measurement chamber (200 ° C), the measured gas does not require pre-treatment. It uses a hernia lamp, which has the characteristic of extending its service life to 2 to 3 times that of other light sources. Oxygen is measured through zirconia integrated into the analyzer, and a 7-inch small color screen computer based on app menu operation supports on-site intuitive operation and remote operation.

Equipment highlights:

Integrated high-temperature UV flue gas analyzer • Equipped with a full process high-temperature sampling and processing system • Equipped with a remote control system • Gas heated to 200 ℃ • Full process high-temperature sampling and analysis without the need for condensation and other processing of samples • Comprehensive data processing system: data recording and printing • Humanized touch screen • Extended measurement components without the need for additional hardware • Can be used as a portable UV CEMS system

Function:
The function of the UV gas analyzer is to measure the UV signal in the spectral range of 180 to 400 nanometers through the built-in spectrometer. The main components of the instrument include a light source, a measuring chamber, and a spectrometer. They are connected together through a light path. The light passes through a measurement chamber filled with the gas being measured, partially absorbed by the gas, and then the beam is gathered together to receive the spectral signal through a spectrometer. Then, specific gas components and their concentrations can be obtained through a stoichiometric model. This analyzer adopts a modular design, allowing different spectrometers to be used for different measurement needs