Choe Chol Min, a researcher at the Faculty of Electronics, has developed a portable photocolorimetric ozone meter for regular calibration of a real-time ozone meter at disinfection stations, based on indigo carmine spectrophotometry.
Ozone disinfection process needs both correct real-time measurement of ozone concentration at disinfection stations and regular calibration of ozone meters.
All over the world, indigo carmine spectrophotometry is the choice of the standard method for measurement of ozone concentration and it is being widely used for the air and ozone generators.
The photocolorimetric ozone meter is based on Lambert-Beer’s law, which explains that absorbance is proportional to the concentration of chemical sorts absorbing the light when a solution absorbs the light of given wavelength and the thickness of the solution layer is fixed.
The photocolorimetric ozone meter consists of a driving circuit for light source, a light detection circuit, a filtering and amplifing circuit, a source supply stabilizing circuit and a microprocessor.
The driving circuit for light source contains a constant-current source circuit to stabilize the maximum of light source brightness. The light source driving current can be changed from 0mA to 22mA. For exact driving current, an operational amplifier AD8602 with 80㎶ of input bias voltage, 0.2pA of bias current, and 80dB of PSRR is used in the constant-current source circuit.
In the light detection circuit, higher accuracy of measurement is provided by the difference in the light intensity from the light source (I0) and that passed through the sample (I). Here, a low noise operational amplifier OPA111 is used.
The technical characteristics of the device are as follows.
Measuring range: 0~200ppm
Relative error: Less than 0.4%FS
Relative standard deviation: Less than 1% (n=11)
At persent, the meter is in wide use at several disinfection stations.
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