| ZHOU Kunpeng,LIU Zhiyang,CONG Menglong,,MAN Shanxin.Analysis on influencing factors of detecting chemical oxygen demand in water by three-dimensional spectroscopy[J].Optoelectronics Letters,2024,(1):42-47 |
| Analysis on influencing factors of detecting chemical oxygen demand in water by three-dimensional spectroscopy |
| Author Name | Affiliation | | ZHOU Kunpeng | Inner Mongolia Autonomous Region Joint Laboratory of Nuclear and Radiation Detection, College of Physics and Electronic Information, Inner Mongolia Minzu University, Tongliao 028000, China | | LIU Zhiyang | College of Information Engineering, Jingzhou University, Jingzhou 434000, China | | CONG Menglong | Inner Mongolia Autonomous Region Joint Laboratory of Nuclear and Radiation Detection, College of Physics and Electronic Information, Inner Mongolia Minzu University, Tongliao 028000, China | | ,MAN Shanxin | Alxa League Meteorological Bureau, Alxa 750300, China |
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| Abstract: |
| This paper focuses on the standard chemical oxygen demand (COD) liquid and studies the impact of pH, nitrite nitrogen, nitrate nitrogen, heavy metals, salinity, and other factors on fluorescence intensity and fluorescence peak positions during the detection of COD in water using fluorescence spectrometry. The influence mechanisms of different environmental factors on fluorescence spectra are also analyzed. Results indicate that pH value affects the fluorescence emission wavelength (Em), resulting in a red shift from 1.5 to 7.2, and a blue shift from 7.2 to 12.3. Nitrate nitrogen can react with organic matter in water to form nitro compounds, leading to a decrease in fluorescence intensity. Salinity has a negligible effect on T1 peak but a relatively large effect on T2 peak. Heavy metal ion concentration has a significant impact on T2 peak, while T1 peak position shifts with an increase in heavy metal ions. This study aims to explore the factors that can impact the detection of COD in water using three-dimensional fluorescence spectrometry, providing references to improve accuracy and practicability for COD detection based on three-dimensional fluorescence spectrometry. |
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