Acridine orange resonance scattering spectrometry for rapid determination of trace chlorite in water

doi:10.11894/1005-829x.2016.36(9).089

INDUSTRIAL WATER TREATMENT ›› 2016, Vol. 36 ›› Issue (9): 89-91. doi: 10.11894/1005-829x.2016.36(9).089

Previous Articles Next Articles

Acridine orange resonance scattering spectrometry for rapid determination of trace chlorite in water

Ling Shaoming, Ouyang Huixiang, Chen Shengyu, Xie Yuqi

College of Chemistry and Environment Engineering, Baise University, Baise 533099, China

Received:2016-06-23 Online:2016-09-20 Published:2016-09-27

吖啶橙共振散射光谱法快速测定水中痕量亚氯酸根

凌绍明, 欧阳辉祥, 陈盛余, 谢宇奇

百色学院化学与环境工程学院, 广西百色 533099

作者简介:凌绍明(1963-),教授。E-mail:15007769986@163.com。
基金资助:
桂西区域生态环境分析和污染控制广西高校重点实验室资助（桂教科研[2014]6号）

Abstract

Abstract:

In the presence of hydrochloride medium,I^- has been oxidized by chlorite, forming I₂,Then it is combined with excessive I^-,forming anion I₃^-. In the system,mixing positive charged acridine orange(AO) with I₃^- forms an association fine particle under the action of electrostatic force,and results in the enhancement of resonance scattering intensity of the system. Based on these,a new method for the determination of chlorite in water by resonance scattering spectrometry is developed. The influences of the factors, such as the dosages of KI,AO,etc. on the system are investigated. Under the optimized experimental conditions,the mass concentrations of chlorite is in the range of 7.18×10^-4-0.114 mg/L,and have good linear relationship with ΔIRS The linear equation of the method is ΔI_RS=870.39ρ+9.273 9,the related coefficient(R²) is 0.992 7,and the detection limit(3σ) is 1.8×10^-4 mg/L.

Key words: chlorite, acridine orange, resonance scattering spectrometry, association fine particle

摘要：

在盐酸介质条件下，I-被亚氯酸根氧化成I₂，I₂再与过量的I-形成阴离子I₃^-。体系中带正电荷的吖啶橙（AO）与I₃^-在静电力的作用下形成缔合物微粒，导致体系的共振散射强度增强，据此建立了一种用共振散射光谱法测定水中亚氯酸根的新方法。研究了碘化钾和AO用量等因素对体系的影响，优化了实验条件。在最佳实验条件下，亚氯酸根质量浓度在7.18×10^-4~0.114 mg/L范围内与ΔIRS呈良好的线性关系。该方法的线性方程为ΔI_RS=870.39ρ+9.273 9，相关系数（R²）为0.992 7，检出限（3σ）为1.8×10^-4 mg/L。

关键词: 亚氯酸根, 吖啶橙, 共振散射光谱法, 缔合微粒

CLC Number:

Ling Shaoming, Ouyang Huixiang, Chen Shengyu, Xie Yuqi. Acridine orange resonance scattering spectrometry for rapid determination of trace chlorite in water[J]. INDUSTRIAL WATER TREATMENT, 2016, 36(9): 89-91.

凌绍明, 欧阳辉祥, 陈盛余, 谢宇奇. 吖啶橙共振散射光谱法快速测定水中痕量亚氯酸根[J]. 工业水处理, 2016, 36(9): 89-91.

/ / Recommend / Download Citations

URL: https://www.iwt.cn/EN/10.11894/1005-829x.2016.36(9).089

https://www.iwt.cn/EN/Y2016/V36/I9/89

[1]	Nianhua HUANG, Silin HUANG, Hongye LU, Lu MA, Shaoming LING. Determination of chlorite in water by resonance scattering spectrometry with Methylene blue [J]. Industrial Water Treatment, 2024, 44(6): 198-202.
[2]	Zhuangzhuang LIU, Yuchao TANG, Changnian WU, Liping XUE, Yuan CHEN, Lili CAI, Jun LIU. Study of low temperature-sodium hypochlorite on sludge reduction and biodegradability [J]. Industrial Water Treatment, 2023, 43(4): 105-112.
[3]	Li YIN, Chunmei YUE, Jianying FEI. Research and application of wastewater zero discharge process in gas power plant [J]. Industrial Water Treatment, 2022, 42(6): 193-197.
[4]	Jie PENG, Yonggang TIAN, Junjun MA, Ronghua HE. Optimization of produced water containing fracturing flowback fluid treatment process [J]. Industrial Water Treatment, 2022, 42(5): 157-162.
[5]	Lei HUANG, Yefang LIU, Xiaonan LE, Ruimin HUANG. Treatment of high nitrogen wastewater by coagulation－iron carbon microelectrolysis－sodium hypochlorite oxidation process [J]. Industrial Water Treatment, 2022, 42(4): 125-131.
[6]	Yunbo Zhang,Yifan Wang,Hongbo Wang. Research progress in preparation of green water treatment agent potassium ferrate [J]. Industrial Water Treatment, 2020, 40(11): 10-14.
[7]	Shao Xiangwen, Zhang Tingting, Ai Cuiling, Xu Junge. Research on sodium hypochlorite for the desulphurization and sterilization in reinjection water of an oil field [J]. INDUSTRIAL WATER TREATMENT, 2019, 39(4): 86-88.
[8]	Zou Shuang, Shan Xuliang, Tang Jie, Cui Haisong, Zou Heping. Experimental research on the treatment of sand-filtered water by the combined process US/UV-sodium hypochlorite disinfection [J]. INDUSTRIAL WATER TREATMENT, 2018, 38(2): 31-35.
[9]	Chen Sili, Chang Sha, Sun Lan, Zhang Zhengke, Huang Dawei, Chen Yao, Bing Yongxin, Zeng Shengke, Wang Wenjing. Experimental research on the removal of ammonia nitrogen pollution and a summary on engineering operation [J]. INDUSTRIAL WATER TREATMENT, 2018, 38(12): 28-30,34.
[10]	Sun Mengmeng, Liu Lizhong, Sun Tonghua, Jia Jinping. Research on the advanced treatment methods for highly concentrated ammonia nitrogen in electroplating wastewater [J]. INDUSTRIAL WATER TREATMENT, 2018, 38(11): 78-81.
[11]	Zhao Shuang, Wang Xiaojun, Yang Yongyuan. Experimental research on the chemical treatment of wastewater containing low content of nitrate nitrogen by zero-valent iron and sodium hypochlorite [J]. INDUSTRIAL WATER TREATMENT, 2018, 38(1): 79-82.
[12]	Xie Yuqi, Ling Shaoming, Mo Qiuping, Liang Pingping. Determination of trace amount of chlorite by Phenosafranine resonance scattering spectrometry [J]. INDUSTRIAL WATER TREATMENT, 2018, 38(1): 90-93.
[13]	Yang Fan, Lu Xuemei, Liu Zhiying, Xu Yanhua, Shen Lina, Ji Yekun. Combined process of sodium hypochlorite oxidation and ferric salt precipitation for treating glyphosate in wastewater [J]. INDUSTRIAL WATER TREATMENT, 2017, 37(5): 30-33,34.
[14]	Wang Lina, Liu Xia, Zhang Lei, Liu Pu, Fu Benquan. Experimental research on the advanced treatment of coking wastewater by polyferric sulfate coagulation combined with calcium hypochlorite oxidation [J]. INDUSTRIAL WATER TREATMENT, 2016, 36(2): 55-58.
[15]	Zhu Lei, Cao Zhen, Yan Zhengchu, Hua Xiuyi, Dong Deming, Sun Wentian, Liang Dapeng, Guo Zhiyong. Research on the pre-treatment of acetylene purification wastewater by sodium hypochlorite oxidation method [J]. INDUSTRIAL WATER TREATMENT, 2016, 36(1): 34-37.

Please choose a citation manager

Content to export

Acridine orange resonance scattering spectrometry for rapid determination of trace chlorite in water

吖啶橙共振散射光谱法快速测定水中痕量亚氯酸根

Knowledge

Cited

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics

Comments

模态框（Modal）标题

Please choose a citation manager

Content to export

Acridine orange resonance scattering spectrometry for rapid determination of trace chlorite in water

吖啶橙共振散射光谱法快速测定水中痕量亚氯酸根

Knowledge

Cited

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics

Comments