Study on the influence and mechanism of sodium chlorate on COD reduction of minerals processing wastewater

•NaClO3 can effectively reduce the COD of minerals processing wastewater.•NaClO3 does not react with reducing substances under the experimental conditions.•NaClO3 reacts with reducing substances only under the COD measurement conditions.•NaClO3 can interfere with COD measurement and make the result...

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Bibliographic Details
Published in:Minerals engineering 2019-04, Vol.134, p.1-6
Main Authors: Meng, Xiangsong, Khoso, Sultan Ahmed, Lyu, Fei, Wu, Jiangqiu, Kang, Jianhua, Liu, Hang, Zhang, Qingpeng, Han, Haisheng, Sun, Wei, Hu, Yuehua
Format: Article
Language:English
Subjects:
COD
COD measurement method
Minerals processing wastewater
Sodium chlorate
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Summary:•NaClO3 can effectively reduce the COD of minerals processing wastewater.•NaClO3 does not react with reducing substances under the experimental conditions.•NaClO3 reacts with reducing substances only under the COD measurement conditions.•NaClO3 can interfere with COD measurement and make the result low.•The government should revise the present COD measurement method. In current COD measurement method, we found that sodium chlorate (NaClO3) can effectively reduce the chemical oxygen demand (COD) of minerals processing wastewater (MPW). However, the reduction in COD via the present COD method was only achieved through the interference of NaClO3 with COD measurement. A series of laboratory-scale experiments demonstrated that the COD reduction is independent of NaClO3 reaction time, reaction pH and reaction temperature, but only related to NaClO3 dosage, and a higher NaClO3 dosage leads to a lower COD. Results further showed that the addition of NaClO3 didn’t affect the initial concentration of the total organic carbon, chloride ions and the benzohydroxamic acid (BHA); their concentration remained unchanged after the addition of NaClO3. Moreover, the residual concentration of NaClO3 also remained same as the initial value. However, COD in both MPW and BHA solution decreased. Furthermore, when added reducing agent to consume the residual NaClO3 before COD measurement, and then the COD was determined to return to its initial value. All these observations clearly shown that NaClO3 doesn’t react with the reducing substances in wastewater under the experimental conditions; it only reacts with reducing substances under the COD measurement conditions. From all these evidences, we concluded that NaClO3 can interfere with the determination of COD. In fact, the interference of NaClO3 is not specified in the standard method, which is a defect of the present COD measurement method. Residual NaClO3 remains in wastewater may cause secondary pollution to the environment. This study, therefore, suggest the government revise and improve the COD measurement method in order to avoid the interference of NaClO3 and prevent the industrial use of NaClO3 for COD reduction of wastewater.
ISSN:0892-6875
1872-9444
DOI:10.1016/j.mineng.2019.01.009