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氢氧化钠活化制备活性炭及对高氟高COD废水吸附实验研究

李兰廷李冠庥黄澎

煤质技术2025，Vol.40Issue(6)：47-54,8.

煤质技术2025，Vol.40Issue(6)：47-54,8.DOI:10.3969/j.issn.1007-7677.2025.06.006

氢氧化钠活化制备活性炭及对高氟高COD废水吸附实验研究

Study on adsorption experiment of high fluorine and high COD wastewater by preparing activated carbon with NaOH activation method

李兰廷 ¹李冠庥 ²黄澎¹

作者信息

1. 煤炭科学技术研究院有限公司,北京 100013||国家能源煤炭高效利用与节能减排技术装备重点实验室,北京 100013||中国煤科低碳技术研究院,北京 100013
2. 北京第二外国语学院,北京 100024
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摘要

Abstract

Wastewater containing organic pollutants has poor biodegradability and is difficult to treat,and wastewater containing fluoride is even more difficult to manage.Both of them are highly polluted and difficult to treat wastewater,which causes a threat to the environment and human health.Currently,there is no targeted treatment methods for wastewater containing high concentration of fluoride ions and high concentration of organic pollutants.In this paper,coal-based activated carbon was prepared by NaOH activation method,and the static and dynamic adsorption removal experiments of high fluorine and high COD waster were carried out by using adsorption method to investigate the pore structure and surface properties of activated carbon and the removal effect of activated carbon on heavy metals,fluor-ide ions and COD in wastewater.The results showed that the activated carbon prepared by NaOH activation method has micropores,mesopores and acidic groups,and the activated carbon has good adsorption effect on metal ions,COD and fluoride ions in wastewater.The static adsorption experiment shows that the adsorption of pollutants in wastewater by activated carbon mainly occurs within the first 90 min of contact between carbon wastewater,and then the adsorption capacity decreases significantly,with a saturated adsorption capacity of 90.9 mg/g for COD and 2.44/g for fluoride ions.The dynamic adsorption experiment showed that the activated carbon preferentially adsorbed heavy metal and fluoride ions and the adsorption capacity for COD and fluoride ions was lower than its static adsorption satu-ration capacity,and the COD pollutant penetrated first at about 480 min of operation,and the fluoride ion had also penetrated after 600 min of operation.It is recommended that the activated carbon adsorption column should be regen-erated at 30～60 min of operation in engineering application.

关键词

氢氧化钠活化/活性炭/氟/高COD废水/吸附实验/孔隙结构/表面性质/吸附容量

Key words

NaOH activator/activated carbon/fluoride ion/high COD wastewater/adsorption experiment/pore structure/surface property/adsorption capacity

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引用本文复制引用

李兰廷,李冠庥,黄澎..氢氧化钠活化制备活性炭及对高氟高COD废水吸附实验研究[J].煤质技术,2025,40(6):47-54,8.

基金项目

中国煤科集团重点基金资助项目(2024-TD-ZD021-03) （2024-TD-ZD021-03）

煤质技术

ISSN：1007-7677

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