首页|期刊导航|环境工程学报|臭氧微纳米气泡氧化与粉末活性炭吸附联合工艺去除饮用水中嗅味物质

臭氧微纳米气泡氧化与粉末活性炭吸附联合工艺去除饮用水中嗅味物质

邓秋金卢志枫陈奔陈飒梁祺峰宋楚琪杨秋健贾妍艳吕慧

环境工程学报2026，Vol.20Issue(3)：742-751,10.

环境工程学报2026，Vol.20Issue(3)：742-751,10.DOI:10.12030/j.cjee.202507110

臭氧微纳米气泡氧化与粉末活性炭吸附联合工艺去除饮用水中嗅味物质

Removal of taste and odor compounds from drinking water by the combined process of ozone micro-nano bubble oxidation and powdered activated carbon adsorption

邓秋金 ¹卢志枫 ²陈奔 ¹陈飒 ³梁祺峰 ³宋楚琪 ³杨秋健 ²贾妍艳 ⁴吕慧¹

作者信息

1. 中山大学环境科学与工程学院,广州 510275
2. 桂林理工大学,广西环境污染控制理论与技术重点实验室,桂林 541006
3. 中山公用水务投资有限公司,中山 528400
4. 中山大学生态学院,深圳 518107
折叠

摘要

Abstract

Aiming at the low removal efficiency of conventional processes for algal-derived taste and odor compounds(2-methylisoborneol,2-MIB and geosmin,GSM)and algal pollution in drinking water sources,this study systematically investigated the removal efficiencies of ozone micro-nano bubbles(O3-MNBs)oxidation and powdered activated carbon adsorption,both individually and in combination,for 2-MIB,GSM,and algal cells in drinking water source water.The results showed that O3-MNBs pre-oxidation of raw drinking water source water efficiently degraded taste and odor compounds(removal rate>97.5%at 400 ng·L-1)and damaged algal cells(removal rate of 67.2%in 30 min).When used as an advanced treatment stage,the degradation rate constant(k)was 10.1%to 25.6%faster than in the pre-oxidation process due to lower background matrix interference.In both cases,using O3-MNBs as either pre-oxidation or advanced treatment reduced the effluent concentrations of both 2-MIB and GSM below 10 ng·L-1,and the oxidation processes followed pseudo-first-order kinetics(R2>0.95).Furthermore,the adsorption of 2-MIB and GSM by powdered activated carbon followed pseudo-second-order kinetics(R2>0.99).The equilibrium adsorption capacity for GSM was approximately 20.0%higher than that for 2-MIB,and the adsorption capacity in pure water systems increased by over 10.0%compared to that in raw water.Based on kinetic models,a quantitative prediction method for the O3-MNBs oxidation and powdered activated carbon adsorption processes were established,aiming to achieve efficient removal of taste and odor compounds and cost optimization,thereby providing theoretical support for advanced drinking water purification and the construction of intelligent water treatment plants.

关键词

臭氧微纳米气泡/粉末活性炭/嗅味物质/藻类细胞/动力学

Key words

ozone micro-nano bubbles/powdered activated carbon/taste and odor compounds/algal cells/kinetics

分类

资源环境

引用本文复制引用

邓秋金,卢志枫,陈奔,陈飒,梁祺峰,宋楚琪,杨秋健,贾妍艳,吕慧..臭氧微纳米气泡氧化与粉末活性炭吸附联合工艺去除饮用水中嗅味物质[J].环境工程学报,2026,20(3):742-751,10.

基金项目

国家自然科学基金资助项目(52131001) （52131001）

广州市科技计划项目(2024A04J4372) （2024A04J4372）

中山公用水务投资有限公司基于微纳米气泡氧化的深度处理研究(HT-99982023-0800) （HT-99982023-0800）

环境工程学报

ISSN：1673-9108

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