• 关键词：臭氧强化光催化  天然有机物  相对分子质量变化

• 基金项目：国家高技术研究发展计划(863计划)资助项目(No.2002AA601250)

• 简丽
• 清华大学环境科学与工程系, 北京 100084

• 张彭义
• 清华大学环境科学与工程系, 北京 100084

• 毕海
• 清华大学环境科学与工程系, 北京 100084

• 摘要：研究了饮用水源中大分子天然有机物(NOM)的臭氧强化光催化降解,考察了臭氧投加量、反应时间和HCO₃^-浓度对NOM降解速率的影响;分析了臭氧强化光催化过程中NOM相对分子质量的变化,并比较不同相对分子质量大小NOM的降解速率.研究结果表明,臭氧强化光催化比单独臭氧氧化、光催化能更有效地降解NOM,同时增加臭氧投加量和反应时间才能有效提高臭氧强化光催化对TOC的去除率,而单独增加臭氧投加量可显著提高生物可降解性;HCO₃^-显著降低光催化的降解效果,臭氧强化光催化能有效地减弱HCO₃^-的不利影响;臭氧强化光催化过程中大分子NOM分解为小分子,SUVA值迅速下降,且相对分子质量越大矿化速度越快.

• Abstract：Ozone-enhanced photocatalytic degradation of macromolecular natural organic matter (NOM) in drinking water source was investigated. The influences of ozone dosage, reaction time and bicarbonate concentration on NOMdegradation rate were studied. The change of molecular weight distribution of NOMcaused by ozone-enhanced photocatalysis was analyzed, as well as the degradation rate of NOMwith different molecular weight. It was showed that, ozone-enhanced photocatalysis was much better than sole ozonation or photocatalysis for NOMdegradation. Increase of both ozone dosage and reaction time could effectively increase TOCremoval rate, while the biodegradability could be improved by increase of ozone dosage solely. The existence of bicarbonate significantly reduced the photocatalytic degradation rate of NOM, however its impact was effectively offset by addition of ozone into the photocatalytic process. Macromolecular NOMwas transformed into smaller molecules, and the larger NOMwas much faster mineralized than smaller NOMby ozone-enhanced photocatalysis.

• Key words：ozone-enhanced photocatalysis  natural organic matter  change of molecular weight

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