Volatile organic compounds (VOCs) are widely used in various industrial processes and generate water pollutions. VOCs removal from raw water is an important task for waterworks to guarantee drinking water security. ...Volatile organic compounds (VOCs) are widely used in various industrial processes and generate water pollutions. VOCs removal from raw water is an important task for waterworks to guarantee drinking water security. The removal of VOCs such as chlorobenzene (CB) and ethylbenzene (EB) from raw water by air stripping was investigated under various conditions, inciuding the variation of temperature (5-30~C), pH (3.5-10.5), and air/water ratio (10-60). The air stripping removal efficiency of VOCs decreased with VOCs concentration declining in water. And Henry's law constant was demonstrated as an indicator of the estimation of VOCs removal efficiency for air stripping. The effects of temperature and the ratio of air and water were found to play a great role in VOCs removal, but the effect of pH seemed to be negligible. This study demonstrates that air stripping provides a promising opportunity in removing VOCs in drinking water treatment, especially for the relatively high concentration of VOCs.展开更多
利用能精确捕获水自由液面的VOF(Volume of fluid,体积百分比)法,建立挥发性化合物在无化学反应条件下的耦合扩散时空模型.用W*(分子拓扑指数)表征化合物分子结构,将化合物传质系数——Schmid数与W*进行关联,结合亨利常数、Schmidt数与W...利用能精确捕获水自由液面的VOF(Volume of fluid,体积百分比)法,建立挥发性化合物在无化学反应条件下的耦合扩散时空模型.用W*(分子拓扑指数)表征化合物分子结构,将化合物传质系数——Schmid数与W*进行关联,结合亨利常数、Schmidt数与W*的关联式,预测乙醇、苯、己醛与2,2,4-三甲基戊点源泄漏后的质量浓度时空分布,预测结果与试验吻合较好.烷基苯、醇、醛、烃类化合物的Schmidt数与W*0.25成线性关系.Schmidt数随分子间距减小而增大,烷基苯、醇、醛、烃类化合物在水中的Schmidt数约为空气中的600倍以上.相同W*的化合物,Schmidt数随分子量增加而增大.泄漏初期,亨利常数的作用高于Schmidt数,挥发强度随亨利常数的增加而增大,水中乙醇峰值浓度下降的平均速率仅是苯的45.1%;泄漏后期,Schmidt数起主要作用,挥发强度随Schmidt数减少而增大,苯的峰值浓度下降平均速率降低,乙醇峰值浓度下降平均速率比苯高120.0%.己醛的W*是2,2,4-三甲基戊的16.27倍,但二者的亨利常数和Schmidt数很接近,挥发迁移过程极其相似.展开更多
基金National High Technology Research and Development Program of China(863 program)(No.2008AA06A414)Major Science and Technology Proyran for Water Pollution Control and Treatment,China(No.2008ZX07421-003)
文摘Volatile organic compounds (VOCs) are widely used in various industrial processes and generate water pollutions. VOCs removal from raw water is an important task for waterworks to guarantee drinking water security. The removal of VOCs such as chlorobenzene (CB) and ethylbenzene (EB) from raw water by air stripping was investigated under various conditions, inciuding the variation of temperature (5-30~C), pH (3.5-10.5), and air/water ratio (10-60). The air stripping removal efficiency of VOCs decreased with VOCs concentration declining in water. And Henry's law constant was demonstrated as an indicator of the estimation of VOCs removal efficiency for air stripping. The effects of temperature and the ratio of air and water were found to play a great role in VOCs removal, but the effect of pH seemed to be negligible. This study demonstrates that air stripping provides a promising opportunity in removing VOCs in drinking water treatment, especially for the relatively high concentration of VOCs.
文摘利用能精确捕获水自由液面的VOF(Volume of fluid,体积百分比)法,建立挥发性化合物在无化学反应条件下的耦合扩散时空模型.用W*(分子拓扑指数)表征化合物分子结构,将化合物传质系数——Schmid数与W*进行关联,结合亨利常数、Schmidt数与W*的关联式,预测乙醇、苯、己醛与2,2,4-三甲基戊点源泄漏后的质量浓度时空分布,预测结果与试验吻合较好.烷基苯、醇、醛、烃类化合物的Schmidt数与W*0.25成线性关系.Schmidt数随分子间距减小而增大,烷基苯、醇、醛、烃类化合物在水中的Schmidt数约为空气中的600倍以上.相同W*的化合物,Schmidt数随分子量增加而增大.泄漏初期,亨利常数的作用高于Schmidt数,挥发强度随亨利常数的增加而增大,水中乙醇峰值浓度下降的平均速率仅是苯的45.1%;泄漏后期,Schmidt数起主要作用,挥发强度随Schmidt数减少而增大,苯的峰值浓度下降平均速率降低,乙醇峰值浓度下降平均速率比苯高120.0%.己醛的W*是2,2,4-三甲基戊的16.27倍,但二者的亨利常数和Schmidt数很接近,挥发迁移过程极其相似.
