水文地质工程地质
水文地質工程地質
수문지질공정지질
HYDROGEOLOGY AND ENGINEERING GEOLOGY
2009年
6期
99-103
,共5页
秦传玉%赵勇胜%李雨松%郑苇
秦傳玉%趙勇勝%李雨鬆%鄭葦
진전옥%조용성%리우송%정위
空气扰动%氯苯%修复%地下水
空氣擾動%氯苯%脩複%地下水
공기우동%록분%수복%지하수
air sparing%chlorobenzene%remediation%groundwater
通过实验室一维砂柱模拟研究了不同影响因素下空气扰动技术(air sparging,AS)修复氯苯污染地下水的效果,包括介质渗透性、曝气方式、共存污染物、残余饱和态氯苯.结果表明:介质渗透性极大地影响着AS的效果,渗透系数越大,去除效果越好.对渗透系数为10~(-5) m/s数量级及其以下的介质应用AS较为困难;在曝气时间相同的情况下,对于渗透系数为5.1×10~(-4) m/s的中砂,脉冲曝气较连续曝气效果好,对于渗透系数为6.2×10~(-3)m/s的粗砂,2种曝气方式效果相仿;苯和氯苯共存时各污染物的去除存在协同作用;AS对残余饱和态氯苯的去除存在着明显的拖尾效应.
通過實驗室一維砂柱模擬研究瞭不同影響因素下空氣擾動技術(air sparging,AS)脩複氯苯汙染地下水的效果,包括介質滲透性、曝氣方式、共存汙染物、殘餘飽和態氯苯.結果錶明:介質滲透性極大地影響著AS的效果,滲透繫數越大,去除效果越好.對滲透繫數為10~(-5) m/s數量級及其以下的介質應用AS較為睏難;在曝氣時間相同的情況下,對于滲透繫數為5.1×10~(-4) m/s的中砂,脈遲曝氣較連續曝氣效果好,對于滲透繫數為6.2×10~(-3)m/s的粗砂,2種曝氣方式效果相倣;苯和氯苯共存時各汙染物的去除存在協同作用;AS對殘餘飽和態氯苯的去除存在著明顯的拖尾效應.
통과실험실일유사주모의연구료불동영향인소하공기우동기술(air sparging,AS)수복록분오염지하수적효과,포괄개질삼투성、폭기방식、공존오염물、잔여포화태록분.결과표명:개질삼투성겁대지영향착AS적효과,삼투계수월대,거제효과월호.대삼투계수위10~(-5) m/s수량급급기이하적개질응용AS교위곤난;재폭기시간상동적정황하,대우삼투계수위5.1×10~(-4) m/s적중사,맥충폭기교련속폭기효과호,대우삼투계수위6.2×10~(-3)m/s적조사,2충폭기방식효과상방;분화록분공존시각오염물적거제존재협동작용;AS대잔여포화태록분적거제존재착명현적타미효응.
A one-dimensional column was installed to study chlorobenzene removal effect on groundwater with different influencing factors, including medium permeability, air injection mode, coexisting contaminant and residual saturated chlorobenzene. The results show that medium permeability greatly affects AS remediation efficiency. The bigger the hydraulic conductivity is, the better the removal efficiency is. It is difficult to use AS in medium with hydraulic conductivity of less than 10~(-5) m/s. In the same operating time, pulsed air injection has advantages over continuous air injection for medium sand with hydraulic conductivity of 5.1 ×10~(-4) m/s, while the effects of two air injection modes are similar for coarse sand with hydraulic conductivity of 6.2 ×10~(-3) m/s. There is synergistic effect of co-contaminant benzene and chlorobenzene on the removal efficiency. There is a clear tailing effect when AS remediates residual saturated chlorobenzene.