农业环境科学学报
農業環境科學學報
농업배경과학학보
Journal of Agro-Environment Science
2015年
6期
1115-1120
,共6页
王雄科%向垒%郑美洁%莫测辉%李彦文%赵海明%蔡全英%李慧
王雄科%嚮壘%鄭美潔%莫測輝%李彥文%趙海明%蔡全英%李慧
왕웅과%향루%정미길%막측휘%리언문%조해명%채전영%리혜
季胺盐化合物%吸附%土柱淋溶%水稻土%有机污染物
季胺鹽化閤物%吸附%土柱淋溶%水稻土%有機汙染物
계알염화합물%흡부%토주림용%수도토%유궤오염물
quaternary ammonium compounds%sorption%soil column leaching%paddy soil%organic pollutants
通过吸附批处理实验及土柱淋溶实验,探讨了3种典型季胺盐化合物(QACs)十二烷基三甲基氯化胺(DTAC)、十六烷基三甲基溴化胺(CTAB)及双十二烷基二甲基氯化胺(DDAC)在水稻土中的吸附和淋溶行为。结果表明,QACs(20 mg·L-1)的吸附过程符合拟二级动力学方程(R2>0.995),其有机碳分配系数(Koc)为3056~36245 mL·g-1,与其分子量及碳链长度显著正相关(P<0.01),即其吸附性能强弱为DDAC>CTAB>DTAC。DDAC和CTAB为易吸附型污染物,DTAC为中等吸附型污染物。中性淋溶条件(pH=7)下, QACs(20 mg·kg-1)难被淋溶,土柱淋溶率为27%~41%,与其分子量及碳链长度显著负相关(P<0.01);酸性淋溶(pH=4)及去除土壤有机质条件下,QACs的淋溶能力均大幅提高,土柱淋溶率分别为42%~63%及58%~74%。
通過吸附批處理實驗及土柱淋溶實驗,探討瞭3種典型季胺鹽化閤物(QACs)十二烷基三甲基氯化胺(DTAC)、十六烷基三甲基溴化胺(CTAB)及雙十二烷基二甲基氯化胺(DDAC)在水稻土中的吸附和淋溶行為。結果錶明,QACs(20 mg·L-1)的吸附過程符閤擬二級動力學方程(R2>0.995),其有機碳分配繫數(Koc)為3056~36245 mL·g-1,與其分子量及碳鏈長度顯著正相關(P<0.01),即其吸附性能彊弱為DDAC>CTAB>DTAC。DDAC和CTAB為易吸附型汙染物,DTAC為中等吸附型汙染物。中性淋溶條件(pH=7)下, QACs(20 mg·kg-1)難被淋溶,土柱淋溶率為27%~41%,與其分子量及碳鏈長度顯著負相關(P<0.01);痠性淋溶(pH=4)及去除土壤有機質條件下,QACs的淋溶能力均大幅提高,土柱淋溶率分彆為42%~63%及58%~74%。
통과흡부비처리실험급토주림용실험,탐토료3충전형계알염화합물(QACs)십이완기삼갑기록화알(DTAC)、십륙완기삼갑기추화알(CTAB)급쌍십이완기이갑기록화알(DDAC)재수도토중적흡부화림용행위。결과표명,QACs(20 mg·L-1)적흡부과정부합의이급동역학방정(R2>0.995),기유궤탄분배계수(Koc)위3056~36245 mL·g-1,여기분자량급탄련장도현저정상관(P<0.01),즉기흡부성능강약위DDAC>CTAB>DTAC。DDAC화CTAB위역흡부형오염물,DTAC위중등흡부형오염물。중성림용조건(pH=7)하, QACs(20 mg·kg-1)난피림용,토주림용솔위27%~41%,여기분자량급탄련장도현저부상관(P<0.01);산성림용(pH=4)급거제토양유궤질조건하,QACs적림용능력균대폭제고,토주림용솔분별위42%~63%급58%~74%。
Sorption and leaching behaviors of three typical quaternary ammonium compounds(QACs), i.e. dodecyl trimethyl ammonium chloride(DTAC), cetyl trimethyl ammonium bromide(CTAB), and didecyl dimethyl ammonium chloride(DDAC), in paddy soil were inves-tigated using batch sorption and soil column leaching experiments. Sorption kinetics of three QACs followed pseudo-second-order kinetics. The organic carbon partition coefficients(Koc)of these QACs, ranging from 3056 mL·g-1 to 36 245 mL·g-1, had significantly positive rela-tionship with their molecular weight and carbon chain lengths, indicating that the sorption of QACs decreased in order of DDAC>CTAB>DTAC. DDAC and CTAB were pollutants with high sorption abilities, while DTAC with moderate sorption ability. In leaching water of pH7, three QACs had low leaching abilities, with leaching rates ranging from 27%~41% and being negatively correlated with their molecular weight and carbon chain lengths. Migration of three QACs(20 mg·kg-1)significantly enhanced in acidic leaching water(pH=4)and organic matter-removed paddy soil, with leaching rates ranging from 42%~63%and 58%~74%, respectively.