摘要
采用间歇试验,接种驯化两月的厌氧混合微生物,考察厌氧体系中添加零价铁(Fe0)对2,4-二氯酚(2,4-DCP)生物还原脱氯效果的影响,并对影响"Fe0+微生物"体系的一些因素进行了探索。结果显示:与零价铁或微生物的单独作用相比,"Fe0+微生物"体系能够有效促进2,4-DCP的脱氯反应,最佳Fe0投加量和微生物接种量分别为0.5g/L和376.2mgVSS/L;初始pH=8.0对2,4-DCP的转化效果最好,偏酸性环境不利于污染物转化;微生物接种量与铁用量之间有一适宜比例,一定范围内增加微生物接种量可催生出更多可降解污染物的酶或酶系,提高2,4-DCP的降解效果。
A batch laboratory test was conducted to examine the effect of biological reductive dechlorination of 2,4-Dichlorophenol(2,4-DCP) by the addition of zero-valent iron(Fe^O) in the anaerobic system, through inoculating the anaerobic mixed microorganism acclimated for two months. Meanwhile, several factors that affected "Fe^O+microbe" system were also being discussed. The results showed that, "Fe^O+microbe" system accelerated the biological dechlorination of 2,4-DCP effectively compared to the individual use. The optimum quantity of added Fe^O and inoculation was 0.5 g/L and 376.2 mgVSS/L in the combined system respectively. It showed the most effective transformation efficiency for 2,4-DCP when initial pH=8.0, whereas it become weaker when initial pH are keeping in acid condition. There existed a proportion between quantity of added Fe^O and inoculation. It enhanced degradable tity of inoculation at suitable ranges, which generated effect of 2,4-dichlorophenol when increased the quan- more enzyme or enzymatic series degraded pollutant.
出处
《微生物学通报》
CAS
CSCD
北大核心
2008年第3期332-335,共4页
Microbiology China
关键词
2
4-二氯酚
零价铁
生物还原脱氯
2,4-Dichlorophenol, Zero-valent Iron, Biological reductive dechlorination
