摘要
利用批量实验对从高浓度味精废水中筛选出的一组酵母菌混合菌群进行了脱氢酶活性 (DHA)测试 .结果表明用该菌群对COD、硫酸根和氨氮均接近 2 0 0 0 0mg/L的味精离交尾液进行处理时 ,其DHA值在前 3 6h高于对离交尾液稀释液的处理 ,说明高浓度氨氮和硫酸盐对酵母菌活性的影响不显著 .利用接种了该酵母菌群的生物接触氧化反应器对味精废水进行的连续小试处理结果表明 ,COD容积负荷 2 0~ 1 4 3kg/(m3·d)时 ,COD去除率稳定在 80 %以上 ;适当地补充磷源有利于维持稳定的处理效果 .对出水 pH值和COD去除率的关系进行了探索 ,发现pH值对COD的去除影响并不大 ,而酵母菌生长的最佳 pH值为 3 5~ 5 0 .处理后的出水SS升高 ,其中含有大量的酵母菌体 ,成分分析结果表明菌体蛋白含量为 5 7 9% ,氨基酸分布均衡 。
Dehydrogenation activity(DHA), test indicated that mixed yeast strains isolated from high strength monosodium glutamate wastewater could endure the high concentrations of COD, SO 2- 4, and NH + 4 containing in glutamate wastewater. The mixed yeast strains were inoculated to a biological contact oxidation reactor, and the reactor was used to treat the glutamate wastewater. Under a COD load ranging from 2 0 to 14 3kg/(m 3·d), the COD removal rate was over 80%. On the other hand, supplementation of phosphorus was necessary to maintain a stable COD removal performance. Variation of effluent pH seemed to have no apparent influence on COD removal rate. The optimum pH for the growth of yeast, however, was found to be in the range of 3 5~5 0. The effluent wastewater contained high concentration of yeast bodies, which could be utilized as a forage additive because of its high protein content (57 9%) and well balanced amino acid distribution.
出处
《环境科学》
EI
CAS
CSCD
北大核心
2002年第4期62-66,共5页
Environmental Science
基金
国家自然科学基金资助项目 (5 0 0 780 5 3)
关键词
酵母菌
高浓度
味精废水
连续小试
废水处理
yeast
monosodium glutamate wastewater
dehydrogenase activity
hydrolysis biological contact oxidation
laboratory scale treatment
