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李志华

博士生导师
硕士生导师
教师姓名:李志华
教师拼音名称:lizhihua
所在单位:环境与市政工程学院
职务:环境学院党委委员,环境学院副院长
学历:博士研究生毕业
性别:男
联系方式:邮箱 : lizhihua@xauat.edu.cn 工作电话 : 029-82202729
学位:博士学位
职称:教授
在职信息:在职
主要任职:《工业水处理》杂志第七届编委会委员
其他任职:青岛国际水大会组织委员会专家委员会委员
毕业院校:日本九州大学
学科:环境工程    
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论文成果
EFFECT OF ROTIFERS ON THE STABILITY OF AEROBIC GRANULES
发布时间:2024-08-09    点击次数:

所属单位:环境与市政工程学院

发表刊物:Environmental Technology

关键字:中文关键字:好氧颗粒污泥,好样颗粒,英文关键字:Aerobic granular sludge, aerobic granule, extracel

摘要:with airflow rates of 4 (R1) and 6 (R2) l min-1, respectively, were used to develop aerobic granules. Granules were well developed with excellent settleability in terms of SVI30 (sludge volume index,) of about 50 ml g-1 in both reactors at the beginning. With the outgrowth of rotifers, granules completely disintegrated in R1 around cycle 500 (a cycle was 3 hours). However, after the rotifers disappeared, i.e. cycle 550, granules re-appeared with a slow settling rate in R1 (SVI30: 200-300 ml g-1). The rotifers mechanically damaged the structure of granules, resulting in disintegration. However, granules developed under high shear force seem to have strong resistance to rotifers. During re-granulation, a long time lag between the improvements of morphology and settleability suggested that re-granulation resulted from entanglement more than bioattachment or bio-growth. Additionally, it was confirmed that the ratio of carbohydrate to protein extracellular polymeric substances (EPS) could well indicate the strength of granules. Protein EPS well correlated with the difference between SVI5 and SVI30 in R1, therefore, decreasing protein EPS would increase the compactness of granules.

备注:王晓昌

第一作者:王晓昌,李志华

论文类型:期刊论文

卷号:卷:28

期号:期:

页面范围:页:235-242

是否译文:

发表时间:2008-11-01