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| 絮凝过程中的高密度微分场理论及其应用研究 | |
| 引用本文: | 杨少华,黄继国,刘壮,陈鸿汉.絮凝过程中的高密度微分场理论及其应用研究[J].中国给水排水,2006,22(19):78-81. |
| 作者姓名: | 杨少华 黄继国 刘壮 陈鸿汉 |
| 作者单位: | 1. 中国地质大学,环境工程系,北京,100081;长春市水务集团,吉林,长春,130000 2. 吉林大学,环境工程系,吉林,长春,130026 3. 中国地质大学,环境工程系,北京,100081 |
| 摘 要: | 首次提出强化絮凝过程的高密度微分场理论,运用该理论设计了微分旋流絮凝池,并对其进行了生产性试验;此外还分析了传统絮凝池和微分旋流絮凝池中的微分场特性。结果表明,与目前水厂运行的絮凝池相比,在原水浊度为60~320NTU时,经8min的絮凝、15min的沉淀后,微分旋流絮凝反应池可使浊度降至2NTU以下,絮凝时间减小了近50%或更多,说明该絮凝池具有混凝速度快、絮凝效果好的优势。 |
| 关 键 词: | 絮凝 高密度微分场 梯度场 惯性场 |
| 文章编号: | 1000-4602(2006)19-0078-04 |
| 收稿时间: | 2006-04-22 |
| 修稿时间: | 2006-04-22 |
Study on High Density Micro-vortex Field Theory and Application in the Process of Flocculation |
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| YANG Shao-hua,HUANG Ji-guo,LIU Zhuang,CHEN Hong-han.Study on High Density Micro-vortex Field Theory and Application in the Process of Flocculation[J].China Water & Wastewater,2006,22(19):78-81. | |
| Authors: | YANG Shao-hua HUANG Ji-guo LIU Zhuang CHEN Hong-han |
| Affiliation: | 1. Department of Environmental Engineering, China University of Geosciences, Beijing 100081, China; 2. Changchun Water Group Co. , Changchun 130000, China; 3. Department of Environmental Engineering, Jilin University, Changchun 130026, China |
| Abstract: | A high density micro-vortex field theory of strengthening the flocculation process was presented for the first time. Based on this theory, a micro-vortex flocculation tank was designed for conducting a full scale experiment on its production. Moreover, the characteristics of the traditional flocculation tank and the introduced micro-vortex flocculation tank were analyzed in detail. The results show that the micro-vortex flocculation tank can decrease the turbidity to below 2 NTU when the raw water turbidity is 60-320 NTU, the flocculation time is 8 minutes and the sedimentation time is 15 minutes, which means that the flocculation time has reduced by more than 50% compared with the current flocculation tank operated in the water plant. It is concluded that the micro-vortex tank has the advantage of quick and effective flocculation. |
| Keywords: | flocculation high density micro-vortex field gradient field inertia field |
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