Effects of Water Depth on Algae Control in Stratified Reservoirs using In-situ Water-lifting Aeration Technology

机译：利用原位水提升曝气技术对分层储层藻类对藻类控制的影响

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Flow outside the water-lifting aerator was simulated with FLUENT software, and the effects of water depth on the in-situ algal growth control using water-lifting aeration technology was numerically analyzed. Under stable state of flow outside the water-lifting aerator, the clockwise flow near the inlet and counter-clockwise flow in other domains coexisted, flow velocity decreased as the distance from the water-lifting aerator increased. When the water depth was increased from 50 m to 110 m, the radius of the core algal growth control zone increased from 60 m to 175 m, and the ratio of the algal growth control zone to the whole flow domain increased from 12.5% to 30.6%. The proper design intervals of water-lifting aerators in reservoirs were proposed as 1.2-1.6 times of water depth.

机译：用流畅的软件模拟水提升曝气器外的流动，分析了利用水提升曝气技术对原位藻类生长控制的影响。在水提升曝气器外部稳定的流动状态下，在进一步的座位上的入口附近和逆时针流动附近的顺时针流，流速随着从水提升空气器的距离而减小。当水深从50μm增加到110μm时，核心藻类生长对照区的半径从60米增加到175米，并且藻类生长控制区与整个流动结构域的比率从12.5％增加到30.6 ％。储层中的水提升曝气器的适当设计间隔被提出为水深的1.2-1.6倍。

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《International Conference of Health, Structure, Material and Environment》|2013年||共5页
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Xin Sun; Weili Zhao; Tinglin Huang;
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中图分类 TB3-53;
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Source water reservoir; Water-lifting aeration; Water depth; Algae control;

机译：源水库;水升通水;水深;藻类控制;
入库时间 2022-08-21 08:23:30

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8. Algae Control in Water Supply Reservoirs. [R] . muchmore, c. b. 1974

机译：供水水库的藻类控制。

Effects of Water Depth on Algae Control in Stratified Reservoirs using In-situ Water-lifting Aeration Technology

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