池塘水深与通气量对微孔曝气增氧性能的影响  被引量:7

Effects of water depth and ventilation on microporous oxygen transfer performance

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作  者:顾海涛[1] 王逸清[1] 

机构地区:[1]农业部渔业装备与工程重点开放实验室国家渔业机械仪器质量监督检验中心中国水产科学研究院渔业机械仪器研究所,上海200092

出  处:《渔业现代化》2015年第5期29-32,共4页Fishery Modernization

基  金:国家科技支撑项目"淡水养殖池塘生态工程化调控技术研究(2012BAD25B01)"

摘  要:为了解影响微孔曝气设备增氧效果的因素及实际使用效果,按照CJ/T 3015.2—1993《曝气器清水增氧性能测定》标准要求在1 m×1 m×6 m方形水池中对长度1m、内径57.4 mm的曝气管进行试验。设定3个不同池塘水深组(2 m、3 m和4 m),在每个水深工况下调节3组不同的通气量(1 m3/h、2 m3/h和3 m3/h),对微孔曝气增氧设备的增氧能力和动力效率进行试验、分析。结果显示,微孔曝气增氧时,增氧能力随曝气管浸没水深的增大而提高;动力效率随着浸没深度的增加而提高;增氧能力随通气量的增加呈线性提高;动力效率随着通气量的增加呈下降趋势。研究表明,曝气管浸没水深和通气量的大小是影响微孔曝气增氧性能的重要因素。试验结果对微孔曝气增氧机的实际应用具有一定的指导作用。In view of the controversy about using effect on microporous oxygen transfer, based on the requirements of Standard on oxygen transfer measurement of aerators in clean water, the aeration tube with length of 1 m and inner diameter of 57.4 mm was tested in a 1 m x 1 m - 6 m square tank. Three water depths of 2 m, 3 m and 4 m, were set and under working condition of each depth, 3 groups of adjusted ventilations (1 m3/h,2 m3/h and 3 m3/h) were selected to study their effects on microporous oxygen transfer performance ( aeration capacity and power efficiency). The test results showed : 1 ) the aeration capacity increased with the increase of immersion depth of aeration tube; 2 ) power efficiency increased with incease of the immersion depth of aeration tube; 3 ) the aeration capacity showed a linear-increase with the increase of ventilation; 4) power efficiency showed a downward trend with the increase of ventilation. The results could provide guidance for practical application of microporous aeration sets.

关 键 词:微孔曝气 水深 通气量 增氧能力 动力效率 

分 类 号:S969.321[农业科学—水产养殖]

 

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