The fluid state and the oxygen-transfer capability of SUFR are researched experimentally in this study.
本研究就是以螺旋升流反应器为对象,对其流态及传氧性能进行了试验性的探索。
Based on the near-native pure culture method, analyzing the culturability of microorganism in the SUFR system;
基于微孔滤膜近自然法,分析SUFR 脱氮除磷系统中微生物可培养性;
The result of the research shows, partial perfect mixing fluid and holistic complex plug fluid state can be formed in SUFR, and higher Oxygen-transfer efficiency causes energy saving.
因此由本试验可知,螺旋升流反应器既可形成局部为完全混合流,整体又趋于推流的复合推流流态,又可提高氧转移效率,具有较强的节能效果。
Tests of flow pattern showed that the spiral up-flow character of the SUFR make it be similar to plug-flow-reactor, and it is favourable to form gradient distributing of the organism matter.
流态试验表明SUFR反应器的螺旋流动特征使其接近于推流式反应器,有利于在空间上形成有机物的梯度分布。
Tests of flow pattern showed that the spiral up-flow character of the SUFR make it be similar to plug-flow-reactor, and it is favourable to form gradient distributing of the organism matter.
流态试验表明SUFR反应器的螺旋流动特征使其接近于推流式反应器,有利于在空间上形成有机物的梯度分布。
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