一体化污水处理工艺处理生活污水的实验研究 关键词:一体化;生活污水;去除效果 [gap=728]Key words:integration;municipal wastewater;removal efficiency
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dust removal efficiency 除尘效率 ; 防尘效率
Defect Removal Efficiency 缺陷消除的有效性 ; 缺陷排除效率 ; 排除效率
sulfur removal efficiency 脱硫效率
iodine removal efficiency 除碘效率
minimum destruction and removal efficiency 最低的毁灭及清除率
Destruction and Removal Efficiency 破坏和排除效率
phosphorus removal efficiency 除磷率 ; 除磷效果
Phenol removal efficiency increased with the pH value, and decreased with phenol initial concentration.
苯酚去除率随pH值增加而提高,随苯酚初始浓度增加而降低。
参考来源 - 新型光催化剂的制备、表征及其光催化活性的调控机制Removal efficiency of CODCr keep stable all year-round, hardly be influenced by the changes of temperature&season.
CODCr全年去除效果稳定,受季节温度变化的影响不大。
参考来源 - 人工湿地在城市湖泊景观水体水质保障上的试验研究The removal efficiency of COD,NH4+-N and PO43--P were 99.34±0.37%, 99.55±0.41% and 95.83±1.76%, respectively.
COD、氨氮和磷的平均去除效率在99.34±0.37%、99.55±0.41%和95.83±1.76%之间。
参考来源 - 好氧颗粒污泥—膜组合工艺低温条件下脱氮除磷效能) due to its large contribution to COD when aim is to enhance removal efficiency of the treatment system. In addition, the floatation unit and sedimentation unit should be improved.
要提高系统的处理效果,重要的一点是对气浮池和二沉池进行改进。
参考来源 - 采油污水COD化学组成剖析及归趋模型When molten Zn is moving, the dross size is larger, the removal efficiency is higher.
在连续流动状态下,热镀锌液中锌渣粒度越大,去除效率越高。
参考来源 - 热镀锌液电磁净化技术与装备研究The results show that the best conditions are as follows: dicyandiamide 33.6 g,glyoxal 62 g,ammonium chloride 21.6 g,reaction temperature 65 ℃ and reaction time 3 h,the decolorizing efficiency of the flocculant is the best,≥93%,the removal efficiency of CODCr is≥66%.
试验结果表明,当双氰胺33.6 g,乙二醛62 g,氯化铵21.6 g,反应温度65℃,反应时间为3 h时制得的双氰胺-乙二醛缩聚物脱色絮凝剂的絮凝脱色性能良好,脱色率≥93%,CODCr去除率≥66%。
参考来源 - 双氰胺The influences of the operation parameters on removal efficiency are reviewed. Such as the density of bubbles, the concentration of surfactant, the gas-liquid ratio and circumfluence have different influences on the remove effect.
结果表明,气泡密度、LAS初始浓度、气液比等因素对去除效果有着不同程度的影响。
参考来源 - 泡沫分离水中微量LAS及宏观动力学研究·2,447,543篇论文数据,部分数据来源于NoteExpress
The results show that reasonable intermittence time can improve the removal efficiency.
试验结果表明:合理的间歇时间能提高反应器对有机物和氨氮的去除效果。
Effects of the radius of circular pipe and frequency on the inclusion removal efficiency were ascertained for each case.
对圆管半径、电磁场频率等参数对去除效率的影响作了分析阐述。
The models pre-dict particle concentration as a function of the flow rate, the particle removal efficiency of the filter, and filtration time.
这些模型预测了粒子浓度与流速、过滤器的粒子去除效率及过滤时间的关系。
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