1) The structure of foldedplate flocculating tanks
折板絮凝池结构
2) folded plate flocculator
折板絮凝池
1.
PIV monitoring of flow fields in folded plate flocculators;
折板絮凝池流场的粒子图像测速试验研究
2.
Experimental Research and Numerical Simulation for Folded Plate Flocculator
折板絮凝池流场试验研究与数值模拟
3.
This paper summarized the developing history and discussed the flocculation mechanism and the existing problems of folded plate flocculator.
综述了折板絮凝池的发展历程,并探讨了絮凝机理和存在的问题,最后提出了采用PIV技术进行实验研究和CFD软件进行模拟的研究思路。
3) opposite folded plate flocculator
异波折板絮凝池
1.
Flocculation mechanism and coagulation index of opposite folded plate flocculator;
异波折板絮凝池絮凝的机理与絮凝常数
4) baffle flocculation
折板絮凝
1.
The project adopts tubular mix,baffle flocculation,lamellar settlement,air-water backwash filtration treatment processes.
该工程采用管式混合、折板絮凝、斜板沉淀、气水反冲洗过滤处理工艺,并采用PLC监控系统实现了集中管理、分散控制。
5) vertical flow folded-plate flocculating tank
竖流式折板絮凝池
1.
The design and application of multi-channel parallel connection and single-channel 3-level series connection vertical flow folded-plate flocculating tank in Wujiang Waterworks project are introduced,and the operation results of the first-phase and second-phase projects of this plant are analyzed and compared.
介绍了多道并联、单通道3级串联竖流式折板絮凝池在吴江净水厂工程中的设计应用,并对该厂一、二期的运行成果进行了分析比较。
6) flocculation structure
絮凝结构
1.
It is found that superplasticizer perhaps adsorb on the cement particles unevenly, that changing zeta potential capacity of COPOCA202 is smaller than UNF-5, and that COPOCA202 can destroy flocculation structure more thoroughly but there are also flocculation s.
本文通过超塑化剂在水泥颗粒表面的吸附试验、动电试验以及流变试验,研究了超塑化剂在水泥颗粒表面上的吸附特征、掺超塑化剂后的动电性质以及其对新拌水泥浆体结构的破坏特性,发现超塑化剂在水泥颗粒表面上的吸附可能是不均匀的,聚羧酸系超塑化剂(COPOCA202)对表面电位改变能力较萘系(UNF-5)的低,COPOCA202对絮凝结构的破坏能力较UNF-5大,并且即掺如COPOCA202浆体中还存在有絮凝结构,从而推断新拌水泥浆体中各个絮凝结构强度不均一。
补充资料:絮凝池
分子式:
CAS号:
性质:通过缓缓搅动液体悬浮物而形成絮体所使用的构筑物,可借助也可不借助化学药品来进行絮凝。缓缓搅动可以增多颗粒接触机会,促进絮体增长,但是搅动过于剧烈,所产生的剪切力将使絮体破碎成更小的颗粒。只有仔细地控制搅动,才能产生大小适宜的絮体颗粒,使之迅速沉淀。
CAS号:
性质:通过缓缓搅动液体悬浮物而形成絮体所使用的构筑物,可借助也可不借助化学药品来进行絮凝。缓缓搅动可以增多颗粒接触机会,促进絮体增长,但是搅动过于剧烈,所产生的剪切力将使絮体破碎成更小的颗粒。只有仔细地控制搅动,才能产生大小适宜的絮体颗粒,使之迅速沉淀。
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参考词条