吸附架桥
吸附架桥-
因此,复合絮凝剂的絮凝机理是氯化铝的电性中和机理和CMP分子的吸附架桥机理的协同作用。
Therefore , the predominant flocculation mechanism is the coexistence of the neutralization mechanism and the adsorption / bridge mechanism .
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EPI-DMA处理模拟活性艳红废水时以电中和和吸附架桥为作用机理,在处理还原大红废水时以电中和作用为主;
When treating activated red dye wastewater , EPI-DMA flocculants showed both charge neutralization and adsorption bridging functions , while for reductive red dye wastewater EPI-DMA performed mainly as charge neutralization ;
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结果表明,胶态水合二氧化锰粒子在去离子水和原水中荷负电,在去离子水中,粒子直径为10nm并形成网状结构,有利于发挥吸附架桥作用;
The results show that the colloidal hydrated manganese dioxide shows negative electricity in doubly distilled water and raw water . The diameter of the particles is about 10 nm and its flocculate shows network structure which benefits to adsorbing-bridging in doubly distilled water .
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微生物絮凝剂在水系中主要起吸附架桥的作用。
The microbial flocculant has the absorption and bridge effect .
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PDMDAAC&AM的絮凝机理是电中和及吸附架桥两种作用的结合。
PDMDAAC & AM flocculates in water by charge neutralization and adsorption bridging mechanism .
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聚硅酸大分子表现出明显的吸附架桥和粘附卷扫作用。
Silicic giant molecule behave flocculation and bridge .
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絮凝剂MBFA9为阴离子多糖类絮凝剂,其絮凝机理为吸附架桥。
This flocculant is anionic polysaccharide one with the flocculating mechanism of absorbing and bridging .
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聚环氧氯丙烷&二甲胺的絮凝机理是电中和及吸附架桥两种作用机理的结合。
The polyamine flocculants function in the wastewater by charge neutralization and adsorption bridging mechanism .
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其混凝机理主要是电性中和及高分子聚合物的吸附架桥作用。
The coagulation mechanism of coagulant CD is electric charge neutralization and adsorption and bridging of macromolecular polymer .
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其与泥浆粒子之间可通过电荷中和作用和吸附架桥作用的协同效应,而提高絮凝效果。
Synergetic effect of electrostatic interaction and adsorption-bridging action ( between ) amphoteric polyacrylamide and slurry particles can further improve flocculating efficiency .
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针对含高岭土水样,无机药剂处理效果明显优于有机药剂,无机药剂作用机理以压缩双电层为主,有机药剂以吸附架桥为主。
For these simulated water samples , inorganic coagulants with mainly compressing double electric layers mechanism are more efficient than the organic ones with absorption bridge mechanism .
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PDADMANO3具有更高的絮凝效率和电中和作用,而PDADMASO4具有更宽的最佳絮凝范围和更大的絮体粒径,及更强的吸附架桥作用。
PDADMANO_3 shows stronger flocculation efficiency and " neutralization action ", whereas PDADMASO_4 shows the wider optimum dosage and larger floc size , as well as " bridging action " .
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结果表明,生物絮凝剂对煤泥水的絮凝作用是以吸附架桥、电中和作用的作用为主,以卷扫作用、类外源絮凝聚素等作用为辅的一种复杂的综合作用结果。
The results showed that it is a complicated combined course based primarily on the principle of Adsorption Bridging , and supplemented with Volume Sweeping Effect , Charge Neutrality and Class Exogenous Flocculent Condensed Meal , to achieve final sedimentation .
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而聚合氯化铝(PAC)絮凝剂同时伴随有电中和与吸附-架桥作用,絮凝效果受絮体形态变化影响较大。
PAC coagulant act with bridge-work accompanying charge neutralization , and the effect is affected by morphology more .
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该结果直观上显示了发酵液的作用机理为菌体与淀粉颗粒间的吸附和架桥作用。
The results intuitively showed mechanism of fermentation liquor was adsorption bridging mechanism between bacteria and starch particles . 5 .
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对絮凝机理进行了探讨,从水环境生物、化学角度对吸附-架桥机理进行了解释,并通过实例进行分析。
The possible flocculation mechanisms were also discussed , especially for the bridge-work mechanism from biological and chemical aspects of water environment which were supported by analysis on several real examples .
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试验结果表明,该树脂以吸附、架桥和絮凝方式,能对活性染料进行很好的吸附脱色,脱色率可达90%~98%。
Results show that the resin features highly efficiency on reactive dyes by means of adsorption , bridging and flocculation , the decolorizing rate is up to 91 % ~ 98 % .
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研究结果表明:(1)CMP分子为网状结构的大分子多糖,可以更有效的吸附胶体颗粒形成架桥作用,其水溶性和絮凝效果均优于Pullulan分子。
The results of this thesis are as follows : ( 1 ) CMP has a net structure and higher molecular weight which is more favorable to coagulate colloidal particles and promote the bridging performance .
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最后探讨了PASC的混凝机理,认为PASC是通过吸附电中和和吸附架桥两方面的作用起混凝作用的。
Finally , the coagulation mechanism of PASC was summarized , which mainly contains charge neutralization and adsorption bridging mechanisms .
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结合DLVO理论,双电子层压缩机理,吸附电中和机理,吸附架桥机理和胶体的网捕机理解释了黄河细颗粒泥沙的絮凝生长过程。
The floc growth process of yellow river sediment is expounded with DLVO theory , compression mechanism of electric double layer , adsorption and charge neutralization mechanism , adsorption bridging mechanism , capture mechanism .
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PSF的混凝机理是以氧化/吸附-电中和/脱稳为前提条件,以吸附架桥为必要条件,以卷扫网捕为补充条件。
The oxidization / adsorption-charge neutralization / destabilization is the precondition of the coagulation mechanism of PSF , bridging is the necessary condition , and sweeping is the supplement in coagulation process .