研究了碳纳米管电极电吸附苦咸水脱盐。
This paper discusses desalination techniques of carbon nanotube electrodes by electric adsorption.
电吸附剂的研究是开发电吸附技术的关键环节之一。
Electrosorption is an economic and efficient adsorptive process which is developed by a combination of electrochemistry with adsorption and separation technology.
本文简单介绍了电吸附技术的原理以及目前应用于电吸附技术的各种电极材料。
This paper briefly introduces the principle of electroabsorption technology and variety of electrode materials used.
从理论上推导了电极的电吸附量,并指出实际的电吸附量与理论不一致的原因。
In this paper, the electric adsorption amount of electrode is derived, and the cause that practical electric adsorption amount does not conform to theoretic one is pointed out.
结论 电吸附技术效果稳定,操作简便,成本低于其他离子去除技术,可在高砷地区推广应用。
Conclusion EST presented stable removal effects, simplified operation and lower costs compared with those of other deionizing technology. It could be widely applied in the high-arsenic area.
测试结果表明,在已知矿体上方,汞和电吸附中银异常稳定、明显。下覆矿体和异常显示出了很好的对应关系。
The test result indicated that on the above of known ore- body mercury and silver anomaly were very stable and clear, meanwhile orebody has good relation to that anomaly.
通过对凝聚机理和铝盐在水中水解过程的分析,提出了铝盐水解物吸附引起胶体电中和的数学模式。
In this paper, the author has proposed a mathematical model to describe the process of adsorption and charge neutralization by hydrolyzed aluminum species on the basis of coagulation mechanism.
介绍了电槽隔膜吸附中出现的波动及通过一系列调整使电槽稳定运行的过程。
The fluctuation of electrolyzer diaphragm rose in adsorption and series countermeasures on the steady running were introduced.
这说明吸附过程的本质由HAWP与表面活性剂之间的疏水效应决定,强度受到两者荷电性质的影响。
This proved the adsorption principle was determined by the hydrophobic interaction between surfactants and HAWP, but the strength was affected by the electric charge of each other.
纳米材料因其独特的光、电、磁、力、催化和吸附等性能而被广泛应用。
Nanomaterials have been used in many fields because of their unique properties in optics, electrics, magnetics, mechanics, catalysis and adsorption etc.
吸附s CD柱电色谱和动态改性电色谱的重现性进行了比较,发现动态改性电色谱有更好的重现性。
It was found that the superiority of DMS-CEC over the adsorbed S-CD column CEC was that better repeatability could be obtained in DMS-CEC.
研究表明银电极双电层中存在多种吸附模式下的水分子结构。
Results show that several adsorption modes of water exist in the electrochemical double layer of silver.
该结果与团簇吸附在粗糙银电极表面的C60分子的研究结果相似。
The results were similar to that of C60 molecules adsorbed on Ag electrode in the solution of C60.
研究表明,银电极双电层中存在多种吸附模式下的水分子结构。
The results show that several adsorption modes of water exist in the electrochemical double layer of silver.
木材—吸附水系是一个多重弛豫时间的介电体系。
The wood-absorptive water is a multi dielectric relaxation time system.
零电荷点和等电点的测量结果表明发生了特性吸附。
The measurement of the zero charge points and isoelectric points shows occurance of the characteristic absorption.
而对于具有较高等电点的血红蛋白和溶菌酶的吸附动力学,却几乎不受静电排阻作用的影响。
While for the adsorption kinetics of Hb and lysozyme which with higher isoelectric points, little electrostatic hindrance effects were suffered.
木材—吸附水系的介电弛豫时间分布机构是:因水分子同木材之间形成的氢键结合能呈某种分布所致。
The distribution mechanism of dielectric relaxation time in such system deponds mainly on the variation of the energy of the hydrogen bonds between water molecules and wood.
将药剂的形态分布规律与藻去除率规律进行比较发现,混凝过程的四种除藻机制中,吸附电中和去除藻细胞最为重要。
Compared the rule of species distribution of PAFC with that of variation of algae removal efficiency, it is found that adsorption-charge neutralization mechanism is most important in four mechanisms.
EQCM研究还从电极表面质量定量变化的角度提供了异丙醇吸附和电氧化反应机理的新数据。
The EQCM studies provide quantitative results of surface mass variation and have thrown new light in the elucidating isopropanol oxidation.
运行结果表明,改进后的设备体积小,电沉积时间短,操作简单,钢棉吸附金的容量高。
The results indicate that the improved equipment has (advantages) of small volume, short time for electrodepositing, easy operation and high content for gold enclosed in steel wool.
本发明适合于作吸附剂、催化剂载体、双电层电容器及合成其它介孔材料的硬模板剂等。
The invention is adapted to be used as adsorbent, catalyst support, electric double-layer capacitor and hard-template agent for synthesizing the other meso-porous material, etc.
十二胺吸附膜改变了电极表面双电层结构,使零电荷电位正移。
The adsorbed dodecylamine film changed the structure of the double-electric layer and made the potential of zero charge(PZC) shift to the positive direction.
研究了用化学吸附硫法制备节能镍硫活性阴极的最佳条件及该电极的电性能。
The paper reports the best condition of making Ni-S active cathode by chemisorbing S technique and the electrochemical performance of Ni-S active cathode.
同时,吸附作用又会使粒子表面带电,产生团聚电垒。
The surface of particles was charged by adsorption effect and so the electric barriers against the aggregation between particles were established.
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.
化学传感器可构造为当将被感测的化合物被吸附到感测部件上时测量电特性的变化。
The chemical sensor may be configured to measure the change in electrical characteristics when a compound to be sensed is adsorbed on the sensing member.
H2D分子在表面的动态吸附行为与平衡时间、溶液浓度、H2D分子自身的电性、电解质浓度和种类以及温度有关。
Moreover, the dynamic adsorption behavior of H2D was related to the aging time, solution concentration, electric of H2D, the type and concentration of electrolyte, and temperature.
H2D分子在表面的动态吸附行为与平衡时间、溶液浓度、H2D分子自身的电性、电解质浓度和种类以及温度有关。
Moreover, the dynamic adsorption behavior of H2D was related to the aging time, solution concentration, electric of H2D, the type and concentration of electrolyte, and temperature.
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