The effect of little O2 to the dynamic adsorption of CO was studied too.
还测定了气体中的微量O2对CO的动态吸附的影响。
Based on physical performance of resins, the best resin and detergent were chosen with the dynamic adsorption experiments by static adsorption.
在了解树脂物理参数的基础上,通过静态吸附实验,筛选出脱盐效果最佳的树脂和洗脱液,然后进行动态吸附实验研究。
The dynamic adsorption model that described the characteristics of small amount of water from tetrahydrofuran on 4a molecular sieve was developed.
建立了合适的吸附动态模型,用于分析四氢呋喃中的微量水在4a分子筛上动态吸附特性。
The dynamic adsorption was also investigated, including the rate of resin and reagent, the flow rate, the extraction time and ethanol concentration.
然后对其动态吸附性能进行研究,包括料液比、上样液流速、提取时间及乙醇浓度的确定。
The dynamic adsorption property of radon and xenon on carbon molecular sieve is distinctly different, which can be used to separate radon from xenon.
碳分子筛对氡、氙的吸附性能差异显著,可以利用其差异进行两者的分离。
The effects of fermentation temperature and acidity for adsorption were studied. And the effects of the dynamic adsorption for Validamycins on this resin were explored.
同时考察了井冈霉素发酵液的温度和酸度对树脂静态吸附的影响,探索了树脂对井冈霉素动态吸附的效果。
The results showed XDA-1 resin was preferable for separating licorice flavonoids with the dynamic adsorption and desorption ratio being 92.18% and 83.73%, respectively.
实验结果表明,XDA-1型大孔树脂对甘草黄酮的动态吸附率为92.18%,动态解吸率为83.73%,是一种较好的分离甘草黄酮的树脂材料。
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。
The removal effect of ammonia nitrogen and organic material with composite attapulgite filter by static adsorption experiment and dynamic filtration experiment was studied.
通过静态吸附实验和动态过滤实验研究复合凹凸棒滤料对氨氮和有机物的去除效果。
Owing to the exceedingly dynamic adsorptive properties for toxic gases, the novel fibrous sorbent is expected to be useful in the labor protection and adsorption of toxic gases.
实验表明:这种功能纤维在劳动保护以及有害气体吸附与净化等领域有着十分良好的应用前景。
Through experiments of static adsorption, static degradation and dynamic soil column, the transport and transformation of organic pollutants in wastewater in saturated soil were studied.
通过静态吸附、静态降解和动态土柱试验,研究了磁河废水中有机污染物在土壤饱水条件下的迁移转化行为。
The process of static adsorption, desorption, dynamic adsorption and adsorption kinetics of baicalin on macroporous adsorption resin immobilized tannins by Mannich reaction were investigated.
研究了通过曼尼西反应合成的单宁大孔吸附树脂对黄芩苷的静态吸附、脱附、动态吸附、 吸附动力学过程。
Performances in adsorbing and desorbing of 8 types of macroporous resin were. The optimum macroporous resin was determined and its dynamic adsorption and desorption were also investigated.
研究了8种大孔吸附树脂对香蕉皮多酚的静态吸附和解吸性能,筛选出吸附和解吸性能较好的树脂,并对其进行了动态吸附与解吸研究。
The dynamic multicomponent competitive adsorption model was developed in activated carbon bed, and it was solved by using numerical technique.
建立了活性炭床多组分竞争吸附动态模型,并利用数值方法求解。
Through static and dynamic experiments of resin adsorption, the preferable technical conditions of reclaiming ribavirin by LSD-311 resin are ascertained.
通过树脂静态、动态吸附实验,确定了LSD- 311树脂柱吸附分离回收利巴韦林的工艺条件。
The adsorption of phenolic resin adsorbent for pyridine and n, N-dimethylaniline was studied in aqueous solutions under static and dynamic conditions in this paper.
研究了酚醛型吸附树脂在水体系中对吡啶和N,N—二甲基苯胺的静态和动态吸附行为。
The effects of fluid velocity, temperature, etc. on adsorption dynamic and desorption processes were investigated. And the stability of the adsorbent was also observed.
考察了气速、温度等因素对动态吸附及脱附过程的影响,并初步考察了该吸附剂的稳定性。
Adsorption model, dynamic mechanism and adsorption thermodynamic property of the version zeolite are discussed.
对改型沸石除氟过程的吸附模式、动力学机制和吸附热力学性质进行了研究。
It offers the evidence for further analysis of dynamic characteristic in adsorption bed and the optimizing system design.
这为进一步分析吸附床内的动态特性,优化系统设计提供了依据。
The strategies include chemically enhanced settlement, pre-aeration, addition of N-adsorption media and P-adsorption media, high, middle and low water level and dynamic saturation line within the.
改进方法包括化学强化预处理、预曝气、添加氮吸附介质、添加磷吸附介质、湿地高浸润线、中浸润线、低浸润线和动态浸润线运行。
The static, dynamic adsorption and desorption activities of direct fast black on an anion exchanger fiber 3-Ureido-2-Hydroxypropyl cellulose were studied.
采用自制阴离子交换纤维(3-脲基-2-羟基丙基纤维素),对直接耐晒黑染料的静态、动态吸附和解吸性能进行了研究。
The amount of treated Activated Red X-3B wastewater by the system was determined through dynamic test and the adsorption - catalytic oxidation mechanism was discussed.
本研究还通过动态实验考察了活性炭催化氧化体系对活性红x—3 B废水的处理量,并初步探讨了反应中吸附—催化氧化机理。
Up to now, study on the DST and dynamic adsorption is in the process of accumulating the experimental data and bringing forward theory model.
目前对动态表面张力和动态吸附的研究,基本上还处于积累实验数据,提出理论假设和模型的阶段。
The general measurements record only the change of materials' resistance before and after meeting gases. It reflects only the results, not the dynamic process of adsorption.
传统的气敏材料测试方法仅仅测试材料在与气体接触前后电阻的变化,只能反映气体吸附的结果,而不能反映吸附和解吸的动态过程。
A fixed-bed adsorption model was proposed to simulate the adsorption dynamic processes.
固定床吸附模型模拟了吸附动态过程。
A dynamic model on interaction between water particles and trace organic chemicals was presented on the basis of the research of adsorption, hydrolysis, biodegradation and algae accumulation in water.
在颗粒物对水中邻苯二甲酸酯吸附、水解、生物降解和藻类富集实验的基础上,提出了颗粒物与天然水体中痕量有机物相互作用的动态数学模型。
In dynamic experiments, the effects of rhenium concentration and flow speed of the solution on adsorption, and flow speed of eluent on desorption are examined.
在动态试验中,考察了溶液铼浓度、溶液流速和解吸剂流速的影响。
Based on the electrochemical theory and the theory of adsorption in electrolyte solution, a dynamic model is established, which contains the electrolyte concentration, applied voltage and temperature.
基于电化学理论和电解质溶液中的吸附理论,建立了包含电解液浓度、氧化电压和温度在内的实验参数动力学模型。
The results show that the adsorption dynamic process of the heavy metals onto immobilized bacteria includes a fast stage and a slow stage; the latter conforms to second-level adsorption rate equation.
结果发现,固定化细菌对重金属吸附的动力学过程包括快速阶段和慢速阶段,其中慢速阶段符合二级吸附速率方程。
The results show that the adsorption dynamic process of the heavy metals onto immobilized bacteria includes a fast stage and a slow stage; the latter conforms to second-level adsorption rate equation.
结果发现,固定化细菌对重金属吸附的动力学过程包括快速阶段和慢速阶段,其中慢速阶段符合二级吸附速率方程。
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