1.
Super-high Pure APT Preparation by Double-ion-exchange and Saturation Adsorption Technology
二次离子交换饱和吸附工艺制备超纯APT
2.
Relations between the Saturated Absorption and Micro-structure of Expanded Graphite
膨胀石墨的饱和吸附量与微观结构的关系
3.
Predicting saturation surface concentration of surfactant at gas/liquid interface by molecular dynamics
气/液界面表面活性剂饱和吸附浓度的分子动力学预测
4.
Optimizing Technical Conditions in Super-high Pure APT Preparation Process by Double-ion-exchange and Saturation Adsorption Technology
二次离子交换饱和吸附法制取超高纯仲钨酸铵工艺优化
5.
Study on the Regeneration of Activated Carbon Fibers Adsorbed with Haloacetic Acids
吸附卤乙酸饱和的活性炭纤维再生研究
6.
The adsorption of polyvinyl chloride-polyethylene polyamine resin for acidsubstances were studied, such as phenol. saturated carboxylic acid non-saturated carboxylicacid, lactic acid chloroacetic acid etc.
研究了聚氯乙烯-多乙烯多胺树脂对酸性物质:苯酚、和羧酸,不饱和羧酸、酸和氯乙酸的吸附。
7.
Studies of Inhibition Performance and Adsorption Behavior of Inhibitors on Carbon Steel in Near Neutral CO_2-saturated Brine Solution;
近中性CO_2饱和盐水溶液中缓蚀剂在碳钢表面吸附和缓蚀行为的研究
8.
Adsorption-desorption and competitive adsorption of arsenic and phosphorus in purple soil
紫色土中砷、磷的吸附-解吸和竞争吸附
9.
Purifying and Recovery Volatile Organic Compounds by Abosorrption and PSA Methods;
VOCs的吸附和变压吸附法净化回收研究
10.
Adsorption,capture and separation of CO_2 by carbon-based adsorbents
碳质吸附剂对CO_2的吸附、捕集和分离
11.
Frequency stabilized He-Ne laser (0.33μm) of neon saturated absorption
氦一氖0.633微米氖饱和吸收稳频激光器
12.
Atom Absorption Spectrometiy with Graphite Furnace Measuring Strontium in Saturated Salt Solution;
石墨炉原子吸收法测定饱和盐水中锶
13.
Determination of Barirum in Saturated Salt Solution by Graphite Furnace Atomic Absorption Spectrometry;
石墨炉原子吸收法测定饱和盐水中钡
14.
The Study on the Metric Suction of Unsaturated Clayey Soils
非饱和粘性土基质吸力变化规律研究
15.
This paper summarizes the mechanism of Pb adsorption and desorption in soils.
土壤中铅的吸附-解吸行为,依吸附机理的不同,分为专性吸附和非专性吸附。
16.
Physical adsorption depends on van der Waals forces of attraction between molecules and resembles condensation of liquids.
物理吸附取决于固体吸附剂和被吸附物的分子间的范德瓦耳斯力。
17.
The adsorption equilibrium time shortens and the adsorption capacity and ratio decrease with temperature.
温度升高,吸附平衡时间缩短,吸附量和吸附比下降。
18.
Study on Absorption Capacity of Coal Based on Low-temperature Nitrogen Absorption and High-pressure Adsorption
低温氮吸附法和高压吸附甲烷法研究煤的吸附能力