1) Adsorption energy
吸附能
1.
Molecular mechanics(MM)study on the surface adsorption energy;
应用分子力学研究表面吸附能的可行性
2.
Surface physical and chemical characteristics of PAN-ACF and its adsorption energy;
PAN-ACF表面物化特性及其吸附能
3.
First-principles study of the adsorption energy and work function of oxygen adsorption on Ni(111) surface
第一性原理研究氧在Ni(111)表面上的吸附能及功函数
2) adsorption
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吸附性能
1.
Preparation of barium-stroutium titanate nano-powder and its adsorption properties for chromium(Ⅵ) and chromium(Ⅲ);
钛酸锶钡纳米粉体的制备及其对铬(Ⅵ)和铬(Ⅲ)吸附性能
2.
Study of adsorption properties for Ag~+、Hg~(2+)、Cr~(3+) of sulfhydryl-resin;
巯基树脂对Ag~+、Hg~(2+)、Cr~(3+)的吸附性能的研究
3.
Studies on Adsorption Properties and Secondary Pore Structure of REUSY-Ex;
REUSY-Ex的吸附性能及二次孔结构研究
3) adsorption property
吸附性能
1.
Chemical modification of activated carbon surface and its adsorption property of organic sulfur complexes;
活性炭的表面化学改性及其对有机硫化物的吸附性能的研究
2.
Study on adsorption property of polyquaternary ammonium salt polyacrylamide adsorbent against Cr(Ⅵ)-containing electroplating wastewater;
聚季铵盐聚丙烯酰胺吸附剂对含Cr(Ⅵ)电镀废水吸附性能的研究
3.
XRD,SEM and N2 adsorption isotherms were used to characterize the pore structure and adsorption property of the as-prepared ACF.
实验结果表明制备的材料孔结构扩宽,比表面积增大,吸附性能增强。
4) Adsorption capacity
吸附性能
1.
Study on preparation and adsorption capacity of triazolthion-group chelating fiber;
三唑硫酮基螯合纤维的制备及其吸附性能研究
2.
The effects of adsorbing time, concentration of Cu2+ or Ni2+, and pH value on the adsorption capacity of the manganese mine tailings were systematically investigated, and the adsorption mechanism of and regeneration method for the manganese mine tailings were primarily discussed as well.
研究了锰矿尾渣对重金属离子Cu2+和Ni2+的吸附性能,分析了锰矿尾渣的吸附动力学,就吸附时间、Cu2+和Ni2+浓度及pH值等因素对锰矿尾渣吸附性能的影响作了系统考察,并对锰矿尾渣的吸附机理进行了初步探讨。
3.
The adsorption capacity of alga fib.
利用核磁共振(1H-NMR)测定了不同海藻酸钠的M/G值,经湿法纺丝法制备了海藻纤维,并研究了M/G值、海藻酸钠用量及凝固浴用量和凝固时间对海藻纤维吸附性能的影响。
6) adsorptive capacity
吸附能力
1.
The adsorptive capacity and intensity of each carrier to DBP degradation bacteria were measured.
方法以硅藻土、斜发沸石、丝光沸石和粉煤灰作为备选吸附载体,进行改性处理,分别测定备选材料对一定浓度DBP降解优势菌的吸附能力和吸附强度。
2.
Based on results it is discussed that the relationship among pore volume,total specific surface and pore type,as well as the influence on coal adsorptive capacity.
根据试验结果 ,探讨了煤的孔体积、孔比表面积及与孔类型的关系 ,及其对煤吸附能力的影响 ,即煤对CH4的吸附能力与总孔体积、总孔比表面积、微孔比表面积呈正相关。
3.
Based on results, it is discussed that the relationship among pore volume and total specific surface area, as well as the influence on iron pyrites adsorptive capacity.
根据试验结果,探讨了硫铁矿的孔体积与孔比表面积的关系,及其对硫铁矿吸附能力的影响,即硫铁矿对N2的吸附能力与总孔体积、总孔比表面积呈正相关性。
补充资料:吸附活化能
分子式:
CAS号:
性质:在体系能量对吸附质到固体表面距离的势能曲线上,分子吸附(物理吸附)势能曲线与各个原子吸附(解离化学吸附)势能曲线的交点处能量值即为分子解离化学吸附的活化能。吸附分子吸收了活化能后,便达到活化态,继而进行的过程便是放热的。动力学最活泼的反应途径是那些具有最低活化能的途径。
CAS号:
性质:在体系能量对吸附质到固体表面距离的势能曲线上,分子吸附(物理吸附)势能曲线与各个原子吸附(解离化学吸附)势能曲线的交点处能量值即为分子解离化学吸附的活化能。吸附分子吸收了活化能后,便达到活化态,继而进行的过程便是放热的。动力学最活泼的反应途径是那些具有最低活化能的途径。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条