1) adsorption temperature
吸附温度
1.
The formula of the adsorptionstorage capacity and adsorption temperature change for the adiabatic adsorption storage of natural gas has been deduced theoretically and checked with experiment.
本文从理论上推导出了绝热吸附贮存天然气的吸附贮量和吸附温度变化的关系式为。
2) most top adsorption temperature
最高可吸附温度
3) concentration-adsorption isotherm
浓度-吸附等温线
4) Adsorption isotherms
等温吸附
1.
Characteristics and predictions for adsorption isotherms of methane/carbon dioxide binary gas on coals;
煤对CH_4/CO_2二元气体等温吸附特性及其预测
5) isotherm adsorption
等温吸附
1.
The isotherm adsorption data correspond with the Freundlich model well.
等温吸附数据符合Freundlich模型,但在pH=4。
2.
The sorption characteristics of the single-component gas(CH4,N2,CO2) and the binary gas with different proportion(80% CH4+20% CO2,50% CH4+50% CO2,20% CH4+80% CO2,80% CH4+20% N2,50% CH4+50% N2,20% CH4+80% N2) on long-flame coal,coking coal and anthracite were studied by means of isotherm adsorption experiment in laboratory.
通过长焰煤、焦煤和无烟煤对CH4,N2,CO2单组分和6种不同配比浓度(80%CH4+20%CO2,50%CH4+50%CO2,20%CH4+80%CO2,80%CH4+20%N2,50%CH4+50%N2和20%CH4+80%N2)二元混合气的等温吸附实验研究,探讨了3种不同煤级煤对单组分气体和不同配比二元混合气体的吸附特征。
3.
Isotherm adsorption research of nanometer sized tetragonal polycrystals zirconia suspensions indicated that optimum content of dispersant was 1.
1 ;对分散剂在氧化锆微粒表面的吸附和分散作用进行了考察 ,聚电解质分散剂聚丙烯酸铵 (NH4PAA ,粘均分子量为 5 0 0 0~ 80 0 0 )使氧化锆微粒的等电点降低 ;对聚丙烯酸铵在纳米四方多晶氧化锆粉体上的等温吸附进行的研究发现 ,由于聚电解质分散剂的作用 ,悬浮体中纳米氧化锆粉体微粒表面的电动特性发生了显著变化 ,悬浮体的稳定性提
6) isothermal adsorption
等温吸附
1.
Nine substrates(three substrates of artificial soil)used as media in the vertical-flow constructed wetland were measured under isothermal adsorption experiment,and the data obtained in this study was fitted to both Freundlich and Langmuir isothermal adsorption equations.
选用9种人工湿地基质(包括3种人工土基质)进行了等温吸附试验。
2.
The isothermal adsorption characteristics of humic acid colloid (HA), amorphous Fe2O3 colloid, and HA-Fe2O3 complex colloid to Cu2+ at different acidities were studied by using Cu2+ selective electrode.
采用Cu2+选择电极研究了不同pH值条件下胡敏酸(HA)、无定形Fe2O3、HA-Fe2O3复合胶体对Cu2+的等温吸附规律。
3.
Based on isothermal adsorption experiments under equilibrium moistures and high pressures on 20 low rank coal samples whose reflectance’s of vitrifies are less than 0.
65%的低煤级煤样平衡水条件下的高压等温吸附实验,分析了低煤级煤的朗格缪尔常数与平衡水分、煤级、显微煤岩组分、比孔容和比表面积之间的关系,揭示了低煤级煤的吸附特征与中、高煤级煤之间的差异,探讨了低煤级煤的吸附机理。
补充资料:特性吸附与半胶束吸附
特性吸附与半胶束吸附
specifical adsorption and hemi-micelle adsorption
texing xifu yu banJ旧oshu xifu特性吸附与半胶束吸附(speeifieal adsorp-tion and hemi一mieelle adsorption)矿物一水界面的吸附的两种形式。特性吸附是因矿物表面与溶液中某种组分(离子或分子)有特殊的亲和力而产生的吸附,也称特殊吸附。特性吸附不仅可以改变电位的数量而且还可以改变电位的符号。例如,刚玉(A12O3)在NaZSO‘或RSO;Na(烷基硫酸钠)溶液中,电动电位随溶液浓度的增大由正值逐渐减小,直至变为负值,说明刚玉对50矛一或RSO不离子有特殊的吸引力。半胶束吸附是水溶液中的表面活性剂在矿物表面产生的吸附,当吸附量达到一定值以后,由于烃基的缔合作用,表面活性剂的离子或分子在矿物表面上形成紧密的吸附层,这类似于溶液中形成的胶束结构,但所形成的“胶束”与溶液中形成的胶束不同,只有二维空间,故称这类吸附为半胶束吸附。矿物表面对胺类捕收剂的吸附,当胺的浓度较大时,常可以产生半胶束吸附。 (龚焕高)
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