ion strength meaning in Chinese
离子强度
Examples
- Total ion strength ustment buffer , tisab
总离子强度调节缓冲剂 - Ust buffer total ion strength
总离子强度调节缓冲剂 - A number of factors will affect efficiency of the biosorption , and these factors were studied in chapter three , including the ph value , initial biomass loading and content of heavy metal ions , ion strength of the solution , etc . although the research for new and innovative treatment technologies has focus attention on the metal binding capacities of various biomass , the exact interaction between the ligands of the metal uptake process and the description of the thermal properties of the biosorption remain essentially unknown
藻类对重金属离子的吸附效率受藻类细胞表面及溶液的物理化学状态的影响,本文从ph 、藻粉的起始含量及重金属离子的起始浓度、离子强度等四个方面做了研究。第四章是大型海藻生物吸附平衡的热力学研究,我们对平衡数据做了langmuir方程的回归分析,得到了两种海藻吸附各重金属离子的最大吸附容量;我们还以cu为例研究了温度对吸附容量的影响,并计摘要算了其吸附热。 - They have different properties from montmorillonite and fe oxyhydroxides such as larger specific area , different surface potential , etc . under the acidity , temperature and other conditions ( initial arsenate concentration , ion strength , duration of adsorption ) simulated to that of soil in tropical and sub - tropical area , the adsorption of arsenate on the prepared fe - oxyhydroxide - montmorillonite complexes were conducted
在参考实际土壤ph值和离子强度的条件下,分别以ph值、砷初始浓度、离子强度、吸附时间、吸附温度为影响因素,进行了低聚合羟基铁?蒙脱石复合体、蒙脱石原样及水合氧化铁吸附砷酸根离子的对比实验;并用正交实验方法,进一步研究了上述因素对复合体砷吸附能力的相对影响程度。 - The correlations between the arsenate uptake ability of fe - oxyhydroxide - montmorillonite complexes and the duration of adsorption , initial concentration of arsenate , ion strength of the solution , acidity and temperature of environment are investigated and compared to the adsorption of arsenate on to montmorillonite and fe oxyhydroxide . results stow that fe - oxyhydroxide - montmorillonite complexes have a strong affinity for arsenate species under experimental conditions , which is supposed to influence the behavior of arsenate in soil
结果表明,蒙脱石复合体对砷酸根离子的吸附能力虽然略弱于水合氧化铁,但却明显强于原钙蒙脱石;吸附时间和砷初始浓度是影响复合体砷吸附量的主要因素;对于陈放时间不同的复合体来说,随着复合体中铁含量的增加,其对砷的吸附率及吸附容量均增大。