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Experimental Determination of Contaminant Metal Mobility as a Function of Temperature, Time and Solution Chemistry

机译：作为温度，时间和溶液化学函数的污染金属迁移率的实验测定

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During the FY96-FY99 funding cycle we examined the uptake of aqueous strontium onto goethite, kaolinite, and amorphous silica surfaces as a function of pH, total strontium, and temperature. Our overall goal was to produce a mechanistic sorption model that can be used in reaction-transport calculations to predict the mobility and attenuation of radioactive strontium (90Sr) in the environment. Our approach was to combine structural information derived from EXAFS analysis together with macroscopic uptake data and surface complexation models to clarify the physical and chemical structure of sorbed complexes. We chose to study these solids because of the prevalence of clays and iron hydroxides in natural systems, and because silica colloids probably form beneath leaking tanks at Hanford as caustic waste is neutralized.

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Carol, S. A.; O'Day, P. A.;
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年度 2002
页码 p.1-8
总页数 8
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Contaminants; Metals; Temperature; Sorption; Desorption;

机译：污染物;金属;温度;吸附;解吸;

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9. Experimental Determination of contaminant Metal Mobility as a Function of Temperature, Time, and Solution Chemistry [O] . Carroll, Susan A., O'Day, Peggy A. 2000

机译：作为温度，时间和溶液化学函数的污染物金属迁移率的实验测定
10. Experimental Determination of contaminant Metal Mobility as a Function of Temperature, Time, and Solution Chemistry [R] . 2000

机译：作为温度，时间和溶液化学函数的污染物金属迁移率的实验测定

Experimental Determination of Contaminant Metal Mobility as a Function of Temperature, Time and Solution Chemistry

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