Kogbara Reginald B
a Geotechnical and Environmental Group , Cambridge University Engineering Department , Trumpington Street, Cambridge , UK.
b Mechanical Engineering Program, Texas A&M University at Qatar , Education City, Doha , Qatar.
J Environ Sci Health A Tox Hazard Subst Environ Eng. 2017 Jan 28;52(2):149-157. doi: 10.1080/10934529.2016.1240483. Epub 2016 Oct 28.
Relationships among selected performance properties have been established using experimental data from a cement-stabilized mixed contaminated soil. The sandy soil was spiked with 3,000 mg/kg each of Cd, Cu, Pb, Ni and Zn, and 10,000 mg/kg of diesel. It was then treated with 5%, 10%, 15%, and 20% dosages of Portland cement. Different water contents were considered for lower dosage mixes. Selected geotechnical and leaching properties were determined on 28-day old samples. These include unconfined compressive strength (UCS), bulk density, porosity, hydraulic conductivity, leachate pH and granular leachability of contaminants. Interrelationships among these properties were deduced using the most reasonable best fits determined by specialized curve fitting software. Strong quadratic and log-linear relationships exist between hydraulic conductivity and UCS, with increasing binder and water contents, respectively. However, the strength of interrelationships between hydraulic conductivity and porosity, UCS and porosity, and UCS and bulk density varies with binder and water contents. Leachate pH and granular leachability of contaminants are best related to UCS and hydraulic conductivity by a power law and an exponential function, respectively. These results suggest how the accuracy of not-easily-measurable performance properties may be constrained from simpler ones. Comparisons with some published performance properties data support this.
利用来自水泥稳定混合污染土壤的实验数据,建立了选定性能属性之间的关系。向砂土中分别添加3000mg/kg的镉、铜、铅、镍和锌以及10000mg/kg的柴油。然后用5%、10%、15%和20%剂量的波特兰水泥进行处理。对于低剂量混合物,考虑了不同的含水量。在养护28天的样品上测定了选定的岩土工程和浸出特性。这些特性包括无侧限抗压强度(UCS)、容重、孔隙率、水力传导率、渗滤液pH值和污染物的颗粒浸出率。利用专业曲线拟合软件确定的最合理的最佳拟合来推导这些特性之间的相互关系。水力传导率与UCS之间分别存在很强的二次关系和对数线性关系,且随着粘结剂和含水量的增加而增加。然而,水力传导率与孔隙率、UCS与孔隙率以及UCS与容重之间相互关系的强度随粘结剂和含水量而变化。渗滤液pH值和污染物的颗粒浸出率分别通过幂律和指数函数与UCS和水力传导率具有最佳相关性。这些结果表明了如何从较简单的性能属性来限制不易测量的性能属性的准确性。与一些已发表的性能属性数据的比较支持了这一点。