热强化气相抽提对不同质地土壤中苯去除的影响

研究应用电阻加热强化气相抽提技术对砂土、壤土和黏土中苯去除效果的影响及作用机制.与常规抽提结果相比,在热强化处理作用下气相抽提对砂土和壤土中苯的去除效率提高了13.1%和12.3%,处理时间分别降低75%和14%.热强化处理使得黏土含水率下降,土壤渗透率升高,黏土颗粒表面羧基和乙基的吸收峰消失,有机质含量减少,苯的去除效率与对照相比提高了34%.对于砂土和壤土,热强化主要是通过促进苯在土体中扩散来提高去除效率,从而实现在较短时间内污染物质的大量去除;而对于黏土则是通过降低土壤颗粒表面有机基团的含量,从而降低污染物和土壤颗粒的吸附能力,并通过降低含水率和升高渗透率从而提高土壤中气体的扩散性能,以达到增强气相抽提效果的目的.

Effect of Thermal Enhanced Soil Vapor Extraction on Benzene Removal in Different Soil Textures

Experiments were carried out to investigate the effect of thermal enhanced soil vapor extraction (SVE) on benzene removal from sand, loam and clay and the mechanism. Compared to the routine control treatment, the benzene removal rates were improved by 13.1% and 12.3% and the remediation periods were reduced by 75% and 14%, from sand and loam respectively using thermal enhanced SVE. Thermal enhancement decreased the moisture content and increased the soil permeability of clay. On the surface of clay particles, absorption peaks of carboxyl and ethyl disappeared and the content of soil organic substances decreased significantly. Compared to the conventional SVE, the benzene removal rate was improved by 34% in clay soil treated by thermal enhanced SVE. For sand and loam, thermal enhancement could increase the removal rate by promoting the diffusion of benzene in the soil and achieve substantial removal of pollutants in a relatively short period of time. For clay, it could enhance the effect of SVE by reducing the absorption capacity between soil particle surface and contaminant and improving the performance of the gas diffusion in soil by decreasing the moisture content and increasing the soil permeability.