摘要:本研究旨在探讨土壤性质对化工园区污染物检测与处理的影响,并通过数值模拟分析与现场监测数据评估不同修复技术的效果。采用了基于土壤水分含量、pH值、有机质含量和污染物浓度的降解模型,结合数值模拟和现场监测,分析了不同土壤条件下污染物的降解速率与治理效果。研究结果表明在40天的治理过程中,污染物浓度从100 mg/kg降至20 mg/kg,显示了土壤修复技术的显著效果。通过优化土壤水分含量、pH值和有机质含量,可有效提高污染物的降解速率,改善土壤质量。研究表明土壤修复技术在化工园区污染物治理中具有良好的应用前景,能够有效提升污染物处理能力。
Abstract: This study aims to explore the impact of soil properties on the detection and treatment of pollutants in chemical enterprises and to evaluate the effectiveness of different remediation technologies through numerical simulation analysis and field monitoring data. A degradation model based on soil moisture content, pH value, organic matter content, and pollutant concentration was adopted, combining numerical simulation and field monitoring to analyze the degradation rate and treatment effect of pollutants under different soil conditions. The results show that during the 40-day treatment process, the pollutant concentration decreased from 100 mg/kg to 20 mg/kg, demonstrating the significant effect of soil remediation technology. By optimizing soil moisture content, pH value, and organic matter content, the degradation rate of pollutants can be effectively increased, and soil quality can be improved. The study indicates that soil remediation technology has a good application prospect in the treatment of pollutants in chemical enterprises and can effectively enhance the capacity for pollutant treatment.
关键词:土壤修复;污染物降解;数值模拟;现场监测
Keywords: Soil Remediation; Pollutant Degradation; Numerical Simulation; Field Monitoring
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