摘要
基于同位素标记的全氟化合物(PFAS)示踪技术能够精确解析其在环境中的迁移路径和转化行为,为污染控制和环境监测提供科学依据。通过在水体、土壤及空气中标记PFAS,揭示了温度、pH值、湿度等环境因素对其扩散的显著影响,实现了对PFAS在不同介质中的分布特征及污染潜在风险的量化分析。该技术在石油化工、煤气化、合成氨及油气开采等领域的应用展示出其在清洁生产和风险评估中的重要性,为提升工业环保与资源利用效率注入了新的技术手段。
The isotope labeled perfluorinated compound(PFAS)tracing technology can accurately analyze its migration path and transformation behavior in the environment,providing scientific basis for pollution control and environmental monitoring.By labeling PFAS in water,soil,and air,the significant impact of environmental factors such as temperature,pH,and humidity on its diffusion was revealed,achieving quantitative analysis of the distribution characteristics and potential pollution risks of PFAS in different media.The application of this technology in the fields of petrochemicals,coal gasification,synthetic ammonia,and oil and gas extraction demonstrates its importance in clean production and risk assessment,providing new technological means means for improving industrial environmental protection and resource utilization efficiency.
作者
吕林蔚
LYU Linwei(School of Geographic Sciences,Harbin Normal University,Haerbin 150025,China)
出处
《化工管理》
2025年第12期59-62,共4页
Chemical Management
关键词
全氟化合物
同位素标记
环境迁移
perfluorinated compounds
isotope labeling
environmental migration
