摘要
本研究以华北典型陶瓷产业聚集区为对象,系统阐述了环境检测技术的协同应用机制。在污染源识别层面,融合非分散红外分析仪与激光气体成像技术,突破传统监测对固定点源的局限,实现开放场域隐蔽排放的厘米级定位;在动态监控层面,依托车载走航监测与网格化微站网络联动,精准捕捉静稳气象下污染团的迁移路径与快速累积特征;在效果验证层面,基于化学质量平衡模型与气溶胶质谱源解析技术,构建多维度治理成效评估体系。案例实践证明,该技术体系可显著提升污染溯源精度、动态响应时效及治理策略的适配性,从而为复合型大气污染的系统化治理提供定量支撑。
This study takes the typical ceramic industry cluster area in North China as the object and systematically elaborated on the collaborative application mechanism of environmental detection technology.At the level of pollution source identification,the integration of non dispersive infrared analyzer and laser gas imaging technology breaks through the limitations of traditional monitoring onfixed point sources and achieves centimeter level positioning of concealed emissions in open fields;At the level of dynamic monitoring,relying on vehicle navigation monitoring and grid micro station network linkage,accurately capturing the migration path and rapid accumulation characteristics of pollution groups under static and stable weather conditions;At the level of effectiveness verification,a multidimensional governance effectiveness evaluation system is constructed based on the chemical mass balance model and aerosol spectrum source analysis technology.Case studies have proven that this technological system can significantly improve the accuracy of pollution tracing,dynamic response time,and adaptability of governance strategies,providing quantitative support for the systematic governance of composite air pollution.
作者
徐化强
Xu Huaqiang(Shandong Chengkong Testing Technology Co.,Ltd.,Jinan 250000,China)
出处
《皮革制作与环保科技》
2025年第15期182-184,共3页
Leather Manufacture and Environmental Technology
关键词
大气污染治理
环境检测
动态监控
air pollution control
environmental monitoring
dynamic monitoring
