摘要
“双碳”目标驱动下,固废资源化利用成为实现减污降碳协同增效的关键路径。当前,混合固废分选精度不足、有机组分降解效率低、无机组分高值转化困难等问题制约行业发展。基于工业固废、城市固废、农业固废的差异,提出智能识别、多级分选协同、催化热解与矿相重构等技术路径,通过优化工艺参数与设备配置,推动固废资源化利用向低碳高效方向转型,为实现“双碳”目标提供技术支撑。
Driven by the"dual carbon"goal,the resource utilization of solid waste has become a key path to achieve synergistic efficiency in reducing pollution and carbon emissions.Currently,issues such as insufficient sorting accuracy of mixed solid waste,low degradation efficiency of organic components,and difficulty in high-value conversion of inorganic components are constraining the development of the industry.Based on the differences between industrial solid waste,urban solid waste,and agricultural solid waste,technical paths such as intelligent recognition,multilevel sorting collaboration,catalytic pyrolysis,and mineral phase reconstruction are proposed.By optimizing process parameters and equipment configuration,the transformation of solid waste resource utilization towards low-carbon and efficient direction is promoted,providing technical support for achieving the"dual carbon"goal.
作者
欧湉湉
OU Tiantian(Guizhou Fenglei Aviation Ordnance Co.,Ltd.,Anshun 561000,China)
出处
《中国资源综合利用》
2026年第1期86-88,共3页
China Resources Comprehensive Utilization
关键词
固废资源化
智能识别
热解
矿相重构
solid waste resource utilization
intelligent recognition
pyrolysis
mineral phase reconstruction
