摘要
本研究以运行成本、运行效率、数据容量、信息安全、更新能力等五要素作为准则层,以纸质台账、一维条形码、二维条形码和RFID储存作为方案层,建立层次结构模型。通过分析确定危废处置系统高效运行的最优方案,相对优先排序为RFID储存(0.592 6)>二维条形码(0.154 8)>一维条形码(0.147 4)>纸质台账(0.105 1)。通过所选取的5类RFID电子标签感应距离测试,最小为3.67 m,最大为23.33 m,均至少可达到传统二维码读取距离(0.5~1.0 m)的3倍。RFID应用于危废处置系统,与传统的纸质台账、一维条形码、二维条形码等技术相比,具有比较明显的技术优势。
This research establishes a hierarchical structure model with the five elements of operation cost,operation efficiency,data capacity,information security,and updating capability as the criterion layer,and the paper ledger,one-dimensional barcode,two-dimensional barcode,and RFID storage as the scheme layer.The optimal scheme for efficient operation of the hazardous waste disposal system is determined through analysis,the relative priority is RFID storage(0.592 6)>two-dimensional barcode (0.154 8)>one-dimensional barcode (0.147 4)>paper ledger (0.1051).Through the sensing distance test of the five selected RFID electronic tags,the minimum sensing distance is 3.67 m and the maximum sensing distance is 23.33 m,both of which are at least three times the reading distance of the traditional two-dimensional code (0.5~1.0 m).RFID is applied to hazardous waste disposal system and has obvious technical advantages compared with traditional paper ledger,one-dimensional barcode,two-dimensional barcode and other technologies.
作者
左姣
黄爱军
张睿
何睿鸣
陈国平
聂爽
ZUO Jiao;HUANG Aijun;ZHANG Rui;HE Ruiming;CHEN Guoping;NIE Shuang(Xin Zhongtian Environment Protection Co.,Ltd.;National Environmental Protection Hazardous Waste Disposal Engineering Technology(Chongqing)Center,Chongqing 400112,China)
出处
《中国资源综合利用》
2022年第10期69-72,共4页
China Resources Comprehensive Utilization
基金
国家重点研发计划项目“多种有机危废协同稳定焚烧的交互反应机制及预处理、智能识别和配伍方法的研究”(2019YFC1907001)。
关键词
射频识别(RFID)
危废处置
层次分析
radio frequency identification(RFID)
hazardous waste disposal
analytic hierarchy process
