多元线性回归-分光光度法测定电镀排放废水中重金属  被引量：1

作　　者：李瑞月 钟山 张漓杉 韦锃弦 肖巍 李昆明 LI Ruiyue;ZHONG Shan;ZHANG Lishan;WEI Zengxian;XIAO Wei;LI Kunming(School of Life and Environmental Sciences,Guilin University of Electronic Technology,Guilin 541004,China;Guilin Yunjing Technology Limited Company,Guilin 541004,China;Ecological Environment Monitoring Center of Guangxi Zhuang Autonomous Region,Nanning 530022,China)

机构地区：[1]桂林电子科技大学生命与环境科学学院,广西桂林541004 [2]桂林云璟科技有限公司,广西桂林541004 [3]广西壮族自治区生态环境监测中心,广西南宁530022

出　　处：《中国环境监测》2023年第5期226-235,共10页Environmental Monitoring in China

基　　金：广西科技基地和人才专项(桂科AD19259005);桂林市科技重大专项(20190203-2)。

摘　　要：采用多元线性回归-分光光度法进行电镀排放废水中Cr^(3+)、Ni^(2+)、Zn^(2+)的同时测定研究。以4-(2-吡啶偶氮)间苯二酚(PAR)为显色剂,探索了同时测定模拟电镀废水中Cr^(3+)、Ni^(2+)、Zn^(2+)的实验方法,建立多元线性回归模型。根据实际电镀排放废水中Cr^(3+)、Ni^(2+)、Zn^(2+)的质量浓度分布调查结果,设计了测定较低和较高浓度范围2种模型,分别对应不同水质波动程度的电镀企业废水,前者浓度范围设置基本覆盖大多数实际电镀排放废水中Cr^(3+)、Ni^(2+)、Zn^(2+)的浓度,且具有较高精度。测定浓度范围较小模型对应水质波动较小的电镀排放废水,模型中Cr^(3+)、Ni^(2+)、Zn^(2+)的质量浓度分别为0.32~0.44、0.32~0.50、0.72~0.84 mg/L,平均相对误差MRE为5.14%~6.68%;测定浓度范围较大模型对应水质波动较大的电镀排放废水,模型中Cr^(3+)、Ni^(2+)、Zn^(2+)的质量浓度分别为0.20~1.00、0.10~0.70、0.30~1.50 mg/L,MRE为6.44%~9.91%。2种模型可按电镀企业不同类型排放废水测定需求进行选择。该方法对实际电镀排放废水中Cr^(3+)、Ni^(2+)、Zn^(2+)的含量进行分析测定结果与原子吸收分光光度法基本相近,RE在±6%范围内,变异系数均小于5.301%。Simultaneous determination of Cr^(3+),Ni^(2+)and Zn^(2+)in electroplating discharge wastewater using multiple linear regression-spectrophotometry was studied in this paper.An experimental method for the simultaneous determination of Cr^(3+),Ni^(2+)and Zn^(2+)in simulated electroplating wastewater was explored using 4-(2-Pyridyl Azo)Resorcinol(PAR)as a colour developer and a multiple linear regression model was developed.Based on the results of the mass concentration distribution of Cr^(3+),Ni^(2+)and Zn^(2+)in actual electroplating discharge wastewater,two models were designed to determine smaller and larger concentration ranges,corresponding to different degrees of water quality fluctuations in electroplating enterprise wastewater,and the former concentration range setting basically covered the concentrations of Cr^(3+),Ni^(2+)and Zn^(2+)in most actual electroplating discharge wastewater with high accuracy.The model with a smaller concentration range corresponded to electroplating discharge wastewater with less fluctuation in water quality,and the mass concentrations of Cr^(3+),Ni^(2+)and Zn^(2+)in the model were 0.32-0.44,0.32-0.50 and 0.72-0.84 mg/L,respectively,and the MRE was 5.14%-6.68%.The model with a larger concentration range corresponded to electroplating discharge wastewater with high fluctuation in water quality,and the mass concentrations of Cr^(3+),Ni^(2+)and Zn^(2+)ranged from 0.20 to 1.00,0.10 to 0.70 and 0.30 to 1.50 mg/L,respectively,and the MRE was 6.44%to 9.91%.The two models can be selected according to the needs of different types of discharge wastewater determination in electroplating enterprises.The analytical results of the method for the determination of Cr^(3+),Ni^(2+)and Zn^(2+)in actual electroplating discharge wastewater were basically similar to those of the atomic absorption spectrophotometric method,with RE within±6%and the coefficient of variation less than 5.301%.

关 键 词：电镀排放废水 重金属 多元线性回归 分光光度法 

分 类 号：X830[环境科学与工程—环境工程]