济南市城区泉水离子成分变化特征与回归分析  被引量：1

作　　者：杨青 王兆军 唐厚全 田勇 YANG Qing;WANG Zhaojun;TANG Houquan;TIAN Yong(Shandong Jinan Environmental Monitoring Center)

机构地区：[1]山东省济南生态环境监测中心

出　　处：《环境工程技术学报》2022年第1期46-54,共9页Journal of Environmental Engineering Technology

摘　　要：以济南市城区泉水SO_(4)^(2−)、NO_(3)^(−)、Cl^(−)为研究对象,从降水、补源、人类活动3个维度选取影响因子,研究影响因子与3种离子浓度的相关性;以通径分析判定影响因子的直接作用和间接作用,通过计算决策系数判定影响因子对离子浓度变化的作用大小和方向;通过建立的回归方程预测泉水NO_(3)^(−)浓度和环境可承载的废水排放总量。结果表明:2008—2019年,城区泉水SO_(4)^(2−)、Cl^(−)、NO_(3)^(−)浓度均呈上升趋势,SO_(4)^(2−)和Cl^(−)浓度为显著上升(P<0.01)。废水排放总量与SO_(4)^(2−)、Cl^(−)浓度呈显著正相关(P<0.01,P<0.05),相关系数分别为0.811和0.577;补源水库H^(+)浓度与NO_(3)^(−)浓度呈显著正相关(P<0.05),相关系数为0.692。各影响因子中,对泉水SO_(4)^(2−)、NO_(3)^(−)、Cl^(−)浓度直接作用最大的均为废水排放总量。废水排放总量在SO_(4)^(2−)、Cl^(−)浓度变化过程中起增进作用;水库H+浓度、降水量、废水排放总量在泉水NO_(3)^(−)浓度变化过程中起增进作用,水库H+浓度为主要决策变量。通过方程预测2020年泉水NO_(3)^(−)浓度为8.42 mg/L,满足GB/T 14818—2017《地下水质量标准》Ⅲ类标准。如将泉水NO_(3)^(−)浓度保持在10 mg/L以下,废水排放总量应控制在6.324×10^(9) m^(3)以内。Taking SO_(4)^(2−),NO_(3)^(−),Cl^(−)in spring water in Jinan City as the research objects,the influence factors from three aspects of precipitation,source supplement and human activities were selected,and the correlation between the influence factors and the concentrations of the three ions was studied.The path analysis was used to determine the direct and indirect effects of the influencing factors.The action size and direction of the influencing factors on the change of ion concentrations were determined by calculating the decision coefficient.The regression equation was established and used to predict the concentration of NO_(3)^(−)in spring water and the total amount of wastewater that could be carried by environment.The results showed that the concentration of SO_(4)^(2−),Cl^(−)and NO_(3)^(−)in spring water showed an upward trend,and SO_(4)^(2−)and Cl^(−)increased significantly(P<0.01)from 2008 to 2019.There was a significant positive correlation between the amount of wastewater and the concentration of SO_(4)^(2−)and Cl^(−)(P<0.01,P<0.05),and the correlation coefficients were 0.811 and 0.577,respectively.There was a significant positive correlation between the concentration of H^(+) and NO_(3)^(−)in source supplement reservoir(P<0.05),and the correlation coefficient was 0.692.Among the influencing factors,the amount of wastewater had the greatest direct effect on the concentration of SO_(4)^(2−),Cl^(−)and NO_(3)^(−)in spring water.The amount of wastewater played an increasing role in the change of SO_(4)^(2−)and Cl^(−)concentrations.Precipitation,H+concentration and the amount of wastewater in reservoir played an increasing role in NO_(3)^(−)concentration change of spring water,and H+in reservoir was the main decision variable.The equation predicted that NO_(3)^(−)concentration of spring water would be 8.42 mg/L in 2020,meeting ClassⅢstandard of Quality Standard for Ground Water(GB/T 14818-2017).If NO_(3)^(−)concentration of spring water kept below 10 mg/L,the total

关 键 词：泉水 离子成分 影响因子 相关性分析 多元回归分析 济南市 

分 类 号：X524[环境科学与工程—环境工程]