二次供水管网中生活饮用水TOC和COD回归分析研究——以CPVC管网为例
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摘要
总有机碳(TOC)和化学需氧量(COD)常用来衡量水中有机物污染程度,理论上二者存在一定关系。以CPVC管为实验材料,运用SAS软件及数理统计知识,对模拟二次供水管网饮用水TOC和COD进行回归分析,建立了TOC和COD的回归方程。t检验结果表明,分析得到TOC和COD之间的线性关系具有统计学意义,对方程进行精密度检验,得到对每一测得的TOC,对应的COD在COD=0. 351 51+0. 157 92×TOC±0. 365 48之间,可通过TOC检测结果预测COD的理论值,为生活饮用水TOC的自动化连续检测逐步取代COD检测作为衡量饮用水有机物含量的主要指标提供实践依据。
Total Organic Carbon( TOC) and Chemical Oxygen Demand( COD) are commonly used to measure the degree of organic contamination in water. In theory,there is a linear relation between these two indicators. Taking CPVC pipe as experiment material,this study conducted a regressive analysis on TOC and COD of the simulated secondary water supply pipe network bases on SAS and statistical knowledge,as well as establish the regressive equation between TOC and COD. The result of T test shows that the linear relation between TOC and COD has statistical significance. According to the precision test of this equation,for each TOC value,the corresponding COD is in the range of 0. 351 51 + 0. 157 92 × TOC ± 0. 365 48 in accordance with results. On the basis of the new relationship,the theoretical value of COD can be predicted by test results of TOC,which can provide practical basis for the automation continuous testing of TOC of drinking water gradually replaces the testing of COD and then being the main indicator that can measure the organic content in drinking water.
Total Organic Carbon( TOC) and Chemical Oxygen Demand( COD) are commonly used to measure the degree of organic contamination in water. In theory,there is a linear relation between these two indicators. Taking CPVC pipe as experiment material,this study conducted a regressive analysis on TOC and COD of the simulated secondary water supply pipe network bases on SAS and statistical knowledge,as well as establish the regressive equation between TOC and COD. The result of T test shows that the linear relation between TOC and COD has statistical significance. According to the precision test of this equation,for each TOC value,the corresponding COD is in the range of 0. 351 51 + 0. 157 92 × TOC ± 0. 365 48 in accordance with results. On the basis of the new relationship,the theoretical value of COD can be predicted by test results of TOC,which can provide practical basis for the automation continuous testing of TOC of drinking water gradually replaces the testing of COD and then being the main indicator that can measure the organic content in drinking water.
引文
[1]张玲,刘书明,胡洪营.塑料管材输配水过程中有机物释放规律研究[J].中国环境科学,2014,34(6):1478-1484.
[2]董萍,胡斯翰,孙忠.不同来源废水中TOC与COD相关性研究[J].环境科学与管理,2018,43(2):117-120.
[3]熊德明,王朝强,梅绪东,等.页岩气开发废水COD与TOC相关性研究[J].长江大学学报(自科版),2016,13(19):6-9; 3.
[4]张双,周集体.高盐有机化工废水中COD与TOC的相关性[J].化工环保,2018,38(1):122-126.
[5]张丹.含氯化工废水TOC和COD的相关性研究[J].环境科学与管理,2015,40(9):138-141.
[6]王海英,武丹,方普杰.天津饮用水源地TOC和COD_(Mn)回归分析研究[J].环境科学与管理,2014,39(6):109-111.
[7]冯国双,罗凤基.医学案例统计分析与SAS应用[M].北京:北京大学医学出版社,2015:122-127.
[2]董萍,胡斯翰,孙忠.不同来源废水中TOC与COD相关性研究[J].环境科学与管理,2018,43(2):117-120.
[3]熊德明,王朝强,梅绪东,等.页岩气开发废水COD与TOC相关性研究[J].长江大学学报(自科版),2016,13(19):6-9; 3.
[4]张双,周集体.高盐有机化工废水中COD与TOC的相关性[J].化工环保,2018,38(1):122-126.
[5]张丹.含氯化工废水TOC和COD的相关性研究[J].环境科学与管理,2015,40(9):138-141.
[6]王海英,武丹,方普杰.天津饮用水源地TOC和COD_(Mn)回归分析研究[J].环境科学与管理,2014,39(6):109-111.
[7]冯国双,罗凤基.医学案例统计分析与SAS应用[M].北京:北京大学医学出版社,2015:122-127.
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