广州化工
廣州化工
엄주화공
GUANGZHOU CHEMICAL INDUSTRY AND TECHNOLOGY
2014年
13期
120-122
,共3页
饮用水%离子色谱法%溴酸盐%不确定度
飲用水%離子色譜法%溴痠鹽%不確定度
음용수%리자색보법%추산염%불학정도
drinking water%ion chromatography%bromate%uncertainty
根据GB/T5750.10-2006《生活饮用水标准检验方法消毒副产物指标》测定饮用水中溴酸盐的含量,建立离子色谱法测定饮用水中溴酸盐的不确定度数学模型,通过分析其测定的过程,确定影响测定结果的不确定度主要分量来源,并计算出扩展不确定度。该方法的建立为饮用水中溴酸盐的不确定度评估提供了参考。
根據GB/T5750.10-2006《生活飲用水標準檢驗方法消毒副產物指標》測定飲用水中溴痠鹽的含量,建立離子色譜法測定飲用水中溴痠鹽的不確定度數學模型,通過分析其測定的過程,確定影響測定結果的不確定度主要分量來源,併計算齣擴展不確定度。該方法的建立為飲用水中溴痠鹽的不確定度評估提供瞭參攷。
근거GB/T5750.10-2006《생활음용수표준검험방법소독부산물지표》측정음용수중추산염적함량,건립리자색보법측정음용수중추산염적불학정도수학모형,통과분석기측정적과정,학정영향측정결과적불학정도주요분량래원,병계산출확전불학정도。해방법적건립위음용수중추산염적불학정도평고제공료삼고。
Bromate in drinking water was determined according to GB /T5750.10-2006 Drinking Water Disinfection Byproducts Standard Test Method Targets, and a mathematical model of uncertainty of determination of bromate in drinking water was built by ion chromatography determined by the analysis.The impact of the main sources of component measurement result of uncertainty was determined , and the expanded uncertainty was calculated and established.The method provided a reference for uncertainty evaluation of bromate in drinking water.
