广州化工
廣州化工
엄주화공
GUANGZHOU CHEMICAL INDUSTRY AND TECHNOLOGY
2015年
14期
120-122
,共3页
微波消解%原子吸收%污泥%金属
微波消解%原子吸收%汙泥%金屬
미파소해%원자흡수%오니%금속
microwave digestion%atomic absorption%sludge%metal
参考环境标准》固体废物镍铜的测定》和》固体废物铅锌隔的测定》优化了原子吸收仪工作参数和微波消解条件,建立了微波消解-原子吸收法测定太阳能电池行业废水处理后污泥中的铜和锌元素的分析方法,方法的检出限范围为0.001~0.009 mg/L,方法加标回收率93.3%~109%,相对标准偏差RSD均小于5%。
參攷環境標準》固體廢物鎳銅的測定》和》固體廢物鉛鋅隔的測定》優化瞭原子吸收儀工作參數和微波消解條件,建立瞭微波消解-原子吸收法測定太暘能電池行業廢水處理後汙泥中的銅和鋅元素的分析方法,方法的檢齣限範圍為0.001~0.009 mg/L,方法加標迴收率93.3%~109%,相對標準偏差RSD均小于5%。
삼고배경표준》고체폐물얼동적측정》화》고체폐물연자격적측정》우화료원자흡수의공작삼수화미파소해조건,건립료미파소해-원자흡수법측정태양능전지행업폐수처리후오니중적동화자원소적분석방법,방법적검출한범위위0.001~0.009 mg/L,방법가표회수솔93.3%~109%,상대표준편차RSD균소우5%。
An analysis method as microwave digestion-atomic absorption spectroscopy ( ADAAS) was established for the determination of copper and zinc in the sludge from the treatment of solar cell industry wastewater.With reference to the environmental standards of Determination of Nickel and Copper Solid Waste and Determination of Lead, Zinc and Cadmium Solid Waste, the microwave digestion conditions as well as the operating parameters of atomic absorption spectrometer were optimized.The detection limit of this method was in the range of 0.001 ~0.009 mg/L.The relative standard deviation ( RSD) was less than 5%and recoveries were 93.3%~109.0%.
