煤炭中铅同位素分析方法研究

煤炭中铅同位素分析方法研究

同位素比值是污染源解析的基础,为了探索燃煤污染源解析的可行性,本研究建立煤炭中铅同位素的分析方法。采用灰化-微波消解相结合的方式,将煤样转换为溶液状态,用PB树脂(冠醚类)萃取色层法,将铅和大量基体元素有效分离,用多接收电感耦合等离子体质谱法测定铅同位素比值。利用NIST 981标定天然铅溶液的铅同位素比值,应用建立的分析方法,测定^208Pb/^207Pb、^206Pb/^207Pb的同位素比值,相对误差小于0.03%。钠、镁、铝、铁、钛、锰等元素的去污系数均大于400。结果表明,该方法有效、可靠,测定标准煤样(NIST 1635a、NIST 1632d)、山西大同煤样和攀枝花煤样的^208...

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Bibliographic Details
Published in:同位素 Vol. 30; no. 4; pp. 232 - 242
Main Author: 刘缓缓;张丽华;崔大庆;朱留超;刘焕良;沈彦;赵立飞;谈树苹
Format: Journal Article
Language:Chinese
Published: 中国原子能科学研究院放射化学研究所,北京,102413 2017
Subjects:
PB树脂
多接收电感耦合等离子体质谱
煤炭
铅同位素比值
Pb isotope ratios
PB树脂
multi-collector inductively coupled plasma mass spectrometry
多接收电感耦合等离子体质谱
煤炭
铅同位素比值
coal
PB resin
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Summary:同位素比值是污染源解析的基础,为了探索燃煤污染源解析的可行性,本研究建立煤炭中铅同位素的分析方法。采用灰化-微波消解相结合的方式,将煤样转换为溶液状态,用PB树脂(冠醚类)萃取色层法,将铅和大量基体元素有效分离,用多接收电感耦合等离子体质谱法测定铅同位素比值。利用NIST 981标定天然铅溶液的铅同位素比值,应用建立的分析方法,测定^208Pb/^207Pb、^206Pb/^207Pb的同位素比值,相对误差小于0.03%。钠、镁、铝、铁、钛、锰等元素的去污系数均大于400。结果表明,该方法有效、可靠,测定标准煤样(NIST 1635a、NIST 1632d)、山西大同煤样和攀枝花煤样的^208Pb/^207Pb、^206Pb/^207Pb同位素比值,精密度均大于0.2%,两地煤样同位素比值变异为6%~10%,初步验证了建立全国煤炭中铅同位素比值背景数据库的可行性。
Bibliography:11-2566/TL
Pb isotope ratios; PB resin; multi-collector inductively coupled plasma mass spectrometry
As the basis method for the pollution source apportionment,the isotope ratios were applied for analysis Pb isotopes in coal to explore the feasibility of coal pollution source apportionment.A method was established to analysis Pb isotopes in coal.First,the coal samples were dissolved by the combination of ashing and microwave digestion.Then by using PB resin extraction chromatography,Pb and a large number of matrix elements were effectively separated.After separation,the Pb isotope ratios were determined by multi-collector inductively coupled plasma mass spectrometry.The Pb isotopic ratios of natural Pb solution were calibrated with NIST 981.Using established analytical method,the measured relative error of ~(208)Pb/~(207)Pb,~(206)Pb/~(207)Pb in natural Pb solution were less than 0.03%,the decontamination coefficients of sodium,magnesium,aluminium,iron,titanium and manganese were more than 400.The results showed
ISSN:1000-7512
DOI:10.7538/tws.2017.youxian.020