可燃毒物铒的辐照及其同位素热电离质谱法测定
铒(Er)是一种适用于轻水堆(LWR)的长效可燃毒物,Er2O3的堆内辐照是研究中子毒物Er辐照性能的基本手段。Er2O3在高通量工程试验堆(HFETR)中子注量率约为2×10^14/(cm^2·s)的辐照孔道中辐照91.3h。采用热电离质谱法(TIMS)测定辐照前、后样品中Er同位素丰度,跳峰模式测定6个Er同位素,低丰度^162Er由法拉第杯检测。测定时准确控制升温测量电流,将蒸发带和电离带电流控制在1 400、5 500mA以下,可减小^168Yb、^170Yb对^168Er、^170Er的同量异位素影响。结果表明,经中子辐照后^166Er、^167Er、^168Er同位素丰度变化较大,...
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| Published in | 核化学与放射化学 Vol. 39; no. 5; pp. 373 - 376 |
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| Main Author | |
| Format | Journal Article |
| Language | Chinese |
| Published |
中国核动力研究设计院第一研究所,四川成都,610005
20.10.2017
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0253-9950 |
| DOI | 10.7538/hhx.2017.YX.2016062 |
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| Summary: | 铒(Er)是一种适用于轻水堆(LWR)的长效可燃毒物,Er2O3的堆内辐照是研究中子毒物Er辐照性能的基本手段。Er2O3在高通量工程试验堆(HFETR)中子注量率约为2×10^14/(cm^2·s)的辐照孔道中辐照91.3h。采用热电离质谱法(TIMS)测定辐照前、后样品中Er同位素丰度,跳峰模式测定6个Er同位素,低丰度^162Er由法拉第杯检测。测定时准确控制升温测量电流,将蒸发带和电离带电流控制在1 400、5 500mA以下,可减小^168Yb、^170Yb对^168Er、^170Er的同量异位素影响。结果表明,经中子辐照后^166Er、^167Er、^168Er同位素丰度变化较大,丰度变化与中子吸收截面大小密切相关。 |
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| Bibliography: | burnable poison; erbium isotopes; neutron irradiation; thermal ionization mass spectrometry (TIMS) Erbium(Er)is a kind of long-term burnable poison which is suitable for lightwater reactor(LWR).The irradiation of Er2 O3 is a basic means to study the performance of burnable absorber Er in the reactor.Er2O3 samples were irradiated in the irradiation channel(neutron fluence rate is about 2×10^14/(cm^2·s))of high flux engineering test reactor(HFETR)for 91.3 h.The Er isotopic abundances of irradiated samples were measured by thermal ionization mass spectrometry(TIMS).The peak jumping mode was applied to determine the 6 isotopes of Er,and the low abundance 162 Er was detected by the Faraday cup.Isobaric interferences can be reduced by accurate control of heating current.Experiment shows that the isobaric interferences of ^168Yb,^170Yb were reduced when the evaporation filament current was below 1 400 mA and ionization filament current was below 5 500 mA.The measurement results show that the ^166Er,^167Er and ^168Er |
| ISSN: | 0253-9950 |
| DOI: | 10.7538/hhx.2017.YX.2016062 |