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Measuring^(222)Rn in aquatic environment via Pulsed Ionization Chamber Radon Detector
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作者 Lijun Song Wen Liu +4 位作者 Shibin Zhao Chunqian Li Jinjia Guo Natasha Dimova Bochao Xu 《Acta Oceanologica Sinica》 SCIE CAS CSCD 2023年第8期185-189,I0001-I0006,共11页
Radon(Rn)is a naturally occurring radioactive inert gas in nature,and^(222)Rn has been routinely used as a powerful tracer in various aquatic environmental research on timescales of hours to days,such as submarine gro... Radon(Rn)is a naturally occurring radioactive inert gas in nature,and^(222)Rn has been routinely used as a powerful tracer in various aquatic environmental research on timescales of hours to days,such as submarine groundwater discharge.Here we developed a new approach to measure^(222)Rn in discrete water samples with a wide range of^(222)Rn concentrations using a Pulsed Ionization Chamber(PIC)Radon Detector.The sensitivity of the new PIC system is evaluated at 6.06 counts per minute for 1 Bq/L when a 500 mL water sample volume is used.A robust logarithmic correlation between sample volumes,ranging from 250 mL to 5000 mL,and system sensitivity obtained in this study strongly suggests that this approach is suitable for measuring radon concentration levels in various natural waters.Compared to the currently available methods for measuring radon in grab samples,the PIC system is cheaper,easier to operate and does not require extra accessories(e.g.,drying tubes etc.)to maintain stable measurements throughout the counting procedure. 展开更多
关键词 ^(222)Rn radon measurement Pulsed ionization chamber Radon detector radon in discrete water samples submarine groundwater discharge
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