Designing and producing large-volume liquid gamma-ray standard sources for low radioactive pollution measurements of seawater samples by comparison between experimental and simulation results
详细信息 查看全文
- 作者:Mohammad Reza Zarea ; M_R_Zare@yahoo.com" class="auth_mail" title="E-mail the corresponding author ; Mahdi Kamalib ; c ; m.kamali@eng.ui.ac.ir" class="auth_mail" title="E-mail the corresponding author ; Zohreh Omidid ; Maryam Fallahi Kapourchalie
- 关键词:Portable HPGe detector ; Large volume standards ; Monte Carlo simulation ; Efficiency calibration ; Gamma spectrometry
- 刊名:Measurement
- 出版年:2016
- 出版时间:August 2016
- 年:2016
- 卷:90
- 期:Complete
- 页码:412-417
- 全文大小:1302 K
文摘
In order to in-situ measurement of large volume water samples, using of a portable HPGe detector was considered. Because of necessity of efficiency calibration of the detector for the geometry (100 L), the large volume standard sources were prepared. Before making large volume standard sources (100 L), the Monte Carlo method has been applied in order to optimizing the calibration procedures and in agreement with experiment results, has been caused reducing the amount of produced radioactive wastes. First, the efficiency of the portable coaxial P-type HPGe detector for 1 L liquid standard sources in Marinelli beaker geometry was simulated. Then, the experimental efficiency calibration was carried out using the detector for those 1 L liquid standard sources in Marinelli beaker geometry. The detector dead layer was determined by comparison of the simulation and experimental efficiency curve results. Then, a relation between simulation and experimental measurements, that is, between pulse-height per emitted particle, F8 tally, and estimated amount of spiked radioactive solution into the 1 L distilled water in Marinelli beaker was found. Then, the efficiency calibration of the large volume liquid standard sources was simulated. The estimated amount of spiking radioactive solution into the large volume distilled water (100 L) has been taken into account dividing experimental efficiencies (in Marinelli beaker) by the simulated efficiencies (in 100 L). Finally, by spiking the large volume distilled water with the radioactive solution, efficiency calibration of the potable HPGe detector for 100 L geometry was done.