Car-borne Survey and Dose Assessment from External Radiation Exposure in Bangka Island-Reference-Cited by-同舟云学术

Car-borne Survey and Dose Assessment from External Radiation Exposure in Bangka Island

Published:2023-05-23 Issue: Volume: Page:
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Author:

Pradana Radhia¹,Nugraha Eka Djatnika²^ORCID,Wahyudi Wahyudi¹,Untara Untara¹,Wiyono Muji¹,Devriany Ade³,Shilfa Sharah Nataz¹,Sasaki Michiya⁴,Prasetio Heru¹,Winarni Ilma Dwi¹,Ekaranti Egnes¹,Nuraeni Nunung¹,Kranrod Chutima⁵,Iskandar Dadong¹,Suhariyono Gatot¹,Surniyantoro Harry Nugroho Eko¹,Makhsun Makhsun¹,Widodo Susilo¹,Omori Yasutaka⁵,Hiswara Eri¹,Hosoda Masahiro⁵,Yoshinaga Shinji⁶,Tokonami Shinji⁵

Affiliation:

1. National Nuclear Energy Agency of Indonesia: Badan Tenaga Nuklir Nasional

2. Badan Riset dan Inovasi Nasional Republik Indonesia

3. Health Polytechnic of Pangkalpinang: Politeknik Kesehatan Kementerian

4. Central Research Institute of Electric Power Industry: Denryoku Chuo Kenkyujo

5. Hirosaki University: Hirosaki Daigaku

6. Hiroshima University: Hiroshima Daigaku

Abstract

Abstract Bangka Island with a history of more than 200 years of tin mining, has brought along the byproduct of heavy minerals which contain radionuclide elements. There are some concerns about this byproduct material contributing to natural radiation in the environment. In this study, a car-borne survey was conducted, to give an accurate assessment of natural background radiation in Bangka Island. The measurement of indoor and outdoor ambient dose rates in 146 houses was also conducted for the assessment of radiation dose from external exposure received by the public. The soil samples were collected and measured by a gamma spectroscopy system to find specific radionuclide contributions to external terrestrial exposure. From 3790 measurement points during the car-borne survey, the highest ambient dose equivalent rate was measured at 596 nSv h−1 found in Muntok area, while the mean value was 101 nSv h−1 and the median value was 95 nSv.h−1. The ambient dose equivalent rate distribution map shows a relatively higher value in the northern coastal area of the island, where the Pemali tin deposit was located. The annual effective doses received from external radiation in 146 houses of Bangka ranged from 0.44 mSv y−1 to 1.30 mSv y−1, with a median value of 0.66 mSv y−1. The soil contains a relatively higher amount of thorium (232Th) which contributes 75% to external radiation exposure in Bangka Island.

Publisher

Research Square Platform LLC

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