Development of an online monitoring system for water body γ radioactivity based on 4G-RTU

ZHANG Sheng; WANG Yongjun; WANG Ruijun; HUANG Qingbo; ZHANG Chunlei; WU Mingyang

doi:10.11889/j.0253-3219.2024.hjs.47.010402

He jishu (Jan 2024)

Development of an online monitoring system for water body γ radioactivity based on 4G-RTU

ZHANG Sheng,
WANG Yongjun,
WANG Ruijun,
HUANG Qingbo,
ZHANG Chunlei,
WU Mingyang

Affiliations

ZHANG Sheng: Airborne Survey and Remote Sensing Center of Nuclear Industry, Shijiazhuang 050002, China
WANG Yongjun: Airborne Survey and Remote Sensing Center of Nuclear Industry, Shijiazhuang 050002, China
WANG Ruijun: Airborne Survey and Remote Sensing Center of Nuclear Industry, Shijiazhuang 050002, China
HUANG Qingbo: Airborne Survey and Remote Sensing Center of Nuclear Industry, Shijiazhuang 050002, China
ZHANG Chunlei: Airborne Survey and Remote Sensing Center of Nuclear Industry, Shijiazhuang 050002, China
WU Mingyang: Airborne Survey and Remote Sensing Center of Nuclear Industry, Shijiazhuang 050002, China

DOI: https://doi.org/10.11889/j.0253-3219.2024.hjs.47.010402
Journal volume & issue: Vol. 47, no. 1
pp. 76 – 86

Abstract

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BackgroundWith the rapid development of nuclear energy and the wide application of nuclear technology, the radioactivity level of bodies of water has become a highly concerning issue for the public and governments, especially after the Fukushima nuclear accident in Japan.PurposeThis study aims to develop an online γ radioactivitymonitoring system based on 4G Remote Terminal Unit (4G-RTU) to meet the needs of online and emergency monitoring of water radioactivity.MethodsFirst, the γ-ray monitoring device based on sodium iodide detector, 4G-RTU, an integrated power supply waterproof and compression resistant floating device and corresponding software were employed to compose an online monitoring. Second, Qt programming control software was used to realize the remote control of the system, real-time radioactivity monitoring, and data upload. Finally, the original data obtained by the system were used to test the performance indicators, applicability, accuracy, and software functions to verify the practicability of the system.ResultsWithin the coverage of the 4G network, the system realizes remote control of equipment, real-time online monitoring, and data upload throughout the day. The detectable energy range of the system is 30~3 000 keV, and the energy resolution of the system for 137Cs at 662 keV is 7.3% with minimum detectable activity of 0.75 Bq∙L-1. The spectral drift for 208Tl at 2 614 keV is 0.33%, and the linearity of the spectral energy is 0.999 970. The maximum value of energy spectrum stability is 2.28% for 7 h continuous operating, and the minimum value is -2.36%. The operating temperature range of the system is in the range of -5 ℃ to +50 ℃.ConclusionsThe on-line monitoring system meets the application demand and achieves the expected function. It has important popularization value and application prospects in the field of online radioactive monitoring of bodies of water such as oceans, lakes, and rivers.

Published in He jishu

ISSN: 0253-3219 (Print)
Publisher: Science Press
Country of publisher: China
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Nuclear engineering. Atomic power
Website: https://www.hjs.sinap.ac.cn/

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