• 한국원자력학회:학술대회논문집
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• 한국원자력학회 2004년도 추계학술발표회 발표논문집
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• pp.487-488
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• 2004

• 한국원자력학회:학술대회논문집
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• 한국원자력학회 2005년도 추계학술발표회
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• pp.1027-1028
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• 2005

• Nuclear Engineering and Technology
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• 제55권12호
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• pp.4554-4560
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• 2023

Continuous monitoring of radioactive substances over a prolonged duration can yield crucial insights into the levels of radiation exposure through inhalation, both in the vicinity of nuclear facilities and/or general environments. In this study, we evaluated long-term measurements (2012-2022) of gross alpha-beta activities in the air in the vicinity of nuclear facilities and reference site, distribution characteristics of temporal trends and spatial fluctuations, and factors affecting radioactivity levels. The average airborne gross-α (in mBq m^-3) for onsite and off-site were 0.124 and 0.117, respectively, and the average airborne gross-β (in mBq m^-3) measurements were 1.10 and 1.04, respectively. The activity ratio (AR) of gross-α and gross-β were calculated as a ratio of 0.12. The distribution characteristics of gross-α and gross-β activities in this study area are likely influenced by the meteorological factors and variations in airborne PM concentrations rather than the operation of the nuclear facility.

• 정보보호학회논문지
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• 제29권4호
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• pp.877-884
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• 2019

기술발전에 따라 원자력시설에 사용되는 장비가 아날로그 시스템에서 디지털 시스템으로 변경되는 추세이다. 컴퓨터와 디지털시스템의 비율이 증가함에 따라 원자력시설은 사이버 위협에 노출되었다. 그 결과 사이버보안에 대한 관심이 높아지고 사이버 공격으로부터 시스템을 보호해야 한다는 인식의 변화가 생겼다. 국내 규제기관에서 발행한 KINAC/RS-015는 필수디지털자산에 대해 101가지 사이버보안 통제항목을 제시하였지만 디지털자산의 특성을 고려하지 않은 일반적인 항목이다. 모든 사이버보안 통제항목을 필수디지털자산에 적용하는 것은 많은 작업량과 효율성을 떨어뜨린다. 본 논문에서는 필수디지털자산의 특성을 파악하고 적절한 보안조치항목을 제시함으로써 효과적인 사이버 보안 통제항목 적용을 제안한다.

• 대한방사선기술학회지:방사선기술과학
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• 제41권5호
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• pp.437-444
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• 2018

Whole-Body counters have been used to evaluate the internal contamination of gamma emitting radionuclides. Among the whole-body counters used in domestic nuclear facilities, Fastscan made by CANBERRA contains 2 NaI(Tl) detectors and is generally used to monitor the primary internal exposure. It has the advantage of achieving MDA even with short time measurements. Accuscan is a bed type, and has good energy resolution because it is composed of HPGe detector. Since the Accuscan with better energy resolution than Fastscan has better able to identify radionuclides, it is used to monitor secondary internal exposure. Some nuclear facilities have only Fastscan. We analyzed statistically whether Fastscan is enough to ensure accuracy and precision comparing with Accuscan. To do this, we prepared a CRM created by the Korea Research Institute of Standards and Science. We also obtained the data of 6 Fastscans and 5 Accuscans in domestic nuclear facilities. As a result of the study, although Fastscan compared with Accuscan is not as accurate as the Accuscan, the precision is statistically same. However, accuracy of Fastscan is in compliance with international standards except low energy range. In terms of accuracy and precision except radionuclides emitting low energy, it is possible to measure radioactivity inside workers even in nuclear facilities where only Fastscan is used.

• Journal of Radiation Protection and Research
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• 제28권3호
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• pp.247-254
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• 2003

To prevent the potential health detriment to the public from radioactive effluents, radiological dose assessments due to the operation of nuclear facilities located at Korea Atomic Energy Research Institute (KAERI) site has been performed semiannually in compliance with the Minister of Science and Technology (MOST)'s Notice in Korea. Radiological dose assessment based on the new recommendation of the International Committee on Radiation Protection (ICRP-60) has been conducted since 1998. In this manuscript, a serial activities at KAERI site to meet the regulatory standards for routine releases of radioactive effluents are introduced and discussed including technical approaches. It is clear that each nuclear facility has been operated in compliance with regulatory standards. Furthermore, it is identified that the radiation induced health effects for residents around the site are neglectable.

• Nuclear Engineering and Technology
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• 제55권12호
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• pp.4465-4471
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• 2023

Hands-on education and training is a key part of fixing and developing technology knowledge and is an inherent part of many engineering and scientific curricula. However, access to large complex training facilities, such as nuclear reactor, could be limited by various factors, such as unavailability of those facilities in the region, high traveling costs or harmonization of the schedules of hands-on E&T with theoretical lectures and with the operational schedule of the facility. To handle the issue, several success stories have been reached with the introduction of the Internet Reactor Labs (IRL). The Internet Reactor Labs can strongly contribute to accessibility of training at research reactors and can contribute to improvements in their utilization. The paper describes the development of the Internet Reactor Lab at the VR-1 reactor of the Czech Technical University in Prague. Contrary to single-purpose IRLs, it presents various modalities of online teaching and training in experimental reactor physics and reactor operation in general as well as outreach activities that have been developed in recent years.

• 한국재난정보학회:학술대회논문집
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• 한국재난정보학회 2015년 정기학술대회
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• pp.294-297
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• 2015

Decommissioning of nuclear facilities should be accomplished by assuring the safety of workers because decommissioning activities of nuclear facilities are under high radioactivity and work difficulty. It is necessary that before decommissioning, the radiation exposure dose of workers has to be evaluated and assessed under the principle of ALARA (as low as reasonably achievable). Furthermore, to improve the proficiency of decommissioning environments, method and system need to be developed. The legacy methods of exposure dose measurement and assessment had the limitations to modify and simulate the exposure dose to workers prior to practical activities because those should be accomplished without changes of working routes under predetermined scenarios. To simulate a lot of decommissioning scenarios, decommissioning environments were designed in virtual reality. To simulate and assess the exposure dose to workers, human model also was designed in virtual environments. These virtual decommissioning environments made it possible to real-time simulate and assess the exposure dose to workers. It can be concluded that this system is able to protect from accidents and enable workers to improve his familiarization about working environments. It is expected that this system can reduce human errors because workers are able to improve the proficiency of hazardous working environments due to virtual training like real decommissioning situations. In the end, the safety during decommissioning of nuclear facilities will be guaranteed under the principle of ALARA.

• 한국방사선학회논문지
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• 제15권1호
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• pp.37-43
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• 2021

국내에는 다수의 원자력시설이 존재하며, 지리적으로 비핵화 대상국인 북한을 주변국으로 두고 있다. 변화하는 국제 정세에 따른 선제적 대응으로 대상시설에 대한 핵감식 데이터를 구축할 필요가 있다. 이를 위해 국내 원자력시설 및 핵연료 주기를 고려하여 핵물질 및 기타 방사성물질의 기원 또는 출처를 파악하는데 사용되는 표지물질을 제시하였다. 국내에서는 경수로 및 중수로를 운용하고 있으며 각각 핵연료로 농축 우라늄과 천연우라늄을 사용한다. 국내 선행핵연료주기에서 표지물질은 중수로형 원자력발전소의 연료인 천연우라늄과 우라늄 농축과정의 UF6으로 생각할 수 있다. 국내 후행핵연료주기는 재처리 과정을 제외된 비순환 주기를 채택하고 있어 주요 표지물질은 사용후핵연료가 된다. 해당 물질들에 대해 IAEA 문헌에서 권고하는 표지물질의 시그니처 중요도를 판단하고 조사 항목을 제시하였다. 향후 핵감식에서 핵물질 관리에 대한 무결성 입증과 국가 핵감식 역량을 높이기 위한 핵감식 라이브러리 구축을 위해 국내 원자력시설과 핵연료주기를 고려한 표지물질을 파악하고 해당물질 별 시그니처 데이터를 확보해야 할 것으로 생각된다.

• 한국방사성폐기물학회:학술대회논문집
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• 한국방사성폐기물학회 2004년도 Proceedings of the 4th Korea-China Joint Workshop on Nuclear Waste Management
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• pp.191-204
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• 2004

The research and development of effective management technologies of the spent fuels discharged from power reactors are an important and essential task of KAERI. In resent several years KAERI has focused on a project named "development and demonstration of the Advanced spent fuel Conditioning Process (ACP) in a laboratory scale." The Facility for ACP demonstration consists of two Hot Cells and auxiliary facilities. It is now in the final design stage and will be constructed in 2004. After construction of the facility the ACP equipments will be installed in Hot Cells. The ACP will be demonstrated by some simulated spent fuels first and then by spent fuels.