• Journal of Radiation Protection and Research
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• 제47권2호
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• pp.99-106
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• 2022

Background: The radionuclide inventory calculation codes such as ORIGEN and FISPACT collapse neutron reaction libraries with energy spectra and generate an effective one-group cross-section. Since the nuclear cross-section data, energy group (g) structure, and other input details used by the two codes are different, there may be differences in each code's activation inventory calculation results. In this study, the calculation results of neutron-induced activation inventory using ORIGEN and FISPACT were compared and analyzed regarding radioactive waste classification and worker exposure during nuclear decommissioning. Materials and Methods: Two neutron spectra were used to obtain the comparison results: Watt fission spectrum and thermalized energy spectrum. The effective one-group cross-sections were generated for each type of energy group structure provided in ORIGEN and FISPACT. Then, the effective one-group cross-sections were analyzed by focusing on ⁵⁹Ni, ⁶³Ni, ⁹⁴Nb, ⁶⁰Co, ¹⁵²Eu, and ¹⁵⁴Eu, which are the main radionuclides of stainless steel, carbon steel, zircalloy, and concrete for decommissioning nuclear power plant (NPP). Results and Discussion: As a result of the analysis, ¹⁵⁴Eu and ⁵⁹Ni may be overestimated or underestimated depending on the code selection by up to 30%, because the cross-section library used for each code is different. When ORIGEN-44g, -49g, and -238g structures are selected, the differences of the calculation results of effective one-group cross-section according to group structure selection were less than 1% for the six nuclides applied in this study, and when FISPACT-69g, -172g, and -315g were applied, the difference was less than 1%, too. Conclusion: ORIGEN and FISPACT codes can be applied to activation calculations with their own built-in energy group structures for decommissioning NPP. Since the differences in calculation results may occur depending on the selection of codes and energy group structures, it is appropriate to properly select the energy group structure according to the accuracy required in the calculation and the characteristics of the problem.

• 방사선산업학회지
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• 제17권4호
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• pp.443-449
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• 2023

KAERI(Korea Atomic Energy Research Institute) is conducting research and development of large-scale radiation generators and the latest radiation measuring instruments. In particular, research and development of security screening equipment using an electron beam accelerator and a neutron generator is in progress recently. Globally, 20 ft containers are used to transport imports and exports, and electron beam accelerators are radiation sources to measure the shape of the material inside the container during customs inspections in each country. KAERI is developing a device that can use an electron beam accelerator and a neutron generator sequentially to grasp the shape of various materials as well as the location of the internal target material. In this study, when using the neutron generator, the radiation dose and the degree of activation by neutron for the facility and surrounding environment, facility equipment were simulated using MCNP and FISPACT code. As a result, the shielding structures inside and outside the radiation control area were satisfactory to the reference level established conservatively based on the Korean Nuclear Act.

• 한국방사선학회논문지
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• 제15권4호
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• pp.415-427
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• 2021

한국원자력의학원에서는 50 MeV 사이클로트론의 빔 라인을 이용하여 연구자들에게 다양한 빔 조사 서비스를 수행하고 있다. 특히 중성자 빔 서비스는 양성자와 베릴륨의 핵반응을 이용하기 때문에 높은 전류를 사용하므로 조사 시료의 방사화 가능성이 높아진다. 본 연구에서는 연구자들이 선호하는 35 MeV 20 ㎂ 중성자 빔 서비스에 의해 발생 가능한 방사화에 대해 MCNP 6.2와 FISPACT-II 4.0을 이용해 평가했다. 평가결과 철, 구리, 텅스텐 시료는 1시간 이상 조사하는 경우 장반감기 핵종이 생성되는 방사화가 발생하여 자체처분농도를 초과했다. 매일 2시간 사용 조건에서 건축물에 대한 방사화는 발생하지 않았고 조사실 내부 공기의 방사화로 인한 종사자의 내부피폭은 매우 미비했고, 이 공기를 배기하는 경우 배출기준도 만족했다.

• Journal of Radiation Protection and Research
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• 제37권2호
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• pp.63-69
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• 2012

The second phase of the national program for fusion energy development in Korea starts from 2012 for design and construction of the fusion DEMO reactor. Radiological assessment for the fusion reactor is one of the key tasks to assure its licensability and the starting point of the assessment is determination of the source terms. As the first effort, the activities of the coolant due to activated corrosion product (ACP) were estimated. Data and experiences from fission reactors were used, in part, in the calculations of the ACP concentrations because of lack of operating experience for fusion reactors. The MCNPX code was used to determine neutron spectra and intensities at the coolant locations and the FISPACT code was used to estimate the ACP activities in the coolant of the fusion DEMO reactor. The calculated specific activities of the most nuclides in the fusion DEMO reactor coolant were 2-15 times lower than those in the PWR coolant, but the specific activities of $^{57}Co$ and $^{57}Ni$ were expected to be much higher than in the PWR coolant. The preliminary results of this study can be used to figure out the approximate radiological conditions and to establish a tentative set of radiological design criteria for the systems carrying coolant in the design phase of the fusion DEMO reactor.

• 한국방사선학회논문지
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• 제14권5호
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• pp.563-575
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• 2020

본 연구 목적은 컨테이너 보안 검색용 선형가속기에서 발생하는 방사화 특성을 평가하는 것이다. 전산모사 설계는 첫째, 표적은 텅스텐(Z=74) 단일물질 표적 및 텅스텐(Z=74)과 구리(Z=29) 복합물질 표적으로 구성하였다. 둘째, 부채꼴(Fan beam) 조준기는 물질에 따라 납(Z=82) 단일 물질과 텅스텐(Z-74)과 납(Z=82)의 복합물질로 구성하였다. 셋째 선형가속기가 위치한 방(Room)의 콘크리트는 Magnetite type 및 불순물(Impurity)을 포함하였다. 연구 방법은 첫째, MCNP6 코드를 이용하여 선형가속기 및 구조물을 F4 Tally로 광중성자 플럭스(Flux)를 계산하였다. 둘째, MCNP6 코드에서 계산된 광중성자 플럭스를 FISPACT-II에 적용하여 방사화 생성물을 평가하였다. 셋째, 방사화 생성물의 비방사능을 통해 해체 평가를 진행하였다. 그 결과 첫째, 광중성자 분포는 표적에서 가장 높게 나왔으며, 조준기 및 10 cm 깊이의 콘크리트 순으로 나타났다. 둘째, 방사화 생성물은 텅스텐 표적 및 조준기에서 W-181, 불순물이 포함된 콘크리트에서 Co-60, Ni-63, Cs-134, Eu-152, Eu-154 핵종이 부산물(by-product)로 생성되었다. 셋째, 해체 시 텅스텐 표적은 90일 이후 자체 처분 허용 농도를 만족하는 것으로 보였다. 이러한 결과는 9 MeV 에너지에서의 광중성자 수율(Yield) 및 방사화 정도가 미미한 것으로 확인할 수 있었다. 하지만, 선형가속기 텅스텐 표적 및 조준기에서 발생한 W-181은 수리를 위한 분해 시 피폭의 영향을 줄 수 있을 것으로 생각된다. 따라서, 본 연구는 컨테이너 보안검색용 선형가속기 방사화된 부품관리에 관한 기초 자료를 제시한 것이다. 또한, 컨테이너 보안 검색용 선형 가속기 해체 시 자체처분을 만족하는 농도 기준을 입증하는데 활용될 수 있을 것으로 기대한다.