After the Fukushima nuclear power plant accident in 2011, interest in technology for evaluating residents’ exposure to effluents generated from nuclear power plants at the time of the accident has increased. KHNP has developed the S-REDAP program and is using it to evaluate radiation dose and recommend resident protection measures in the event of a nuclear power plant emergency. Its main functions are source term evaluation, atmospheric diffusion evaluation, radiation dose evaluation, etc. Based on these evaluations, resident protection measures are evaluated. In Japan, evaluation is conducted through a program called SPEEDI-MP (System for Prediction of Environmental Emergency Dose Information Multi-model Package) created by JAEA (Japan Atomic Energy Agency). Similar to S-REDAP, the program also evaluates effluents emitted from nuclear facilities through source term evaluation and atmospheric diffusion factor evaluation. In JAEA, through a program using SPEEDI-MP, the source term evaluation was performed in collaboration with NSC (Nuclear Safety Commission) in the event of the Fukushima nuclear plant accident, and dose evaluation in Japan was performed 2 months as an atmospheric diffusion factor using meteorological data for 2 days. Through comparative analysis of evaluation data from Japan, improvements to the current program be derived.

K-DOSE60, a off-site dose calculation program currently used by khnp, is performing evaluation based on the gaseous effluent evaluation methodology of NRC Reg. Guide 1.109. In particular, H-3 and C-14, which are the major nuclides of gaseous effluent, are evaluated using a ratio activity model. Among them, H-3 is additionally evaluating the dose to OBT (Organically Bound Tritium) and HT as well as HTO (Triated water). However, NRC Reg. Guide 1.109 is a methodology developed in the 1970s, and verification was performed by applying the evaluation methodology of H-3 and C-13 presented by IAEA TRS-472 in 2010 to the current K-DOSE60. The IAEA TRS-472 methodology also includes OBT and HT for H-3. In order to apply the ratio radioactivity model presented in IAEA TRS-472, the absolute and relative humidity were calculated using the weather tower of the nuclear site and used for H-3 evaluation. For the dose evaluation of HT, the previously used Canada Chalk River Lab. (CNL) conversion factor was used. For atmospheric carbon concentration, the carbon concentration presented in IAEA TRS-472 was used, not the carbon concentration in the 1970s of NRC Reg. Guide 1.109. It was confirmed that the K-DOSE60, which applied the changed input data and methodology, was satisfied by performing comparative verification with the numerical calculation value.

In 2022 and 2023, the Korea Institute of Nuclear Safety (KINS), a regulatory body, revised the regulatory guidelines for off-site dose evaluation to residents, marine characteristics surveys around nuclear facilities, and environmental radiation surveys and evaluation around nuclear facilities. In addition, the NRC, a US regulatory body, has revised regulatory guide 1.21 (MEASURING, EVALUATING, AND REPORTING RADIOACTIVE MATERIAL IN LIQUID AND GASEOUS EFFLUENTS AND SOLID WASTE) to change environmental programs for nuclear facilities. The domestic regulatory guidelines were revised and added to reflect the experience of site dose evaluation for multiple units during the operation license review of nuclear facilities, the resident exposure dose age group was modified to conform to ICRP-72, and the environmental monitoring plan was clarified. In the case of the US, the recommended guidelines for updating the long-term average atmospheric diffusion factor and deposition factor, the clarification of the I-131 environmental monitoring guidelines for drinking water, and the clarification of the procedures described in the technical guidelines when changing environmental programs have been revised and added. Through such regulatory trend review, it is necessary to preemptively respond to changes in the regulatory environment in the future.

Airborne surveys are an essential analysis method for rapid response and contamination identification in the early event of a radiation emergency. On the other hand, airborne surveys are far from the ground, so it is necessary to convert the dose rate at a height of 1 m above the ground. In order to improve the accuracy of the analysis value, a lot of analysis of the measurement data is required. In our previous research, we developed MARK-A1, an instrument for rapid radiation aerial survey in high radiation environment, and MARK-M1, a multipurpose instrument for radiation detection. In this study, a large unmanned aerial vehicle (UAV) was used to conduct airborne surveys using three types of detectors in the Jeju Island environment. The NaI(Tl) detector uses one 3-inch scintillator (38 mm φ × 38 mm H), and the LaBr3 detector uses two 2-inch scintillators (25 mm φ × 25 mm H). The CZT detector uses a detector with dimensions of (15 mm × 15 mm × 7.5 mm). The UAV has a payload of 15 kg (J10, JCH systems Inc. Seoul, Korea). Three different detectors were operated at a constant height of 20 m, 30 m, and 50 m. The flight experiments were performed in the west near Jeju City. Dose rate conversion factors were used to convert the dose rate from the measured spectra, and hovering flights were conducted between 1 and 50 meters to derive altitude correction factors. In this paper, the data measured with each detector in the same area were compared and the differences were derived.

The ability to both assay the presence of, and to selectively remove ions in a solution is an important tool for waste water treatment in many industrial sectors, especially the nuclear industry. Nuclear waste streams contain high concentrations of heavy metals ions and radionuclides, which are extremely toxic and harmful to the environment, wildlife and humans. For the UK nuclear industry alone, it is estimated that there will be 4.9 million metric tonnes of radioactive waste by 2125, which contains a significant number of toxic radionuclides and heavy metals. This is exacerbated further by increased international growth of nuclear new build and decommissioning. Efforts to remove radionuclides have been focused on the development and optimisation of current separation and sequestering techniques as well as new technologies. Due to the large volumes of waste the techniques must be economical, simple to use and highly efficient in application. Magnetic nanoparticles (MNPs) offer a powerful enhancement of normal ion exchange materials in that they can be navigated to specific places using external magnetic fields and hence can be used to investigate challenges such as, pipework in preparation of decommissioning projects. They also have the potential to be fine-tuned to extract a variety of other radionuclides and toxic heavy metals. It has been demonstrated that with the right functional groups these particles become very strongly selective to radionuclides, such as Uranium. However, this new technology also has the potential to effectively aid nuclear waste remediation at a low cost for the separation of both radionuclides and heavy metals. In this work, we investigate the origin of the selectivity of superparamagnetic iron oxide nanoparticles (SPIONs) to Uranium by making systematic changes to the existing surface chemistry and determining how these changes influence the selectivity. Identifying the mechanism by which selected common nuclear related metals, such as Na(I), K(I), Cs(I), Ca(II), Cu(II), Co(II), Ni(II), Cd(II), Mg(II), Sr(II), Pb(II), Al(III), Mn(II), Eu(III) and Fe(III), are sorbed will allow for specific NP-target (nanoparticle) ion interactions to be revealed. Ultimately this understanding will provide guidance in the design of new targeted NP-ligand constructs for other environmental systems.

Thermal treatment, such as combustion, is the most effective way to solve the spatial problem of radioactive waste disposal. Existing incineration technology has the problem of discharging harmful pollutants (CO2 and dioxin, etc.) into the environment. Therefore, it was evaluate the validity of the thermal treatment process that can reduce the volume of dry active waste (DAW) in an eco-friendly. In addition, the stability of the alternative incineration process under development was evaluated by evaluating the emission of harmful pollutants to the environment during the thermal treatment process. We selected 14 samples identical to those discarded by each nuclear power plant (Kori, Saeul, Wolsong, Hanbit, Hanul). And EA (Elemental Analysis) analysis was performed on each sample. As a result, excluded samples containing wastes containing POPs (Persistent Organic Pollutants) such as PCBs (Polychlorinated Biphenyls), which could generate harmful pollutants during thermal treatment, and halogenated organic wastes such as PVC (Polyvinyl Chloride). In addition, the thermal treatment conditions for the four DAWs were derived by Thermogravimetric Analysis/Differential Thermal Analysis (TG/DTA) analysis. At this time, Py-GC/MS analysis was performed at the temperature at which each waste causes thermal decomposition (cotton is 437°C, paper is 562°C, latex glove is 430°C, plastic bag is 485°C). As a result of analyzing the exhaust gas produced during thermal decomposition, about 77.0% of the cotton was Benzoic acid series, the paper was 41.1% Glucopyranose series, and 15.8% hydroxy acetaldehyde. Latex glove was identified to be 45.9% and 19.2% for Limonene and 2-methyl-1, 3-Butadiene, and for plastic bags, Octacosanol and 2-octyl-1-Dodecanol were 38.8% and 15.2%. In addition, it was confirmed that dioxin and harmful heavy metals, which are discussed as environmental risks, were not detected in all samples.

Uranium inventory in Boeun aquifer is facing the artificial reservoir that intended for supplying water to nearby cities (40-70 m apart) where, toxic radionuclides might mobile and enter the reservoir. In order to understand U mobility in the system, groundwater and fracture filling materials (FFMs) were analyzed for microbial signatures, C, O, Fe, S and U-series isotopes. The δ18O-H2O and 14C signatures suggested groundwater was originated from upland recharges dominantly and not affected by mixing with the surface water. However, the 234U/238U activity ratios (ARs) and 230Th/234U ARs in FFMs ranged from 0.93 to 1.67 and from 0.22 to 1.97, respectively, indicating that U was mobile along the fractures. In shallow FFMs, the U accumulations (~157 mg/kg) were found with Fe enrichments (~226798 mg/kg) and anomalies of δ56Fe and δ57Fe, implied U mobility in shallow depths was associated with Fe-rich environment. Also, in the shallow depths, Fe-oxidizers, Gallionella was prevailing in groundwater while Acidovorax was abundant near U ore depth. The Fe-rich environment in shallow depths was formed by pyrite dissolution, demonstrated using δ34S-SO4 and δ18O-SO4 distribution. Conclusively, the Fe-rich aquifer was capable of immobilizing the dissolved U through biotic and abiotic processes, without significant discharge into the nearby reservoir.

Owing to their simplicity and ease of synthesis, carbon nanotubes (CNTs) have captivated attention of researchers. Many engineering applications have investigated the new features of nanostructured carbon nanotubes, such as large surface area, stiffness and durability. CNTs have opened up new opportunities for environmental improvement, pollution management and application in a variety of fields. Multiple types of pollution are produced as a result of population growth, urbanization and industrialization. CNTs are used to solve a variety of challenges, including environmental difficulties, water pollution, biomedical applications, and so on. It becomes an unavoidable present and future material. Different applications of CNTs have been presented in this review paper. CNTs are potential material having number of uses, including water purification, drug delivery, preservatives, catalysis, genetic engineering and artificial implants which are reviewed in this review article. This paper is presenting an explicit and systematic progress of CNTs for water treatment, medicinal uses drug delivery, artificial implants and so on, and a multitude of CNT applications in broad disciplines and their purification methods have been covered. The issues related to synthesis technologies, purification technology, bio-medicinal application and catalytic property of CNTs within the framework of different engineering applications and environmental impact are discussed in this study.

기후변화를 비롯한 다양한 환경문제로 인하여 환경 교육의 중요성이 증가되고 있다. 환경 교육 을 위한 식물 교육 프로그램을 개발하고 이를 초등학생 121명에게 적용한 후 환경친화적 태도와 식물친숙도를 평가하였다. 식물 환경교육 프로그램에 대해서는 전체적으로 만족도가 높았으며, 프로그램 시간, 강사, 내용, 장소 등이 만족도에 영향을 미쳤다. 초등학생들은 프로그램 참여 의 사가 높으며, 만족도와 참여 의사는 높은 상관관계가 있었다. 프로그램을 수행하지 않은 학생과 비교하면 식물교육 프로그램의 효과로 환경 지식습득, 기분개선이 높게 분석되어 식물 교육 프 로그램은 환경에 대한 인식의 제고에 긍정적 효과가 있다. 환경친화적 태도의 하위 영역인 환경 보호와 환경오염에 대한 인식에서 효과가 있으며, 학년이 낮을수록 교육에 의한 차이가 있었다. 저학년부터 다양한 환경 교육 활동을 경험하게 되면 환경 감수성이 향상될 것으로 기대된다. 식 물 교육활동은 식물 친숙도에 긍정적 효과가 있으며, 인지적 측면에서 지식습득의 효과 뿐 아니 라 정서적 측면의 향상에도 유리하다. 환경친화적 태도와 식물친숙도 향상에 효과가 있는 식물 교육프로그램의 참여도 향상을 위해서는 만족도를 제고해야 하며, 이를 위해서는 프로그램 시 간, 강사, 내용 등의 운영 및 구성이 중요할 것으로 판단된다.

남북관계는 여전히 교착되어 있다. 본 연구는 기후변화 시대를 맞아 남북 기후변화 공동대응을 위한 정책적 시사점을 전달하는 것에 목적을 둔다. 본 연구는 텍스트마이닝을 통해 북한의 기후변화 관련 보도를 분 석하였다. 분석 결과, 북한의 기후변화 대응은 국제협력과 지속적으로 연 계되고 있다는 점을 파악했고, 북한의 국제사회 발표자료를 중심으로 질 적연구를 진행하여 그 논의를 검증하는 절차를 거쳤다. 북한은 국제협력 을 통해 기후변화에 대응하고자 하며, 산림보호를 통한 기후변화 대응을 강조하고 있다. 따라서 남북 기후변화 공동대응을 위해서는 우선적으로 남북산림협력을 통한 노력이 요구된다고 할 수 있다. 본 연구는 김정은 시기 북한의 산림 논의와 북한 산림 보도의 특징을 분석하기 위해 텍스 트마이닝을 다시 수행하며 남북교류협력 추진을 위한 시사점을 도출하였 다. 이를 통해, 본 연구는 국제사회의 대북제재로 인해 남북협력의 한계 가 있는 현 상황에서, 실현가능한 협력사업으로 인도주의적 사업과 역량 강화, 능력배양 사업을 제언하였다.

본 연구는 2019년부터 2021년 9월까지 수집된 홀스타인 젖소 19,930두의 자료를 수집하였으며, 3 SD (Standard Deviation, SD) 범위에서 벗어나는 이상치를 제외한, 8,675두를 분석에 이용하였다. 자료분석은 Statistical Analysis System (SAS) 9.4 software를 사용하였고, 뒷유방높이, 뒷유방너비, 유방깊이, 유두길이 및 유두둘레의 실측치를 사용하였다. 그리고 뒷유방높이, 뒷유방너비, 유방깊이, 유두길이 및 유두둘레의 실측치와 산차, 305일 유량, 비유단계 및 착유속도의 환경요인의 효과를 추정하였다. 산차와 유량이 증가함에 따라 뒷유방너비, 유두길이 및 유두둘레의 실측치는 유의적으로 증가하는 것으로 나타났으며(p < 0.0001), 비유단계에 따라서 뒷유방너비 및 유방깊이의 실측치는 비유단계가 증가할수록 유의적으로 감소하는 것으로 나타났다(p < 0.0001). 각 환경효과에 따른 유방형질 실측치의 표현형 상관의 결과에서는 뒷유방너비와 유방깊이 실측치가 산차 및 유량수준에 대해 높은 상관을 나타냈으며, 특히, 유방형질 중 유방깊이 실측치와 산차에 대해 -0.40 ~ -0.67로 높은 음(-)의 상관을 보였다. 본 연구 결과로 미루어 볼 때, 유방형질이 유생산에 밀접한 관련이 있는 만큼 중요한 형질로 취급되어야 하며, 이들의 기초연구와 함께 유전적 특성을 구명하는 등 더 많은 연구가 수행되어야 할 것으로 사료된다.