최근 전 세계적으로 탄소 배출을 줄이기 위한 노력이 계속되고 있다. 이에 따라 건설 부문에서도 시공 과정에서 탄소 배출 을 줄일 수 있는 방안을 모색하고 있다. 그중 하나가 RC 건물에서 철근을 CFRP 보강근으로 대체하는 것이다. KDS 기준에 따라 설계 된 7개 건물의 설계 자료를 바탕으로 구조부재의 철근 비율을 비교하여 철근을 CFRP 철근으로 대체할 가능성을 분석했다. 그 결과, 건물의 구조부재 중에서 슬래브가 CFRP 철근의 대체 효과가 가장 큰 것으로 나타났다. 일반적인 건물 슬래브의 경간이 1.25∼4.1 m인 것을 감안할 때 RC 슬래브에서 CFRP 철근을 철근으로 대체할 경우 CFRP 철근의 양을 철근의 1/2∼1/3까지 줄일 수 있었다.
전통적인 도로건설 재료인 시멘트 콘크리트 및 아스팔트 콘크리트는 생산과정에서 이산화탄소 등 대기 유해물질을 발생시키고, 자율 주행관점에서 자율주행 및 전기차 운행을 위한 디지털 센서 기반의 첨단기술 적용이 어려워 이를 대체하기 위한 미래 지향적 도로건설 소재 및 완전자율주행을 지향하는 기술 개발이 필요한 실정이다. 세계적으로 친환경 기술 개발 수요와 동반하여 전기, 수소차 등 친환경 모빌리티 기술과 자율주행 기술에 대한 기술적 진보가 지속적으로 이루어지고 있다. 국내의 경우, 첨단 모빌리티 분야를 국가전략기술로 지정하고 단기적으로 Lv4/4+, 장기적으로 완전자율주행 개발을 목표로 많은 연구와 정책들이 추진되고 있다. 자율주행 레벨이란 미국 자 동차공학회(SAE : Society od Automotive Engineers)가 제시한 자율주행 기술 수준 단계로, Lv.1 비자동화, Lv.2 운전자 보조, Lv.3 부분 자 동화, Lv.4 조건부 자율주행, Lv.5 고등 자율주행, Lv.6 완전 자율주행의 총 6단계로 구성된다. Lv 3.의 경우 주행 중 다양한 돌발 상황 및 주변 사물들을 모두 인식하고 이에 대응할 수 있지만, 부득이한 경우 운전자가 운전할 필요가 있다고 자동차가 판단할 경우 운전자 가 개입하여 운전하는 수준이며, Lv 4.의 경우 특정 환경(구역, 날씨 등)에서는 자동차가 모든 자율주행 기능을 지원, 어떠한 상황에서도 운전자가 개입할 필요가 없는 수준을 말한다. 현재는 조건부 자율주행, Lv 3.에서 자율주행 Lv 4, 즉 고등 자율주행 단계로 넘어가는 시 점이나 영상기반의 현 자율주행 시스템은 악천후 시 자율주행차가 안전하게 주행할 수 있도록 지원하는데 어려운 한계를 가지고 있다. 이와 더불어 자율주행과 관련된 기술과 주행 안전성을 담보하기 위한 도로 인프라, 즉 도로의 재료, 기하구조 문제(노면상태, 차로상태, 도로안내표지 등을 인식하는 문제)에 대한 대안 제시 필요성도 대두되고 있다. 본 연구에서는 현 자율주행 문제의 한계 극복 및 탄소배출 저감이 가능하도록 자율주행 센서 등 다양한 첨단 센서의 적용이 용이한 재활용 플라스틱 소재에 대한 도로 인프라 적용 가능성을 검토하고 기초 실험을 통해 강도측면에서의 재활용 플라스틱의 도로인프라 적 용 가능성을 확인하였다.
Undeclared nuclear activities are challenging given the lack of information from the sites involved in such activities. Wide-area environmental sampling (WAES) can be an effective method to detect undeclared nuclear activities. However, it is crucial to address the potential risks during the WAES, including sample tampering or extortions. Therefore, tracking and monitoring of various on-site data is imperative to accurately interpret the status of samples and workers throughout the WAES process. ‘Environmental and Geographical Data Transfer (EGDT)’ was developed for the real-time monitoring of integrated on-site data. EGDT module is equipped with various sensors and can be attached to a worker’s uniform or a sample storage box. This study demonstrated the technical effectiveness of EGDT by exploring three experimental methodologies for feasibility assessment. Compared to the Normal Operation case, the inference of the Sample Extortion case was predominantly based on changes in lux and dose rate. The inference of the Out-of-Work-Area case primarily relied on changes in dose rate and acceleration. Finally, the preliminary evaluation of the performance of the developed prototype was conducted, and a foundation was established for enhancing the application in the WAES process.
송전철탑의 심형기초 시공 시 안전확보가 매우 중요한데, 무거운 철근을 취급하는 작업자의 중대 재 해 위험이 크고 실제로 심형기초를 위한 철근공 작업자들의 사고가 끊이질 않는 실정이다. GFRP는 철근 이상의 인장강도를 갖도록 제작이 가능하고, 철근에 비해 무게가 가벼워 취급이 용이하며 시공 편이성이 높다는 장점이 있다. 따라서 본 연구에서는 철근을 대체하여 GFRP를 보강근으로 활용한 심 형 기초의 구조설계에 대해 다루었다. 국내 송전철탑 설계기준(가공송전선용 철탑기초 설계기준, DS-1110, 한국전력) 및 ACI440.1R-06 설계기준을 참고하여 GFRP 보강근이 적용된 심형 기초의 구 조검토를 수행하여 GFRP 보강근의 적용성을 검토하였다. 송전철탑의 심형 기초 단면에는 휨모멘트와 축력이 동시에 작용하며 심형기초의 주체부 및 구체부 특성에 따라 축력에 의한 편심모멘트가 추가로 작용한다. 이에 따라 설계 검토는 휨 및 축력이 동시에 작용하는 경우에 대해 수행되었다. 국내 기준 (DS-1110)의 구조검토는 허용응력설계법의 형식을 취하므로 축력과 휨모멘트에 의한 최대응력을 산 정하여 허용응력과 비교하였고, 강도설계법을 통한 구조검토는 보강된 단면의 P-M 상관도를 작도하 여 휨모멘트 및 축력이 동시에 작용하는 경우 구조 안전성 확보 유무를 판단하여 GFRP 보강재를 배 근한 단면의 설계적정성을 판단하였다.
Fundamental aspects of creating passivation layers for corrosion resistance in nuclear engineering applications, specifically the ability to form complete layers versus porous ones, are being explored in this study. Utilizing a laser ablation technique, 1,064 nm fire at 10 Hz with 60 pulses per shot and 0.5 mm between impact points, aluminum samples are treated in an attempt to create a fully formed passivation layer that will be tested in a LiCl-KCl eutectic salt. By placing these samples into an electrochemical environment mimicking a pyroprocessing system, corrosion rates, resistances and material characteristics are tested for one week and then compared between treated and untreated samples. In initial testing, linear sweep voltammetry indicates corrosion current density for the untreated sample at −0.038 mA·cm−2 and treated samples at −0.024 mA·cm−2 and −0.016 mA·cm−2, respectively. This correlates to a control sample corrosion rate of −0.205 mm·yr−1 and treated rates of −0.130 mm·yr−1 and −0.086 mm·yr−1 for samples 1 and 2. In addition, electrochemical impedance spectroscopy circuits show application of a longer-lasting porous passivation layer on the treated metal, compared to the naturally forming layer. However, the current technique fails to create a uniform protection layer across the sample.
본 연구는 국립공원계획 타당성검토의 구역조정 기준과 방법을 한려해상국립공원에 적용하여 평가 하는 것을 목적으 로 하였다. 구역조정 대상지 도출에 이용되는 생태기반평가 결과 편입 검토가 가능한 생태기반평가 Ⅰ등급은 10.0%, Ⅱ등급 40.4%로 분석되었다. 해제 검토가 가능한 Ⅴ등급은 9.9%이었다. 편입 및 해제 적합성 평가 결과 편입대상 면적은 35.150㎢(육상 3.669㎢, 해상 31.481㎢)이었고 해제 대상 면적은 육상 0.071㎢이었다. 지자체와 지역주민이 공익상 또는 주민편의를 위해 공원구역 해제를 요구하는 곳에서는 총 면적이 변화되지 않는 범위 내에서 해제 검토가 가능하며, 이것을 상호교환이라 한다. 상호교환에 의해 결정된 해제 면적은 10.386㎢이었다. 이것은 해제 적합성 평가에 의해 도출된 면적의 146배에 달했다. 상호교환으로 해제되는 지역을 생태기반평가와 매칭한 결과 해제를 절대 할 수 없는 Ⅰ,Ⅱ등급에 해당하는 곳이 70.6%(7.321㎢) 이었다. 결과적으로 한려해상국립공원 타당성검토의 구역조정은 생태기반평가나 해제 적합성 평가 결과가 매우 제한적으로 적용되었음을 알 수 있었다. 또한 상호교환이 국립공원 계획 타당성검토 중 구역조정의 핵심이었다.
In alignment with South Korea's “3020 Renewable Energy Expansion Plan,” this study focuses on the developing large-scale floating wind turbines. It addresses the challenges of increased size and cost in floating structures for wind turbines over 10MW. This paper details the preliminary design of a novel floating substructure utilizing composite materials(ie, EVA). Structural analysis was performed using ABAQUS, accounting for both typical and extreme wind conditions. Results from the analysis validate that the substructure design is adequately feasible for implementation.
The inorganic scintillator used in gamma spectroscopy must have good efficiency in converting the kinetic energy of charged particles into light as well as high light output and high light detection efficiency. Accordingly, various studies have been conducted to enhance the net-efficiency. One way to improve the light yield has been studied by coating scintillators with various nanoparticles, so that the scintillation light can undergo resonance on surface between scintillators and nanoparticles resulting in higher light yield. In this study, an inorganic scintillator coated with CsPbBr3 perovskite nanocrystals using dip coating technique was proposed to improve scintillation light yield. The experiment was carried out by measuring scintillation light output, as the result of interaction between inorganic scintillator coated with CsPbBr3 perovskite nanocrystals and gamma-ray emitted from Cs-137 gamma source. The experimental results show that the channel corresponding to 662 keV full energy peak in the Cs-137 spectrum shifted to the right by 14.37%. Further study will be conducted to investigate the detailed relationships between the scintillation light yield and the characteristics of coated perovskite nanoparticles, such as diameter of nanoparticles, coated area ratio and width of coated region.
Derived Concentration Guideline Levels (DCGLs), which represent the residual radioactivity concentration limits, serve as the pivotal criteria for decontamination during decommissioning of nuclear power plants and are essential for license termination. The analysis of radionuclides in various media to check site-specific and radionuclide-specific DCGLs is a resource-intensive and time-consuming processes, and there are some radionuclides that are hard to analyze. In the decommissioning of the Rancho Seco nuclear power plant in the United States, a conservative approach was adopted. Potentially highly contaminated areas on the site were identified by collecting and analyzing soil samples, and radionuclides exceeding the Minimum Detectable Concentration (MDC) were selected as the potential Radionuclide of Concern (ROC), and surrogate DCGLs for hard-to-detect radionuclides were applied to soil samples. For soil samples in the Rancho Seco nuclear power plant, Cs-137 contributed more than 90% of the total radioactivity. DCGLs of the ROC were obtained using the scaling factors through analysis of Cs- 137 for a large amount of soil samples. In Korea, the scaling factor methodology has not been applied to the decommissioning of commercial nuclear power plants. An initial investigation was undertaken to assess the viability of implementing Surrogate Derived Concentration Guideline Levels (DCGLs) in the dismantling of Kori Unit 1, drawing insights from the U.S. nuclear power plant decommissioning experiences. To do this approach, the concentration ratio of radionuclides of interest to key radionuclide in contaminated soil should be known and consistent. But related information is not available at this time. So Surrogate DCGL for representative C-14, Fe-55, Ni-59, Ni-63, and Sr-90 was obtained using the scaling factors applied to radioactive waste data, specifically Decontaminated Aqueous Waste (DAW) and Spent Resin. In order to develop a reliable surrogate DCGLs the Kori Unit 1 site, it is important to analyze the radionuclides in the soil for the Kori Unit 1 decommissioning site to obtain consistent concentration ratio of the radionuclides of concern to the key radionuclides. When a the suitable DCGL is developed, it can be used for FSS planning and prior decision-making ensuring the safe and effective decommissioning of Kori Unit 1 and similar nuclear power plants.
함정의 전투관리체계나 민간의 스마트 시티와 같은 많은 센서와 동작기기가 연결된 체계에서는 주로 미들웨어인 DDS(Data Distribution Service)를 사용하여 대규모의 데이터를 전송하고 향후 센서나 장비 증가에 대해 효과적으로 대응하고 있다. 선박에서 함정의 전투관리체계(Combat Management System, CMS)와 같은 역할을 하는 중요한 제어체계인 통합기관감시제어체계(Engineering Control System, ECS)는 여전히 Server-Client 모델을 기반으로 산업용 프로토콜(Modbus, CAN(Controller Area Network) bus 등)을 사용하여 데이터를 전송하고 있어 확장성 측면에서 불리하다. 따라서 향후 자동화나 무인화가 진행될 경우에 많은 센서류가 추가될 것이며 이는 많은 프로그램 수정 소요가 발생하게 되며, DDS는 이러한 상황에서 좋은 해결책이 될 수 있다. 본 연구에서는 전투관리체계에서 사용 중인 미들웨어인 DDS 중에서 OMG(Object Management Group) 표준을 따르는 OpenDDS를 활용하여 선박의 통합기관감시제어체계의 개발 가능성을 확인하였다. 이를 위해 필드장비 시뮬레이터 및 ECS 서버를 구성하여 DDS를 이용한 필드장비 데이터 입출력 시뮬레이션을 수행하였다. 개발한 ECS 축소모형은 데이터를 발간-구독하는데 문제가 없으며, DDS가 선박 ECS의 미들웨어로 충분히 사용할 수 있을 것으로 판단된다.
Background: Swallowing disorder is a common disease that can cause various complications such as malnutrition, dehydration, aspiration pneumonia, and poor quality of life, and can affect people of all ages, from infants to the elderly. Swallowing disorder rehabilitation is a complex process involving various skills such as exercise, diet modification, and posture adjustment. This study implements a rehab program for swallowing disorders using the Kinesio Tapping technique. Design: Prospective pilot case study. Objectives: To improve laryngeal detachment by providing external support to the muscles involved in swallowing using kinesio taping for conventional complex swallowing disorder rehabilitation. Methods: The study included 16 participants who were diagnosed with swallowing difficulties after a stroke and admitted to a rehabilitation ward in Ulsan. The average age of the participants, consisting of 9 males and 7 females, was 69.0 years (SD=1.23) and 64.0 years (SD=1.45), respectively. The stroke types were hemorrhagic and infarction, with onset periods ranging from 6 to 12 months (SD=1.11) in all participants. Each participant received a video fluoroscopy study (VFSS) for six months using the taping method developed by the research team. Kinesio taping techniques were developed by two professional physical therapists and one occupational therapist based on anatomical movements. Results: Significant differences were observed in self-training on the bed after the rehabilitation program compared to the initial period Kinesio taping can help improve laryngeal dislocation and reduce the risk of aspiration by providing external support to the muscles involved in swallowing. However, the effectiveness and optimal application techniques of kinesio taping in the rehabilitation of swallowing disorders are not yet clear. Conclusion: The results of this study could lead to the development of a new treatment protocol that incorporates kinesio taping as a standard therapy for the rehabilitation of swallowing disorders in bedridden patients.
The purpose of this study is to evaluate the feasibility of the new marine leisure ships. In order to achieve the research purpose, the cost and income were calculated based on the operating of other marine leisure ships, and the feasibility of the project was empirically analyzed. This study established a research model that applies the values derived by empirically analyzing ships with similar specifications, to the new marine leisure ships. We then calculated the cost-benefit analysis, net present value, and internal return, and evaluated the feasibility of the project based on this. As a result of the business feasibility analysis of investing in marine leisure ship, it was found that economic feasibility exists with a B/C of 1.042 and 1.049 for new and secondhand ships, respectively; however, considering the stability of the ship and the publicity and continuity of the business operation, it is recommended to invest in new ships compared to secondhand ships. The total benefit over the 10-year operating period using a social discount rate of 4.5% was evaluated to be about KRW 292.0 billion, which is higher than the total cost of KRW 256.6 billion. In conclusion, the profitability analysis showed that the B/C was 1.042, the NPV was KRW 193 billion, and the IRR was 2.1%, which indicates that profitability is weakly secured.
Plastic scintillators can be used to find radioactive sources for portal monitoring due to their advantages such as faster decay time, non-hygroscopicity, relatively low manufacturing cost, robustness, and easy processing. However, plastic scintillators have too low density and effective atomic number, and they are not appropriate to be used to identify radionuclides directly. In this study, we devise the radiation sensor using a plastic scintillator with holes filled with bismuth nanoparticles to make up for the limitations of plastic materials. We use MCNP (Monte Carlo N-particle) simulating program to confirm the performance of bismuth nanoparticles in the plastic scintillators. The photoelectric peak is found in the bismuth-loaded plastic scintillator by subtracting the energy spectrum from that of the standard plastic scintillator. The height and diameter of the simulated plastic scintillator are 3 and 5 cm, respectively, and it has 19 holes whose depth and diameter are 2.5 and 0.2 cm, respectively. As a gamma-ray source, Cs-137 which emits 662 keV energy is used. The clear energy peak is observed in the subtracted spectrum, the full width at half maximum (FWHM) and the energy resolution are calculated to evaluate the performance of the proposed radiation sensor. The FWHM of the peak and the energy resolution are 61.18 keV and 9.242% at 662 keV, respectively.
Radiological characterization is important in decommissioning and dismantling of nuclear facilities, in order to assess the radioactivity concentration, classify the wastes, and secure workers’ safety. The Some components such as Reactor Pressure Vessel (RPV) in nuclear facilities has dose rate higher than Sv/hr, thus in-situ gamma spectroscopy systems suffer from a very high count rate which causes energy resolution degradation, photo-peak shift, and count loss by pile-up and dead-time. The system must be operated in a very high count rate, in order to measure spectra precisely and to quantify radionuclide contents. In order to apply in-situ measurement in high radiation dose rate environment, the sensor, front-end electronics, and data acquisition (DAQ) should be carefully selected and designed as well as precise design of collimators and radiation shield. In this paper, the components of the detector system were selected and performance was evaluated in a high count rate before design the collimator and shield. A LaBr3 coupled with a PMT having short decay time constant (16 nsec) was selected for high count rate application, and two different amplifiers (a conventional charge sensitive preamplifier with 50 usec decay time constant, and wide-band voltage amplifier) were tested. As DAQs, DT5781 (14 bit, 100 MS/s, CAEN) of Pulse Height Analysis (PHA) which is conventionally used signal processing method in the gamma spectroscopy, and DT5730 (14 bit, 500MS/s, CAEN) of Pulse Shape Discrimination (PSD) which is similar to Charge to Digital Convertor (QDC) were used. The number of photons incident to the detector was varied by changing the detector-source distance with Certificate Radiation Material (CRM), and compared to the output count rate. The count rate capability, and energy resolution with different amplifier and DAQ was evaluated. Additionally, the performance of DAQs in extremely high count rate was evaluated with signal data generated by the emulator which can simulate the detector signal waveforms fed into the DAQ based on the measured spectrum.