전 세계적으로 기후변화 등의 환경 문제와 자원고갈 문제가 심각해짐에 따라 화석연료의 의존 도를 낮추고 탄소중립을 실현할 수 있는 대체 에너지원 확보가 중요해졌다. 이에 따라 국내 발전분야에서 는 중유를 대체할 수 있는 폐자원 유래 바이오중유를 2014년부터 시범보급하여 2019년 상용화를 시작하였 다. 본 연구에서는 2014년 시범보급 시작부터 2023년까지 상용화 기간을 포함한 10년간 국내에서 발전용 연료로 사용된 바이오중유를 대상으로 원료 수급 데이터 및 연료 품질 모니터링 데이터를 연도별로 분석하 여 주요 품질 특성의 변화를 평가하였다. 시범보급 초기에는 저가 원료의 사용 및 연료 제조기술의 부족 등으로 인화점, 동점도, 황분, 회분, 전산가, 금속분, 질소분, 인함량 등 대부분 품질 항목의 변동성이 컸으 나, 2018년까지 시범보급 기간을 거치며 바이오중유 생산사들의 제조기술 및 발전소의 구매 연료 품질 관 리 체계의 발전 등으로 연료 품질이 빠르게 안정화되었다. 이후 상용화 기간을 포함한 2023년까지 인화점 과 황분 함량은 안정적으로 유지되었고, 동점도, 회분, 유동점, 전산가, 금속분, 인 함량 등은 감소 추세를 나타내었으며, 발열량은 증가 추세를 보이는 것으로 나타났다. 10년간 바이오중유의 품질은 시범보급 첫해 를 제외하고 모두 법적인 품질기준을 만족하였고 연료로서의 품질 특성은 안정화되며 개선되고 있는 것으 로 나타났다.

In this study, the SBC system, a new mechanical joint method, was developed to improve the constructability of precast concrete (PC) beam-column connections. The reliability of the finite element analysis model was verified through the comparison of experimental results and FEM analysis results. Recently, the intermediate moment frame, a seismic force resistance system, has served as a ramen structure that resists seismic force through beams and columns and has few load-bearing walls, so it is increasingly being applied to PC warehouses and PC factories with high loads and long spans. However, looking at the existing PC beam-column anchorage details, the wire, strand, and lower main bar are overlapped with the anchorage rebar at the end, so they do not satisfy the joint and anchorage requirements for reinforcing bars (KDS 41 17 00 9.3). Therefore, a mechanical joint method (SBC) was developed to meet the relevant standards and improve constructability. Tensile and bending experiments were conducted to examine structural performance, and a finite element analysis model was created. The load-displacement curve and failure pattern confirmed that both the experimental and analysis results were similar, and it was verified that a reliable finite element analysis model was built. In addition, bending tests showed that the larger the thickness of the bolt joint surface of the SBC, the better its structural performance. It was also determined that the system could improve energy dissipation ability and ductility through buckling and yielding occurring in the SBC.

PURPOSES : The purpose of this study is to identify the beneficiaries of car-sharing that can utilize autonomous car-sharing services when they are introduced. METHODS : This study was conducted in two stages. The first step was to analyze the characteristics of shared car usage by region and rental time using t-Ttest. The second step was to analyze the beneficiaries of autonomous car-sharing services if they are introduced. The beneficiaries were derived using parking time and survey data. RESULTS : Car-sharing behavior showed statistically different usage characteristics by region and rental period. However, the distance traveled per trip for short trips was similar. When the autonomous car sharing service with free return and rental is introduced, 31% (Jeju) to 38% (Daejeon) of short-term renters and 50 to 52% of long-term renters are expected to benefit. CONCLUSIONS : When introducing autonomous car-sharing services, it is necessary to establish a shared car strategy that reflects the characteristics of car-sharing use by region and rental period. In particular, in Jeju Island, where the rental time is relatively longer than Daejeon, the introduction of autonomous car-sharing services will contribute to reducing the cost of shared vehicles in terms of cost.

본 연구는 대북정책 추진과정에서 집단기억이라는 북한 내부의 특징을 적극적으로 고려해야 한다는 점에서부터 시작한다. 북한 내부 상황이나 북한 주민의 대남 인식과 북한당국에 대한 충성도와 결집도 등이 고려되 지 않는다면 대북정책의 효과성은 그만큼 낮을 수밖에 없다. 북한 주민 의 세대별 집단기억을 살펴보기 위해 북한이탈주민을 대상으로 심층면접 을 진행했다. 연구대상은 북한 장마당 세대로 1980~90년대에 태어나 ‘고 난의 행군’ 시기에 유년·청소년기를 겪은 세대이며 이들의 나이는 대략 15~35세이다. 장마당 시기 신념을 주체사상, 우리식사회주의, 당과수령, 미제와 남조선, 자본주의에 관한 인식으로 구분해 살펴보았다. 장마당 세 대의 두드러진 집단기억은 무엇보다 국가와 당이 물질적으로 해 준 것이 아무것도 없으며, 이는 곧 우리식사회주의와 주체사상의 이완으로 이어 졌음을 알 수 있다. 또한 이들의 신념체계를 무너뜨리는 가장 중요한 요 인은 남한 영상물로 대변되는 외부정보에 대한 노출로 나타났다. 이전 세대인 ‘천리마세대’와 비교해 자신들의 정체성을 명확히 구분하고 있으 며, 특히 당에 대한 충성도와 결집력에서 많은 차이를 보였다. 장마당 세 대에 관한 집단기억은 향후 대북정책 추진과정에서 북한 주민의 의식구 조를 선이해하여 정책의 효과성을 높인다는 점에서 의미가 있다.

Lithium (Li) is a key resource driving the rapid growth of the electric vehicle industry globally, with demand and prices continually on the rise. To address the limited reserves of major lithium sources such as rock and brine, research is underway on seawater Li extraction using electrodialysis and Li-ion selective membranes. Lithium lanthanum titanate (LLTO), an oxide solid electrolyte for all-solid-state batteries, is a promising Li-ion selective membrane. An important factor in enhancing its performance is employing the powder synthesis process. In this study, the LLTO powder is prepared using two synthesis methods: sol-gel reaction (SGR) and solid-state reaction (SSR). Additionally, the powder size and uniformity are compared, which are indices related to membrane performance. X-ray diffraction and scanning electron microscopy are employed for determining characterization, with crystallite size analysis through the full width at half maximum parameter for the powders prepared using the two synthetic methods. The findings reveal that the powder SGR-synthesized powder exhibits smaller and more uniform characteristics (0.68 times smaller crystal size) than its SSR counterpart. This discovery lays the groundwork for optimizing the powder manufacturing process of LLTO membranes, making them more suitable for various applications, including manufacturing high-performance membranes or mass production of membranes.

Recently, it has been applied and used in various fields using 3D printing. Since it is closely connected to our lives, the mechanical properties of the output are actively studied. Therefore, in this study, tensile specimens were manufactured using the FDM lamination method using PLA materials, and the changes in tensile properties were compared and evaluated. First, 120 tensile specimens were manufactured using the spacing angle and lamination density of the lamination angle as control factors. After that, a tensile test was conducted at the same tensile speed of 5mm/s to compare and evaluate the tensile strength and elastic modulus. As a result, it was found that the tensile strength and elastic modulus increased linearly with density than the lamination angle. In addition, when the laminating angle was 0°, the tensile strength and elastic modulus were the largest. When the laminating angle was 108°, the lowest tensile strength and elastic modulus were confirmed.

The demand for energy is steadily rising because of rapid population growth and improvements in living standards. Consequently, extensive research is being conducted worldwide to enhance the energy supply. Transpiration power generation technology utilizes the vast availability of water, which encompasses more than 70% of the Earth's surface, offering the unique advantage of minimal temporal and spatial constraints over other forms of power generation. Various principles are involved in water-based energy harvesting. In this study, we focused on explaining the generation of energy through the streaming potential within the generator component. The generator was fabricated using sugar cubes, PDMS, carbon black, CTAB, and DI water. In addition, a straightforward and rapid manufacturing method for the generator was proposed. The PDMS generator developed in this study exhibits high performance with a voltage of 29.6 mV and a current of 8.29 μA and can generate power for over 40h. This study contributes to the future development of generators that can achieve high performance and long-term power generation.

The electroconvection generated on the surface of an ion exchange membrane (IEM) is closely related to the electrical/ chemical characteristics or topology of the IEM. In particular, when non-conductive regions are mixed on the surface of the IEM, it can have a great influence on the transfer of ions and the formation of nonlinear electroconvective vortices, so more theoretical and experimental studies are necessary. Here, we present a novel method for creating microscale non-conductive patterns on the IEM surface by laser ablation, and successfully visualize microscale vortices on the surface modified IEM. Microscale (~300 μm) patterns were fabricated by applying UV nanosecond laser processing to the non-conductive film, and were transferred to the surface of the IEM. In addition, UV nanosecond laser process parameters were investigated for obvious micro-pattern production, and operating conditions were optimized, such as minimizing the heat-affected zone. Through this study, we found that non-conductive patterns on the IEM surface could affect the generation and growth of electroconvective vortices. The experimental results provided in our study are expected to be a good reference for research related to the surface modification of IEMs, and are expected to be helpful for new engineering applications of electroconvective vortices using a non-conductive patterned IEM.