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이종휘,천병식 한국지반공학회 2011 한국지반공학회논문집 Vol.27 No.6
Recently, pressure grouting is widely being used in construction site for strength improvement of ground and water proof, reinforcement and so on. It is necessarily required to estimate an appropriate injection pressure and injection time for economical and reasonable construction in the site through the size and shape of the hardened grout measured according to ground condition. However, sampling for the hardened grout is time-consuming and needs high cost on preliminary test in the site. The system which could predict the size and shape of the hardened grout does not exist until now. Thus, numerical method based on VOF method and porous model was used for the calibration chamber injection test with injection pressure (50 kPa, 100 kPa, 150 kPa) in this study. The results indicate that the numerical technique based on VOF method and porous model among CFD analysis is expected to be a basic study for the prediction of the behavior and solidification of pressure grouting.
친환경 유기산 재료를 활용한 지반개량 공법의 현장 적용성 평가
이종휘,Jin, Youngguo,홍종욱,천병식 한국지반공학회 2012 한국지반공학회논문집 Vol.28 No.9
The method of using organic acid is more environment-friendly for it improves the strength of the ground. The method of proliferating microbes makes soil particle bonded, finally improves the strength of the ground and decreasing permeability. Although there has been the research on the effect of strength increasing, there has mever been a research on the evaluation of field application. In this paper, through the light drop weight test, the dynamic cone penetration test, the field density test, the variation of strength was investigated in the mixed ground with organic acid for 56 days. As the results of the field test, it was found that the strength and stiffness of the ground increased with organic acid, and that through SEM-EDS, the precipitation of calcium carbonate made by specified microbe obviously increased with organic acid material and so the ground was improved. Therefore, the sustainable development of this method needs to be analysed more in the future.
동다짐 공법의 개량심도 및 진동영향 예측을 위한 수치해석적 연구
이종휘,임대성,천병식 한국지반공학회 2010 한국지반공학회논문집 Vol.26 No.8
In this study, an applicability by using the FEM was investigated for the prediction of both the depth of improvement and the vibration effect when dynamic compaction method is applied. The region was modelled by the field conditions applying dynamic compaction method and the rigid body force was applied to the dynamic load model. Predicted depth of improvement calculated by the vertical peak particle acceleration was compared and analyzed with an existing empirical equation, and the effect of groundwave by deducing the peak particle velocity from vibration sources was compared and analyzed with the results of another existing empirical equation. The results showed that the prediction of the depth of improvement has similar tendency to practice, and the vibration effect has some differences in a particular section from existing equation, but it could predict the safety distance to some degree. The analyzed results are expected to be basic data for the development of reliability of dynamic compaction design with existing empirical method.
공간적 범위의 차이에 의한 도시재생 활성화지역 지정기준 적용 결과에 관한 연구
이종휘,이태희 한국산학기술학회 2020 한국산학기술학회논문지 Vol.21 No.10
This study was done to develop indicators for cities that can be used in the long term and in a sustainable manner. Activation indicators were developed to improve the resilience in the downtown area of Seo-gu, Incheon. Preliminary indicators were derived from prior studies on similar indicators of resilience for urban regeneration, and an expert opinion survey was conducted to analyze the suitability and importance of the indicators. Activation indicators were established for improving urban resilience in six areas: population stability, social inclusion, industrial diversity, local productivity, environmental sustainability, and social-based convenience. From 60 preliminary indicators, 42 indicators were selected through the expert opinion surveys for securing an economically active population, establishing a living infrastructure, improving the settlement environment, and upgrading industry to reflect the characteristics of the West, including industrial complexes. It was found that diversification is necessary. Further study is still necessary to improve the objectivity of the indicators and calculate a resilience index. The significance of this study is that it looks at quantitative indicators, complements other studies on regional decline diagnosis, and presents realistic alternatives suitable for domestic situations based on the concept of resilience. 본 연구는 도시재생 활성화지역을 지정할 때 사용되는 기준인 도시재생 활성화지역 지정기준이 기본 범위인 읍면동 범위와 통계상 제공되는 공간적 범위의 최소 단위인 집계구 범위의 적용이 어떠한 차이의 결과를 나타내는지에 대하여 파악하는 것을 목적으로 한다. 공간적 범위의 차이에 의한 도시재생 활성화지역 지정기준의 적용 결과를 분석한 결과는 다음과 같다. 첫째, 도시재생 활성화지역 지정기준의 기본 범위인 읍면동 단위의 공간적 범위가 집계구와 같은 보다 정확한 공간적 범위로 바뀌어야 한다. 둘째, 현재 도시재생 활성화지역 지정기준이 현재 세 가지 부문의 다섯 가지 세부기준에서 보다 정밀하게 부문과 세부기준을 세워야 한다. 셋째, 집계구와 같은 일정하지 않은 공간적 범위보다 격자형식과 같은 일정한 공간적 범위의 기준이 필요하다. 본 연구를 통해 도시재생 활성화지역을 지정 할 때 더욱 정확한 기준과 공간적 범위가 필요하다는 것이 예상되며, 향후 정밀한 공간적 범위를 선정하는 것과 도시재생 활성화지역 지정기준에 대한 세부적인 수치들에 대하여 후속 연구가 필요할 것으로 보여진다.
Robust Technique using Magnetohydrodynamics for Safety Improvement in Sodium-cooled Fast Reactor
이종휘,박일석 한국원자력학회 2022 Nuclear Engineering and Technology Vol.54 No.2
Among Generation IV reactors, the sodium-cooled fast reactor (SFR) is attracting attention as a systemhaving great potential for commercial use. Gas entrainment is a thermal-hydraulic issue related to thesafety problem of the reactor core in the SFR. Typically, a dipped plate or baffles are installed under thefree surface to suppress gas entrainment. However, these approaches can cause gas entrainment in otherlocations and require many trial-and-error and verifications. In this study, a new strategy using magnetohydrodynamics to suppress gas entrainment in the SFR is proposed. In a counter-flow model, ajudgment criterion of gas entrainment occurrence was developed for both water and liquid metal. Moreover, the gas entrainment can be completely suppressed by applying a magnetic field