• 한국전산유체공학회:학술대회논문집
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• 1999.05a
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• pp.113-123
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• 1999

In this study a pure vector potential method (PVPM) for a three dimensional, unsteady, incompressible flow is proposed. A simplified version for a two dimensional problem is described in detail, and a method to prescribe appropriate boundary conditions is also presented. The resulting numerical algorithm is applied to the cavity flow driven by an impulsively started wall and also to the Stokes' first problem. Some important unsteady/steady features are captured for these two flows, and quantitative agreements of flow variables with available reference database are good.

• KSCE Journal of Civil and Environmental Engineering Research
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• v.14 no.3
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• pp.565-572
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• 1994

Consolidation behavior on soft clay was investigated by using one- and two-dimensional analysis based on original and modified one dimensional consolidation theory. For the analytical model, the embankment was simulated by applying single- or multi-surcharge loading to the surface of soft clay. Based on the results obtained, it was found that the predicted settlement by one dimensional consolidation theory was most of the time higher than the observed one at the mid- and especially lateral-zone of embankment. When compared with two dimensional analysis, the result of modified one dimensional consolidation analysis showed almost similar trend to the observed one. There fore even in case where proper selection of soil parameters, one dimensional consolidation theory like as modified one dimensional consolidation theory could be suggested due to its convenience.

• Journal of the Computational Structural Engineering Institute of Korea
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• v.16 no.1
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• pp.43-52
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• 2003

The present study is to investigate the ultimate behavior and limit state design of 2-I) R/C structures, with the changing of crack direction, and the yielding of the reinforcing steel bars, and Is to introduce an algorithm for the limit state design and analysis of 2-D R/C structures, directly from the finite element model. For the design of reinforcement in concrete the limit state design equation is incorporated into finite element algorithm to be based on the pointwise elemental ultimate behavior. It is also introduced a simplified nonlinear analysis algorithm for stress-strain relationship of R/C plane stress problem considering the cracking and its rotation in concrete and the yielding of the reinforcing steel bar. The algorithm is incorporated into the nonlinear finite element analysis. The analysis model is compared with the experimental model of R/C shear wall. In a simple design example for a shear wall, the required reinforcement ratios in each finite element is obtained from the limit state design equations.

• Journal of the Korean Geotechnical Society
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• v.34 no.8
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• pp.15-26
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• 2018

Recently, as the seismic performance based design methods have been introduced, dynamic numerical analyses need to be performed to evaluate the actual performance of structures under earthquakes. The verification of the numerical modeling is the most important for the performance based design. Therefore, 2-dimensional numerical analyses were performed to simulate the seismic behavior of a pile-supported structure, to provide the proper numerical modeling and to determine of input parameters. A dynamic centrifuge test of a pile group in dry loose sand was simulated to verify the applicability of the numerical model. The numerical modeling was carefully made to reflect the actual condition of the centrifuge test including dynamic soil properties, soil-pile interaction, boundary condition, the modeling of the group pile and structure and so on. The predicted behavior of the numerical analyses successfully simulated the acceleration variation in ground, the moment and displacement of the pile, and the displacement and acceleration of the structure. Therefore, the adopted numerical modeling and the input parameters can be used to evaluate the seismic performance of pile groups.

• Journal of Korea Water Resources Association
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• v.54 no.6
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• pp.407-418
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• 2021

In this study, the two-dimensional flow model, Nays2DH, and driftwood dynamics model were combined to analyze the flow and driftwood behavior depending on the characteristics of the inflow of driftwood and the length of the driftwood stem. In particular, the Dashpot-spring model was added to the driftwood dynamics model to simulate the collision motion of the driftwood, and the wood jam characteristics by the collision of the driftwood were compared. As a result of the simulation, the pass rate of the obstacle section, the travel distance of wood jam, and the mean position of the wood pieces were respondent sensitively by the length of the driftwood stem, but the cohort size of the driftwood supply was insignificant excepting for the pass rate. Through this study, we could understand the interaction between hydraulic structures and driftwood, and through this, it is believed that it will be helpful in establishing a durable maintenance plan for hydraulic structures by predicting the transport and jam formation phenomena of driftwood in advance.

• Geotechnical Engineering
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• v.12 no.1
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• pp.87-110
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• 1996

To simulate the three4imensional effect occurring near the tunnel face in a two -dimensional model, empirical load -dirtribution ratio concept is frequently used in tunnel design. In this paper, three -dimensional analysis is performed and its results are compared with those of two dimensional analysis'to investigate the applicability of the loadiistribution ratio concept. Especially, stress concentration near the tunnel face is investigated in depth. A parametric study is performed to investigate the effect of each factor on the load distribution ratio. The factors considered here include unsupported span length, initial stress, rock quality, tunnel size and the depth of tunnel location Moreover, the load -distribution ratios for the typical tunnel sections in Seoul Subway to be used in the tunnel design are suggested.

• Computational Structural Engineering
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• v.8 no.3
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• pp.91-102
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• 1995

For the wave propagation problems, the influence of time-dependent dynamic behavior must be accounted in the analysis. In this study, the dynamic analysis method which combines finite elements and boundary elements is developed for the wave propagation problem modelling the infinity of medium through 3-D boundary elements and underground structure through degenerated finite shell elements. Performing dynamic analysis of underground tunnels by the proposed coupling method of boundary and finite elements, it is found that the change of the stiffness of structures has a good effect on the response. It is also found that the consideration of the repeating effect due to moving traffic loads which is difficult with existing 2-D dynamic analysis can be possible with the 3-D analysis in time domain.

• Proceedings of the Korea Water Resources Association Conference
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• 2011.05a
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• pp.424-428
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• 2011

기후변화의 영향으로 대규모 호우와 예측이 어려운 국지성 호우가 전 세계적으로 빈번하게 발생하고 있으며, 우리나라 또한 최근 강수일수의 감소와 강수량 및 집중호우의 증가추세가 보고되고 있다. 집중호우에 따른 피해를 저감시키기 위한 비구조적 대책으로써 홍수범람 위험지역에 대해서는 침수면적이나 침수심도의 예측은 풍수해로 인한 인명 및 재산피해를 최소화하기 위한 중요한 정보로 활용될 수 있다. 비정방향격자기반 2차원 홍수범람 해석모형은 고정확도의 해석결과를 제공하지만 범람모의를 위한 입력 자료의 구축과 모의시간의 제약성으로 인해 범람예측의 신속성을 확보하기 어렵고, 다른 수리 수문 모형과의 결합이 상대적으로 어려우며, 다양한 래스터 DB들과의 호환이 어려워 홍수피해액을 산정 또는 예측하기 어렵다는 단점을 가지고 있다. 따라서 본 연구에서는 지반고를 고려하여 범람류의 전파거동을 해석하는 정방형격자기반의 2차원 홍수범람해석기법과 다차원 피해액 산정기법을 결합하여 2002년 태풍 '루사'로 인한 '동막', '장현' 저수지의 동시붕괴로 인한 피해지역의 침수편입률 및 침수피해액을 산정하고 실측 침수심도와 피해액 통계자료를 활용하여 모의결과의 정확도를 검증한다.

• Proceedings of the Korea Water Resources Association Conference
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• 2010.05a
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• pp.630-634
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• 2010

최근의 기후변화는 강우강도의 증가로 인한 홍수의 빈도 및 홍수량의 증가로 인한 홍수 피해의 증가를 유발하고 있으며, 갈수기 및 평수기의 유량감소로 인한 수질의 악화와 부유사의 증가로 인한 피해가 증가하고 있는 실정이다. 이러한 피해에 대한 대책으로는 기후변화를 유발하는 전 지구적인 온난화의 대책이 가장 선행되어야 하겠으며, 또한 이수, 치수를 위한 정확한 하천해석을 통한 하천관리가 매우 중요한 실정이다. 하천관리는 경제 산업적 측면에서 중요한 분야이며, 바람직한 하천관리를 위해서는 하천의 거동에 대한 정확한 해석이 필수적이다. 많은 흐름 해석에서 섬이나 하천 구조물의 주위에서 복잡한 2차원적인 하천 흐름의 특성을 잘 나타낸다. 2차원 수치모형들은 이러한 불규칙한 경계면에서 발생하는 난류흐름을 처리하는데 어려움이 있다. 이는 대부분의 실제하천이나 홍수파 해석, 댐 붕괴류 해석, 조수영향과 같은 해안공학의 문제에서도 발생한다. 본 연구에서 개발한 난류해석기법의 적용성을 검증하기 위하여 내부경계가 존재하는 실험하도에 대한 수치모의를 수행하고 결과를 실험치, 해석해와 비교를 통하여 모형의 적용성과 적정 난류교환계수를 선정하였다. 실측치와 비교검토를 통하여 본 연구에서 개발된 2차원 난류해석을 유한요소모형의 적용성을 검증하였다.

• Transactions of the Korean Society of Mechanical Engineers A
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• v.39 no.3
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• pp.249-257
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• 2015

A fuel assembly consists of fuel rods composed of pellets (UO2) and a cladding tube (Zircaloy). The role of the fuel rods in the reactor is to generate heat by nuclear fission, as well as to retain fission products during operation. A simulation method using a computer program was used to evaluate the safety of the nuclear fuel rods. This computer program has been called the fuel performance code. In the analysis of a light water reactor fuel rod, the gap conductance, which depended on the distance between the pellets and cladding tube, mainly influenced the thermomechanical behavior of the fuel rod. In this work, a 3D gap element was proposed to simulate the thermo-mechanical behavior of the nuclear fuel rod, considering the gap conductance. To implement the proposed 3D gap element, a 3D thermo-mechanical module was also developed using FORTRAN90. The asymmetric characteristics of the nuclear fuel rod, such as the MPS (missing pellet surface) and eccentricity, were simulated to evaluate the proposed 3D gap element.