• Title/Summary/Keyword: CFD++

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Application of CFD-FEM Coupling Methodology to Thermal Analysis on the Large-size Marine Diesel Engine (선박용 대형 디젤 엔진 열 해석을 위한 CFD-FEM 연계 방법의 적용)

  • Kim, Han-Sang;Min, Kyoung-Doug
    • Transactions of the Korean Society of Automotive Engineers
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    • v.16 no.1
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    • pp.64-70
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    • 2008
  • Temperatures of engine head and liner depend on many factors such as spray and combustion process, coolant passage flow and engine related structures. To estimate the temperature distribution of engine structure, multi-dimensional computational fluid dynamics (CFD) codes have been mainly adopted. In this case, it is of great importance to obtain the realistic wall temperature distribution of entire engine structure. In the present work, a CFD-FEM coupling methodology was presented to address this demand. This approach was applied to a real large-size marine diesel engine. CFD combustion and coolant flow simulations were coupled to FEM temperature analysis. Wall heat flux and wall temperature data were interfaced between combustion simulation and solid component temperature analysis via translator by a commercial CFD package named FIRE by AVL. Heat transfer coefficient and surface temperature data were exchanged and mapped between coolant flow simulation and FEM temperature analysis. Results indicate that there exists the optimum cell thickness near combustion chamber wall to reasonably predict the wall heat flux during combustion period. The present study also shows that the effect of cell refining on predicting in-cylinder pressure during combustion is negligible. Hence, the basic guidance on obtaining the wall heat flux needed for the reasonable CFD-FEM coupling analysis has been established. It is expected that this coupling methodology is a robust tool for practical engine design and can be applied to further assessment of the temperature distribution of other engine components.

Characteristics of Flow Field at Curved Section of Oil Fence using PIV Measurements and CFD Simulations (PIV 계측과 CFD 해석을 통한 오일펜스 만곡부 단면에서의 유동장 특성)

  • Kim, Tae-Ho;Jang, Duck-Jong;Na, Sun-Chol;Bae, Jae-Hyun;Kim, Dae-An
    • Journal of the Korean Society of Marine Environment & Safety
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    • v.17 no.1
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    • pp.29-37
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    • 2011
  • PIV measurements of the velocity field, pressure field, vorticity, and turbulent intensity in the rear of curved section of an oil fence with current speed showed that the flow directions in the rear of flow boundary area were similar to those in the front of it. As the current speed increased, the patterns of pressure distribution were changed, and the turbulent flow became more irregular. CFD simulations under the same conditions as the PIV tests showed that the flow patterns of the wake were similar to those by PIV tests in speed of 0.3 m/s and less, but were distinctively deviated from those in 0.4 m/s due to the flexibility of the oil fence, which was not properly taken care of in CFD modeling.

Simulation of Hydrogen Gas Leak in Petrochemical Process using Computational Fluid Dynamics (CFD) (전산유체역학을 이용한 화학공정 수소가스 누출 사고 시뮬레이션)

  • Song, Inho;Han, Sangil;Hwang, Kyu-Suk
    • Journal of the Korean Applied Science and Technology
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    • v.36 no.4
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    • pp.1080-1087
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    • 2019
  • For a risk analysis in a chemical process, it is important to reflect correctly the characteristic properties of the target process. In this study, computational fluid dynamics (CFD) was adopted for the advanced risk analysis in a residual hydro desulfurization (RHDS) process by considering operation condition, layout of instruments and facilities, atmospheric condition, and wind direction. Release and explosion simulations for the RHDS by using FEA (Finite Element Analysis) and CFD showed the applicability of 3D scanning methods for estimation of release hole size and release amount.

Analyzing Recent Trends and Efforts for Developing Teaching Competences in China's Higher Education (대학의 교원교육을 위한 최근의 노력 및 동향 분석 :중국의 교수학습지원시스템을 중심으로)

  • Chang, Ji-Sun;Rha, Kyeong-Hee
    • The Journal of the Korea Contents Association
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    • v.20 no.9
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    • pp.140-149
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    • 2020
  • Recently, the Chinese government has appointed the 'Centers for Faculty Development' (CFD) in 30 universities as the nationally-levelled model center for faculty development in October 2012, and its policy for the quality of college education and teaching expertise has begun. Therefore, this study is aimed at grasping the current situation and problems of Chinese universities' CFDs, and suggesting future development directions. Especially, it attempted to analyze the operational condition of 'the Center for Faculty Development' of H University located in Hebei Province, China. The following research questions were constructed; 1) At the national level, it quantitatively analyzed the China's developmental steps of higher education by using the data of China's Ministry of Education, and along with this national background, this study tried to grasp teachers' perceptions of teaching activities and their demands toward CFD programs, through a questionnaire survey of faculty members of H University. The data analysis indicated that those centers for faculty development in China were established quickly, and has evolved into specialized organizations for enhancing teaching expertise. This study can contribute to promoting productive exchanges of higher education between Korea and China in the future.

Improvement of uniformity in chemical vapor deposition of silicon carbide using CFD (탄화규소 화학기상증착 공정에서 CFD를 이용한 균일도 향상 연구)

  • Seo, Jin-Won;Kim, Jun-Woo;Hahn, Yoon-Soo;Choi, Kyoon;Lee, Jong-Heun
    • Journal of the Korean Crystal Growth and Crystal Technology
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    • v.24 no.6
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    • pp.242-245
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    • 2014
  • In order to increase the thickness uniformity in chemical vapor depositon of silicon carbide, we have carried out CFD studies for a CVD apparatus having a horizontally-rotated 3-stage susceptor. We deposited silicon carbide films of 3C-SiC phase showing quite uniform thickness between stages but not uniform one in the stage. The cause of this nonuniformity is thought to be originated from the high rotational speed. And the uniformity between stages can be further increased with the $120^{\circ}$ split type nozzles from CFD results. Through the formation of silicon carbide film on graphite substrates we can make oxidation-resistant and dust-free graphite components with high hardness for the semiconductor applications.

Effects of 3D Flow-Channel Configurations on the Performance of PEMFC using Computational Fluid Dynamics (전산유체역학을 이용한 PEMFC의 성능에 대한 3차원 유로 구조의 영향)

  • Han, Kyoung-Ho;Yoon, Do Young
    • Korean Chemical Engineering Research
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    • v.54 no.6
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    • pp.847-853
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    • 2016
  • Here has been examined a 3-dimensional computational fluid dynamics (CFD) modeling in order to investigate the performance analysis of proton exchange membrane (PEM) fuel cells with serpentine flow fields. The present CFD model considers the isothermal transport phenomena in a fuel cell involving mass, momentum transport, electrode kinetics, and potential fields. Co-current flow patterns for a PEMFC are considered for various geometries in the single straight cell. Current density distribution from the calculated distribution of oxygen and hydrogen mass fractions has been determined, where the activation overpotential has been also calculated within anode and cathode. CFD results showed that profiles differ from those simulations subjected to each the calculated activation overpotential. It is interesting that the present serpentine flow field shows the specific distribution of current density with respect to the aspect ratio of depth to width and the ratio of reaction area for various serpentine geometries. Simulation results were considered reasonable with the other CFD results reported in literature and global comparisons of the PEMFC model.

CFD-EFD Mutual Validation Using a CFD Solver Based on Unstructured Meshes Developed at KAIST (KAIST 비정렬격자 기반 CFD 해석자를 이용한 CFD-EFD 상호 비교 검증)

  • Jung, Seongmun;Han, Jaeseong;Kwon, Oh Joon
    • Journal of the Korean Society for Aeronautical & Space Sciences
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    • v.45 no.3
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    • pp.259-267
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    • 2017
  • Flow fields around a KARI-11-180 airfoil, SDM and transonic body are numerically simulated by using an unstructured meshes based compressible flow solver developed at KAIST. RANS equations are solved to analyse the flow fields and Roe's FDS method is adopted to evaluate convective fluxes. Turbulence effect of the flow fields is modeled by a SA model, SST model and ${\gamma}-{\widetilde{Re}}_{{\theta}t}$ model. It is found that smaller drag coefficients are predicted for the KARI-11-180 airfoil when a transition phenomenon is considered and small deviations exist between CFD and EFD results. For the SDM, flow separation is observed at a leading edge and calculated aerodynamic properties show similar tendencies to experimental results. A shock wave on main wings of the transonic body is successfully captured by the present flow solver at a Mach number 0.9. Estimated pressure profiles by means of the present CFD method also agree well with those of wind tunnel results.

6DOF Simulation and Determination of Hydrodynamic Derivatives of Underwater Tow-Fish Using CFD (CFD를 이용한 수중 예인체의 유체력 미계수 결정과 6자유도 운동해석)

  • Go, Gwangsoo;Lee, Euntaek;Ahn, Hyung Taek;Kim, Seongil;Chun, Seung Yong;Kim, Jung Suk;Lee, Byeong Hee
    • Journal of the Society of Naval Architects of Korea
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    • v.53 no.4
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    • pp.315-328
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    • 2016
  • Techniques for determinating hydrodynamic derivatives of underwater tow-fish using CFD(Computational Fluid Dynamics) are described in this paper. Main components of hydrodynamic derivatives are added mass, linear damping and non-linear damping coefficients. In this study, linear and non-linear damping coefficients for translational velocities are settled by CFD analysis. In order to analyze the underwater tow-fish, UlsanFOAM based on open-source CFD code, namely OpenFOAM, is employed. By simulating pitch and yaw angle variation of underwater tow-fish, 6DOF(Degree-of-Freedom) forces and moments are estimated at each attitudes. In order to determinate the hydrodynamic derivatives, curves(forces and moments vs attitude) for CFD results are fitted by least square methods. To demonstrate the applicability of the current approach, two different problems(impulsive side towing and straight towing) are simulated and all results are validated.

CFD ANALYSIS OF FLOW CHANNEL BLOCKAGE IN DUAL-COOLED FUEL FOR PRESSURIZED WATER REACTOR (가압경수로 이중냉각핵연료의 내측수로 막힘에 대한 전산유체역학 해석)

  • In, W.K.;Shin, C.B.;Park, J.Y.;Oh, D.S.;Lee, C.Y.;Chun, T.H.
    • 한국전산유체공학회:학술대회논문집
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    • 2011.05a
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    • pp.269-274
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    • 2011
  • A CFD analysis was performed to examine the inner channel blockage of dual-cooled fuel which has being developed for the power uprate of a pressurized water reactor (PWR). The dual-cooled fuel consists of an annular fuel pellet($UO_2$) and dual claddings as well as internal and external cooling channels. The dual-cooled annular fuel is different from a conventional solid 려el by employing an internal cooling channel for each fuel pellet as well as an external cooling channel. One of the key issues is the hypothetical event of inner channel blockage because the inner channel is an isolated flow channel without the coolant mixing between the neighboring flow channels. The inner channel blockage could cause the Departure from Nucleate Boiling (DNB) in the inner channel that eventually causes a fuel failure. This paper presents the CFD simulation of the flow through the side holes of the bottom end plug for the complete entrance blockage of the inner channel. Since the amount of coolant supply to the inner channel depends on largely the pressure loss at the side hole, the pressure loss coefficient of the side hole was estimated by the CFD analysis. The CFD prediction of the loss coefficient showed a reasonable agreement with an experimental data for the complete blockage of both the inner channel entrance and the outer channel. The CFD predictions also showed the decrease of the loss coefficient as the outer channel blockage increases.

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Effects of Trees on Flow and Scalar Dispersion in an Urban Street Canyon (도시 협곡에서 수목이 흐름과 스칼라 물질 확산에 미치는 영향)

  • Kang, Geon;Kim, Jae-Jin
    • Atmosphere
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    • v.25 no.4
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    • pp.685-692
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    • 2015
  • In this study, the effects of trees on flow and scalar dispersion in an urban street canyon were investigated using a computational fluid dynamics (CFD) model. For this, we implemented the drag terms of trees to the CFD model, and compared the CFD-simulated results to the wind-tunnel results. For comparison, we considered the same building configuration as the wind-tunnel experiment. The trees were located at the center of street canyon with the aspect ratio (defined as the ratio of the street width to the building height) of 1. First, the flow characteristics were analyzed in the tree-free and high-density tree cases and the results showed that the CFD model reproduced well the flow pattern of the wind-tunnel experiment and reflected the drag effect of trees in the street canyon. Then, the dispersion characteristics of scalar pollutants were investigated for the tree-free, low-density tree and medium-density tree cases. In the tree-free case, the nondimensionalized concentration distribution simulated by the CFD model was quite similar to that in the wind-tunnel experiment in magnitude and pattern. The correlation coefficients between the measured and simulated concentrations are more than 0.9 in all the cases. As the tree density increased, nondimensionalized concentration increased (decreased) near the wall of the upwind (downwind) building, which resulted from the decrease in wind speed case by the drag effect of trees. However, the CFD model underestimated (overestimated) the concentration near the wall of upwind (downwind) building.