• Title/Summary/Keyword: CFD 해석

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Calculation of Polarization Curves using CFD Analysis (CFD 해석을 통한 분극곡선 계산)

  • Im, Gyeong-Hwan;Lee, Gyeong-U
    • Proceedings of the Korean Institute of Surface Engineering Conference
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    • 2012.11a
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    • pp.75-75
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    • 2012
  • 전기도금 공정에서 분극곡선은 도금액의 전기화학적 특성을 나타낸다. 도금 실험에서는 도금액의 특성 및 실험 계획수립을 위해 필요하고, 도금 계산에서는 시뮬레이션의 경계조건으로 사용되기 때문에 분극곡선 측정은 실험 및 계산에 앞서서 수행되는 중요 과정이다. 이러한 분극곡선 측정을 실험으로 얻는 대신 CFD(Computational Fluid Dynamics) 해석을 통하여 계산으로 분극곡선을 얻는 방법을 시도하였고, 이 때 회전속도를 변수로 하여 유동과 분극곡선 사이의 관계를 분석하였다.

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Analysis of Resistance Performance of a Ship having a Large Attitude based on CFD (CFD에 의한 자세변화가 큰 선박의 저항성능 해석)

  • Kim, Hyun-Soo;Park, Dong-Woo;Yang, Young-Jun
    • Journal of the Korean Society of Marine Environment & Safety
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    • v.25 no.7
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    • pp.961-967
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    • 2019
  • This research presents an efficient method based on computational fluid dynamics (CFD) for estimating the resistance performance of a ship with a large settlement amount and a dynamic trim. The settlement of the inviscid flow analysis and the results of dynamic trim were used to set a large attitude for the ship prior to performing a viscous flow analysis; a viscous flow analysis was subsequently performed by Dynamic Fluid Body Interaction (DFBI). This method is termed as method I, in which a simple grating system can be used without employing the overset mesh technique by setting many attitudes before interpretation. Thus, method I is advantageous in reducing calculation time and improving calculation accuracy. The viscous flow analysis was performed using a commercial CFD code STAR-CCM+. Compared with the final convergence result, the first viscous flow analysis result of method I exhibited a variation of less than 1 % of resistance. The result was obtained by changing the gratings each time an attitude is changed at each calculation stage, based on the DFBI method provided to STAR-CCM+ using a simple grating system, which is not a superposed grating. This method is termed as method II. Compared with method II of resistance, method I exhibited a dif erence of 0.03-0.6 % for linear velocity. The results of method I were confirmed to be qualitatively and quantitatively appropriate through comparison with several trillion simulations.

Design and Performance Analysis of Mixed-Flow Pumps for Waterjet Marine Propulsion (워터제트 선박추진용 사류펌프의 설계 및 성능해석)

  • Yoon, Eui-Soo;Oh, Hyoung-Woo;Ahn, Jong-Woo
    • The KSFM Journal of Fluid Machinery
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    • v.6 no.2 s.19
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    • pp.41-46
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    • 2003
  • The hydraulic design optimization and performance analysis of mixed-flow pumps for waterjet marine vehicle propulsion has been carried out using mean streamline analysis and three-dimensional computational fluid dynamics (CFD) code. In the present study, the conceptual design optimization has been formulated with a non-linear objective function to minimize the fluid dynamic losses, and then the commercial CFD code was incorporated to allow for detailed flow dynamic phenomena in the pump system. Newly designed mixed-flow model pump has been tested in the laboratory. Predicted performance curves by the CFD code agree very well with experimental data for a newly designed mixed-flow pump over the normal operating conditions. The design and prediction method presented herein can be used efficiently as a unified hydraulic design process of mired-flow pumps for waterjet marine vehicle propulsion.

THE INVESTIGATION OF UNCERTAINTY FOR THE CFD RESULT VALIDATION (CFD 해석결과 검증을 위한 불확실도 연구)

  • Lee, J.H.;Yang, Y.R.;Shin, S.M.;Myong, R.S.;Cho, T.H.
    • 한국전산유체공학회:학술대회논문집
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    • 2008.03a
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    • pp.79-83
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    • 2008
  • An approach to CFD code validation is developed that gives proper consideration to experimental and simulation uncertainties. The comparison errors include the difference between the data, simulation values and represents the combination of all errors. The uncertainties of modeling and numerical analysis in the CFD prediction were estimated by a Coleman's theory. In this paper, the numerical solutions are calculated by A-type standard uncertainty and Richardson extrapolation Method.

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THE INVESTIGATION OF UNCERTAINTY FOR THE CFD RESULT VALIDATION (CFD 해석결과 검증을 위한 불확실도 연구)

  • Lee, J.H.;Yang, Y.R.;Shin, S.M.;Myong, R.S.;Cho, T.H.
    • 한국전산유체공학회:학술대회논문집
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    • 2008.10a
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    • pp.79-83
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    • 2008
  • An approach to CFD code validation is developed that gives proper consideration to experimental and simulation uncertainties. The comparison errors include the difference between the data, simulation values and represents the combination of all errors. The uncertainties of modeling and numerical analysis in the CFD prediction were estimated by a Coleman's theory. In this paper, the numerical solutions are calculated by A-type standard uncertainty and Richardson extrapolation Method.

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ANALYSIS ON CHARACTERISTICS OF AN AXIAL FLOW FAN THROUGH CFD ANALYSIS INCORPORATED WITH MOTOR CHARACTERISTICS (모터의 특성을 고려한 CFD 해석에 의한 축류홴 성능해석)

  • Kim, J.H.;Hur, N.;Kim, W.
    • Journal of computational fluids engineering
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    • v.15 no.4
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    • pp.109-114
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    • 2010
  • In a fan design, CFD analysis, which is very useful for mechanical design relating to the heat and fluid dynamics, is one of the most popular tools. However, since the CFD analysis is conventionally carried out with the constant fan speed condition, the speed change, induced by the air flow rate and motor characteristics, is hardly modeled. And, consequently, the remarkable difference exist between analysis and experimental results. In this paper, we has proposed a method of setting the varying fan speed as a boundary condition considering air flow rate and motor torque-speed characteristics. The effectiveness of the proposed method is verified by comparison with experimental results.

A Numerical Analysis on the Pressure Field Around KTX Train Using the Standard Framework of CFD Analysis for Railway System (철도시스템 전산유체해석 표준 프레임웍을 이용한 KTX 차량 주변 압력장에 대한 수치해석)

  • Nam, Sung-Won;Cha, Chang-Hwan;Kwon, Hyeok-Bin
    • Journal of the Korean Society for Railway
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    • v.9 no.5 s.36
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    • pp.511-516
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    • 2006
  • A standard framework of CFD(Computational Fluid dynamics) analysis for railway system has been developed to evaluate the overall aerodynamic performance of railway system and has been adopted to numerical simulation of the pressure field around KTX train. The framework is composed of standard aerodynamic model and standard aerodynamic performance to customize the general CFD solution process reflecting the characteristics of railway system such as various operation mode and performance factors. The results show that the standard framework of CFD analysis for railway system can provide objectivity and consistency to the CFD analysis for railway system and the pressure field around KTX train has been successively solved.

Application of EDISON CFD in The Aerodynamic Design for Supercritical Airfoil (EDISON CFD를 이용한 초임계 에어포일의 공력설계)

  • Yu, Hong-Seok;Lee, Jang-Chang
    • Proceeding of EDISON Challenge
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    • 2013.04a
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    • pp.343-348
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    • 2013
  • 초임계 익형은 천음속 영역에서 비행하는 상업용 민간 항공기와 전투기 날개의 공력성능을 향상시키기 위해 Whitcomb R. T.가 제안 하였다. 초임계 익형은 상부표면을 평평하게 디자인하여 임계마하수보다 큰 마하수에서 나타나는 익형 주위의 충격파 출현을 지연시킴으로써 항력을 줄일 수 있고, 상부 표면의 평면 설계로 인한 양력 감소를 보정하기 위하여 하부 표면의 꼬리부분에 캠버가 있는 형상을 하고 있다. 본 연구에서는 EDISON CFD를 이용하여, 초임계 익형의 공력특성을 해석하고 Xfoil의 data와 비교 분석하였다. 또한, 초임계 익형의 형상을 변경하여 두께와 뒷전 캠버가 다른 초임계 익형을 설계하였다. 새로운 초임계 익형의 형상은 상용 프로그램 Maple12을 이용하여 Whitcomb Integral Supercritical Airfoil의 형상을 수정하여 구할 수 있다. 초임계 익형 주위의 유동을 2D압축성 유동으로 가정하고 EDISON CFD의 2D_Comp-2.0 솔버를 사용하여 수치해석을 수행하였다.

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Grid Dependency and Aerodynamic Analysis for Transonic Flow of Delta Wing using CFD (천음속영역의 삼각날개 격자의존성 및 공력해석)

  • Jeong, Kiyeon;Jung, Eunhee;Kang, Dong-Gi;Lee, Daeyeon;Kim, Dukhyun
    • Journal of the Korean Society for Aeronautical & Space Sciences
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    • v.46 no.6
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    • pp.445-451
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    • 2018
  • This paper describes on introduction of CASE 4(Delta Wing) for EFD-CFD comparison workshop which is in charged of aerodynamic subcommittee of The Korean Society for Aeronautical and Space Science. The wind tunnel test will be performed later, angle of attack is set -5~20deg and mach number is set 0.7, 0.85, 1.2 to solve the transonic flow. The simulation test of grid dependency is conducted to determine the proper grid size of delta wing analysis. The tendency of lift and drag coefficient is determined according to the change of angle of attack based on the selected grid size.