• Title/Summary/Keyword: 유동- 구조 연성해석

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Analysis of Liquid Sloshing in a Two-Dimensional Elastic Tank (구조물의 탄성을 고려한 2차원 탱크내 유동해석)

  • P.M.,Lee;S.W.,Hong;S.Y.,Hong
    • Bulletin of the Society of Naval Architects of Korea
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    • v.27 no.3
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    • pp.107-116
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    • 1990
  • The liquid sloshing in an elastic tank is a fluid-structure interaction problem. It requires nonlinear analysis to solve the complicated physics involved in the large interaction of fluid-structure, the variation of dynamic characteristics of structure due to hydrodynamic loading, and the distorsion of fluid flow due to structural vibration. In this paper a Lagrangian FEM is introduced to analyze the liquid sloshing in an elastic tank assuming that the elastic wall is one degree of freedom rigid wall. Numerical integration is performed using an implicit-explicit algorithm, which is formed by mixing the predictor-corrector method and the Runge-Kutta 4th order method. The influence of dynamic characteristics of the sloshing tank on the fluid flow is discussed. The numerical method is also applied for the simulation of the wall generated wave in the tank.

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Analysis of Wind Turbine system using Fluid Structure Diteraction (유동-구조 연성해석 기법을 이용한 풍력발전시스템 해석)

  • Kim, Yun-Gi;Kim, Kyung-Chun
    • 한국가시화정보학회:학술대회논문집
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    • 2006.12a
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    • pp.141-144
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    • 2006
  • In this study, one-way fluid structure interaction analysis(FSI) on wind turbine blade was performed. Both a quantitative fluid analysis on 3-bladed wind turbine and a structural analysis using the surface pressure data resulting from fluid analysis were carried out. Streamlines and angle of attack was easily acquired from analysis results, we showed the inlet velocity that the stall begins to occur. In the structural analysis, structural displacement and maximum stress of the two comparative models was calculated. The location that has maximum stress was found. The pressure difference between back and front part of the blade increases as the inlet velocity increase. The torque and maximum with regard to inlet velocity was also presented.

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Modeling of Erosive Burning for Fluid-Structure Integration Analysis of Solid Rocket Motor (고체 로켓 모터 유동-구조 연성 해석을 위한 침식연소 모델링)

  • Lee, Jeongsub;Jin, Jungkun;Kim, Shinhoe;Jung, Gyoodong
    • Journal of the Korean Society of Propulsion Engineers
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    • v.20 no.4
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    • pp.9-18
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    • 2016
  • In this research, the modeling of erosive burning and analysis of effective parameters were carried out for the application of fluid-structure integration analysis. The manufacture, test, and analysis of erosive burning motors were carried out to estimate the erosive burning applying Lenoir & Robillard model considering effective parameters. The erosive burning phenomenon was detected from experimental results. Erosive burning model and its effective parameters were evaluated and analyzed considering existence of aluminum in propellant, relationship among erosive burning coefficients according to characteristic length, effect of grain initial temperature. The erosive burning model was applied to the fluid-structure integration analysis, and the estimated results were close to the experimental results.

Analysis of Fluid Structure Interaction on 100kW-HAWT-blade (100kW용 풍력발전기의 블레이드에 대한 유동/구조 연성해석)

  • Kim Yun-Gi;Kim Kyung-Chun
    • Journal of the Korean Society of Visualization
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    • v.4 no.1
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    • pp.41-46
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    • 2006
  • In this study, one-way fluid structure interaction analysis(FSI) on wind turbine blade was performed. Both a quantitative fluid analysis on 3-bladed wind turbine and a structural analysis using the surface pressure data resulting from fluid analysis were carried out. Streamlines and angle of attack was easily acquired from analysis results, we showed the inlet velocity that the stall begins to occur. In the structural analysis, structural displacement and maximum stress of the two comparative models was calculated. The location that has maximum stress was found. The pressure difference between back and front part of the blade increases as the inlet velocity increase. The torque and maximum with regard to inlet velocity was also presented.

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Fluid-Structural Analysis of Circumference Pressurization type Butterfly Valve according to Pressurization Distance (원주가압형 극저온 버터플라이 밸브의 가압 길이에 따른 유동-구조 연성해석)

  • Kwak, Ki-Suk;Han, Dong-Seop;Han, Geun-Jo
    • Proceedings of the Korean Institute of Navigation and Port Research Conference
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    • 2010.04a
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    • pp.415-416
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    • 2010
  • Recently, development and using a range of natural gas is widening because anxiety of oil supply is increasing. Especially, around the world, development for Storage and transportation of natural gas is rapidly growing. On the other hand, in Korea because of technology loss for cryogenic part material, key component is rely on import. LNG and LPG are the future core of natural fuels. That are getting a lot of support and it have increased the frequency of use. So it should be associated with the development of technology. And key technology about design and manufacturing for cryogenic butterfly valve are secured. In this paper, we analyze the strength evaluation for circumference pressurization type cryogenic butterfly valve using the fluid-structure analysis.

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Fluid-structure Interaction Analysis of Large Sandwich Panel Structure for Randomly Distributed Wind Load considering Gust Effects (거스트 영향이 고려된 랜덤 분포 풍하중에 대한 대형 샌드위치 패널 구조물의 유체-구조 연성해석)

  • Park, Dae Woong
    • Transactions of the Korean Society for Noise and Vibration Engineering
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    • v.23 no.12
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    • pp.1035-1044
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    • 2013
  • Because of the high specific stiffness and strength inherent in the sandwich structure composed of facesheet that resists in-plane loads and a core that resists out-of-plane loads, it is often used for large and light-weighted structures. However, inevitably the increased flexibility allows greater deformation-based disturbances in the structures. Thus, it is necessary to analyze the structural safety. To obtain more accurate analytical results, the input disturbances must more closely simulate real load conditions; to improve accuracy, non-linear elements such as gust effects were considered. In addition, the structural safety was analyzed for the iso-grid sandwich panel structure using fluid-structure interactions. For a more realistic simulation, flow velocity fields, which consider the effects of irregular gust fluctuation, were generated and the coupled field was analyzed by mapping the pressure and displacement.

An Analysis of the Flow Characteristics and Deformation of a Multileaf Foil Bearing by Using the Fluid/structure Interaction Method (유동/구조 연성해석기법을 이용한 Foil Bearing의 변형 및 유동 특성 해석)

  • Kim Y.;Hur N.
    • Proceedings of the KSME Conference
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    • 2002.08a
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    • pp.607-610
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    • 2002
  • As machines become smaller and faster multileaf foil bearings are used to overcome the problems with heat, friction and wear Systems with foil bearings do not need a separate system for lubrication. These bearings are self acting and are therefore green systems. Until now, there have been many studies on the structural and dynamical performances. Therefore the object of the present study is to predict the flow and structural characteristics by using the Fluid/structure interaction method. The increase in RPM led to the increase in pressure, temperature difference, maximum velocity, Mach number, shear stress and torque. In the case of 90,000 RPM effects such as choking led to a non-lineararity in the system. Also the effect of eccentricity ratio was observed and showed that eccentricity increased the maximum pressure and the density difference while decreasing the shear stress and torque.

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