Journal of KSNVE (소음진동)

The Korean Society for Noise and Vibration Engineering (한국소음진동공학회)
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Modelling Technique and Model Analysis of Submerged Structures Using Finite Element Method and Boundary Element Method

유한요소법과 경계요소법을 이용한 수중에서의 탄성구조물의 진동모드해석 및 모델링 기법

  • 김관주 (홍익대학교 공과대학 기계공학과) ;
  • 오상륜 (홍익대학교 대학원 기계공학과)
  • Published : 2000.04.01
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Abstract

This paper shows hot to model the submerged elastic structures and adequate analysis tools for modal behavior when using finite element and boundary element method. Four different cases are reviewed depending on the location of the water and air. First case is that structures are filled with air and water is located outside. Second case is opposite to case one. These cases are solved by direct approach using collocation procedure. Third case is that water is located both sides of structures. Last case is that air is located both sides. These cases are solved by indirect approach using variational procedure. As analysis tools harmonic frequency sweep analysis and eigenvalue iteration method are selected to obtain the natural frequencies of vibrating submerged structures depending on the cases. Results are compared with closed form solutions of submerged spherical shell.

Keywords

References

  1. J.Acoust.Soc.Am. v.99 Modal analysis of a Structure in a Compressible Fluid Using a Finite Element/boundary element approach McCollum,M.D.;Clementian,M.Siders
  2. J.Acous.Soc.Am. v.102 Response to Comment of Modal Analysis of a Structure in a Compressible Fluid Using a Finite Element/Boundary Element Approach McCollum,M.D.;Clementina,M.Siders
  3. Journal of Sound and Vibration v.193 Natural Modes and Frequencies of a Thin Clamped-Free Steel Cylindric Storage Tank Partially Filled with Watr:FEM and Measurement Mazuch,T.
  4. SOURCE Engineering Structures v.20 no.8 Natural Frequency Response of Vertical Cantilever Composite Shells Containing Fluid Sharma,C.B.;Darvizeh,M.;Darvizeh,A.
  5. ZAMM.Z.Angew.Math.Mech. v.77 Finite Element Modelling of the Damping Properites of a Vibrating Cylindrical Shell Containing Viscous Fluid Horacek,J.;Kruntcheva,M.
  6. Journal of Sound and Vibration v.225 Vibroacoustic Analysis of a Fluid-Loaded Cylindrical Shell Excited by a Rotating Load Wu,C.J.;Chen,HL.X.Q.H.L.Huang
  7. Sound,Structures,and Their Interaction Miguel Junger;David Feit