Development of a coupled 2-D panel / Navier-Stokes solver for numerical analysis of transonic flow천음속 유동의 수치해석을 위한 2차원 패널 / Navier-Stokes 연계 해석기법 개발

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dc.contributor.advisorLee, Duck-Joo-
dc.contributor.advisor이덕주-
dc.contributor.authorPark, Se-Hwan-
dc.contributor.author박세환-
dc.date.accessioned2011-12-12T07:15:18Z-
dc.date.available2011-12-12T07:15:18Z-
dc.date.issued2011-
dc.identifier.urihttp://library.kaist.ac.kr/search/detail/view.do?bibCtrlNo=467990&flag=dissertation-
dc.identifier.urihttp://hdl.handle.net/10203/26494-
dc.description학위논문(석사) - 한국과학기술원 : 항공우주공학전공, 2011.2, [ vii, 58, 3 p. ]-
dc.description.abstractNumerical methods for aerodynamics analysis have been popularly researched and now provide an accurate result. However, they still have shortcomings. Euler and Navier-Stokes solver needs large number of grids and high-order scheme to minimize dissipation and diffusion errors. This causes huge computing time and resources. Panel Method is very fast. However, it cannot simulate viscous flow and has difficulty in transonic flow analysis. The purpose of the present research is to examine capability of hybrid method in compressible, transonic, unsteady, vortex, and viscous flow simulation. Additionally, the author aims to develop a coupled Panel/Navier-Stokes solver with small grid domain size, which is fast and accurate. The fundamental idea to the coupling method is that Navier-Stokes solver can calculate the flow accurately even with very small grid if the boundary condition is well-imposed. The boundary value is obtained by using the Panel method. The Panel method was coupled with the Euler/Navier-Stokes solver by providing induced velocity to boundary conditions. Afterwards, the surface potential of the panel is determined by using a Bernoulli equation and pressure information from the Euler/Navier-Stokes solver. Additionally, a linearized potential equation and a transformation method were used to correct compressibility effect to the Panel method. Steady incompressible, subsonic compressible, transonic, unsteady, vortex and viscous flow were simulated respectively, and the coupling method was tested with reduction of grid domain size. The results showed that the idea was correct, and the capability of the coupling method in transonic flow was proved. Also, a moving vortex was also well-simulated by using only induced velocity as boundary condition. The grid domain size could be reduced to 0.1 chord in the incompressible flow, 2.5~5 chord in transonic flow, and 1 chord in viscous flow. Consequently, the computing time was saved to 1/5~1/30 compared with that b...eng
dc.languageeng-
dc.publisher한국과학기술원-
dc.subject패널 방법-
dc.subject천음속 유동-
dc.subject선형 포텐셜 방정식-
dc.subject연계 방법-
dc.subjectNavier-Stokes Solver-
dc.subjectNavier-Stokes Solver-
dc.subjectPanel Method-
dc.subjectTransonic Flow-
dc.subjectLinearized Potential Equation-
dc.subjectCoupling Method-
dc.titleDevelopment of a coupled 2-D panel / Navier-Stokes solver for numerical analysis of transonic flow-
dc.title.alternative천음속 유동의 수치해석을 위한 2차원 패널 / Navier-Stokes 연계 해석기법 개발-
dc.typeThesis(Master)-
dc.identifier.CNRN467990/325007 -
dc.description.department한국과학기술원 : 항공우주공학전공, -
dc.identifier.uid020093200-
dc.contributor.localauthorLee, Duck-Joo-
dc.contributor.localauthor이덕주-
Appears in Collection
AE-Theses_Master(석사논문)
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