Slow Viscous Flow around a Vertical Plate above a Plane Wall

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概要

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• Two-dimensional slow viscous flow around a finite vertical plate above a plane wall is investigated based on the Stokes approximation. The flow at infinity is a simple shear flow parallel to the plane wall and/or the plane wall translates parallel to itself. A formal expression for the flow is obtained by solving a three-part Wiener-Hopf equation. By evaluating the formal expression, streamline patterns for typical cases are presented and the flows near the edges of the plate are discussed. Force and moment exerted on the plate are also calculated.

• 社団法人日本物理学会の論文
• 1993-12-15

著者

• Kim M‐u

  Korea Advanced Inst. Sci. And Technol. Taejon Kor

• Jeong Jae-Tack

  Department of Mechanical Engineering, Kum-Oh National University of Technology

• Kim Moon-Uhn

  Korea Advanced Institute of Science and Technology

• Jeong J‐t

  Chonnam National Univ. Kwangju Kor

• Jeong Jae-tack

  Department Of Mechanical Engineering

関連論文

• Slow Viscous Flow around a Vertical Plate above a Plane Wall
• Slow Viscous Flow Due to Sliding of a Semi-Infinite Plate over a Plane
• Slow Viscous Flow around an Inclined Fence on a Plane
• Two-Dimensional Slow Stagnation Flow around a Vertical Plate on a Plane Wall
• Slow Viscous Flow Past a Lattice of Equal Flat Plates
• Two-Dimensional Slow Viscous Flow Due to the Rotation of a Body with Cusped Edges
• Slow Viscous Flow Due to the Rotation of Two Finite Hinged Plates
• Two-Dimensional Stokes Flow through a Slit in a Vartical Plate on a Plane Wall
• Two-Dimensional Slow Viscous Flow from a Converging Nozzle
• Two-Dimensional Slow Stagnation Flow near a Slit

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