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Prediction of Aerodynamic Forces on a Circular Cylinder and a Thin Airfoil in a Transonic Airstream by the Finite Element Method.

机译：用有限元法预测旋流气流中圆形气缸和薄翼型的气动力。

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The finite element method was used to solve the nonlinear, small-disturbance, transonic, velocity-potential equation for problems of steady flow over a circular cylinder and over a thin-airfoil in a uniform steady airstream. The governing differential equation is valid for inviscid, irrotational, isentropic flow of a perfect gas to include weak shocks providing airflow separation does not occur. For compressible subsonic and transonic flows the nonlinear small-disturbance equations was expressed in iterative form as a sequence of linear equations which was solved iteratively until the difference between two successive solutions became arbitrarily small. For analysis purposes the infinite flowfield was replaced by a finite but sufficiently large domain that was discretized with sector elements for the cylinder problem and rectangular elements for the airfoil problem. The finite element equtions were obtained from Galerkin's Method of Weighted Residuals. Boundary conditions of the Neumann type were imposed along the surface contour of the cylinder and along an approximate boundary in accordance with classical thin-airfoil theory for the airfoil. For both problems Dirichlet conditions were imposed along the farfield boundary from an asymptotic solution which satisfies the actual infinity condition and is valid in the farfield.

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作者
marsh,james e.;
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年度 1979
页码 1-186
总页数 186
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Aerodynamic forces; Thin wings; Finite element analysis; Transonic flow; Cylindrical bodies; Potential flow; Nonlinear differential equations; Inviscid flow; Shock waves; Iterations; Approximation(Mathematics); Theses;

机译：气动力;薄翼;有限元分析;跨音速流;圆柱体;势流;非线性微分方程; Inviscid流;冲击波;迭代;逼近（数学）;论文;

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Prediction of Aerodynamic Forces on a Circular Cylinder and a Thin Airfoil in a Transonic Airstream by the Finite Element Method.

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