C. Tung’s scientific contributions

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Publications (1)


The prediction of transonic loading on advancing helicopter rotors
  • Article

December 1986

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12 Reads

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19 Citations

R. C. Strawn

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C. Tung

Two different schemes are presented for including the effect of rotor wakes on the finie-difference prediction of rotor loads. The first formulation includes wake effects by means of a blade-surface inflow specification. This approach is sufficiently simple to permit coupling of a full-potential finite-difference rotor code to a comprehensive integral model for the rotor wake and blade motion. The coupling involves a transfer of appropriate loads and inflow data between the two computer codes. Results are compared with experimental data for two advancing rotor cases. The second rotor-wake modeling scheme is a split potential formulation for computing unsteady blade-vortex interactions. Discrete vortex fields are introduced into a three-dimensional, conservative, full-potential rotor code. Computer predictions are compared with two experimental blade-vortex interaction cases.

Citations (1)


... A prescribed wake based on free-wake predictions was used to calculate the wake geometry with a vortex embedding technique used for the inner domain. Another example is the well-known Full-Potential Rotor (FPR) code [367], which was coupled to the boundary integral method, CAMRAD [182] to include rotor trim and wake modeling effects. CAMRAD was used to specify the equivalent angles of attack along the rotor blade. ...

Reference:

Advanced Rotor Blade Design based on High-Fidelity Computational Fluid Dynamics
The prediction of transonic loading on advancing helicopter rotors
  • Citing Article
  • December 1986