Prediction of high speed propeller flow fields using a three-dimensional Euler analysis

Autor: P. Kutler, D. S. Chaussee, L. J. Bober
Rok vydání: 1983
Předmět:
Zdroj: 21st Aerospace Sciences Meeting.
DOI: 10.2514/6.1983-188
Popis: To overcome the limitations of classical propeller theory, a computer program, NASPROP-E, was developed which solves for the flow field surrounding a multibladed propeller and axisymmetric nacelle combination using a finite difference method. The governing equations are the three dimensional unsteady Euler equations written in a cylindrical coordinate system. They are marched in time until a steady state solution is obtained. The Euler equations require no special treatment to model the blade work vorticity. The equations are solved using an implicit approximate factorization method. Numerical results are presented which have greatly increased the understanding of high speed propeller flow fields. Numerical results for swirl angle downstream of the propeller and propeller power coefficient are higher than experimental results. The radial variation of coefficient are higher than experimental results. The radial variation of swirl angle, however, is in reasonable agreement with the experimental results. The predicted variation of power coefficient with blade angle agrees very well with data.
Databáze: OpenAIRE