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Aeropropulsive Performance Modelling of Over-The-Wing Propulsion at Incidence

Authors :
Dekker, H.N.J. (author)
Tuinstra, M (author)
Baars, W.J. (author)
Scarano, F. (author)
Ragni, D. (author)
Dekker, H.N.J. (author)
Tuinstra, M (author)
Baars, W.J. (author)
Scarano, F. (author)
Ragni, D. (author)
Publication Year :
2023

Abstract

A semi-emperical model is developed, able to capture the aeropropulsive performance characteristics of Over-The-Wing propellers at incidence. The model is based on an hypothesis on the interactions of the propeller- and wing-induced flow fields. Effects of these interactions on the both the thrust and lift are written in a form in which the dominant design parameters appear explicitly. Both the flow hypothesis and model results are validated using experimental data of a single Over-The-Wing propeller. It is shown that for moderate angles of attack, the propulsive thrust is reduced by the wing’s circulation. For angles of attack greater than the stall angle of the isolated wing, thrust is increased by the ingestion of low momentum flow. The propeller is not able to delay stall but induces flow over the wing, which is returned as reduced pressure over the suction side. The model predictions closely match the experimental results for thrust, but integral loading measurements of the wing are required to validate the lift predictions.<br />Aerodynamics<br />Wind Energy

Details

Database :
OAIster
Notes :
English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1390838315
Document Type :
Electronic Resource
Full Text :
https://doi.org/10.2514.6.2023-3355