A. Bangalore et Ln. Sankar, NUMERICAL-ANALYSIS OF AERODYNAMIC PERFORMANCE OF ROTORS WITH LEADING-EDGE SLATS, Computational mechanics, 17(5), 1996, pp. 335-342
A three dimensional compressible Navier-Stokes analysis capable of com
puting flows around wings and rotors with partial-span flaps or slats
is described. This analysis is cast in a moving body-fitted coordinate
system permitting arbitrary motion of the solid surfaces to be direct
ly modeled. This methodology is validated through several single and m
ulti-element rotor and wing configurations. The analysis is subsequent
ly applied to two helicopter rotors. The effects of leading edge slats
on the aerodynamic performance of these rotors in hover is studied. I
t is demonstrated that leading edge slats can significantly improve th
e hover performance at high pitch settings, with an increase in thrust
and a reduction in torque. At low pitch settings, the slats were foun
d to be detrimental to the rotor performance. Many practical issues su
ch as surface imperfections, proper sealing of the slat during retract
ion, control loads and other implementation aspects should be carefull
y evaluated in the event of a practical design of a slat. However, in
the present study only the aerodynamic effects of slats are addressed
and no practical issues are considered.