Dolphin-style gliding
Keywords:
Aerodynamics, Design, Training, CoachingAbstract
A quasisteady dolphin flight technique is presented for the analysis of minimum-time planar flight through an arbitrary deterministic vertical wind distribution. A piecewise constant wind distribution is assumed. The MacCready construction for optimal thermal-to-thermal soaring is applied over each segment of constant wind intensity using a shifted velocity polar. By neglecting the sailplane dynamics, a composite 'virtual poIar' is constructed from these piecewisei'MacCready optimal flight conditions. The usual MacCready theory then can be applied directly to this virtual polar to predict average minimum-time travel speeds, glide angles, and other performance quantities. After a discussion of the virtual polar, several performance comparisons are given for various wind distributions, wing loadings and sailplane types.
Downloads
Issue
Section
Articles
License
CLEARANCE AND LICENSE TO PUBLISH:
This paper is UNCLASSIFIED (for public reasons) and has been cleared by the appropriate agencies, company and government. This paper represents original work by the author(s). No portion of the material is covered by a prior copyright; or for any portion copyrighted, the author has obtained permission for its use.
I hereby license OSTIV to publish this paper and to use it for all of OSTIV's current and future publications uses.
