### Samenvatting

Sailplanes, when launched, need to extract their energy from vertical motion of the air in the atmosphere. The usual procedure is to circle and climb in vertical currents of limited spatial dimension ("thermals") under cumulus clouds and thereafter to exchange the gained height into distance by gliding out to the next cumulus cloud. While doing so sailplane pilots will often encounter larger scale regions where the atmosphere moves in vertical direction. Upto recent years the optimal strategy in such situations was assumed to be to fly slower through regions with upward moving air and faster through regions with downward moving air. Only a few years ago it was discovered both in theory, from energy considerations, as well as in practice, by contest pilots, that in some circumstances more energy could be extracted from the atmosphere when the loadfactor, i.e. the total aerodynamic lifting force on the wings divided by the weight, was varied. The research reported in this paper was set up to investigate this phenomenon. To that end a simple dynamic model was assumed for the sailplane and the optimization problem was formulated as an optimal control problem with terminal constraints. This optimal control problem was solved numerically for a number of different situations as regards to the extent as well as to the strength of the vertical currents encountered. The computer program used for this purpose was a rather general continuous optimal control program based on the use of (conjugate) gradients in function space and a projection operation to account for the terminal constraints. Some preliminary results are presented
Keywords: Aerospace trajectories, Optimal control, Numerical methods, Energy control.

Originele taal-2 | Engels |
---|---|

Plaats van productie | Eindhoven |

Uitgeverij | Technische Hogeschool Eindhoven |

Aantal pagina's | 17 |

Status | Gepubliceerd - 1980 |

### Publicatie series

Naam | Memorandum COSOR |
---|---|

Volume | 8012 |

ISSN van geprinte versie | 0926-4493 |

## Vingerafdruk Duik in de onderzoeksthema's van 'Instationary dolphin flight : the optimal energy exchange between a sailplane and vertical currents in the atmosphere'. Samen vormen ze een unieke vingerafdruk.

## Citeer dit

Jong, de, J. L. (1980).

*Instationary dolphin flight : the optimal energy exchange between a sailplane and vertical currents in the atmosphere*. (Memorandum COSOR; Vol. 8012). Technische Hogeschool Eindhoven.