L'Aile d'eau
One dream: the weightless sailboat
L'aile d'eau (1998)
Luc Armant
Ingo Voegler
Kitefoil
Le voilier des airs
Burgess/Costes/Feldzer/Hulot/Rousson
1939 ->1992-2014
Hapa/C-Glider
Hagedoorn/Costes/Rousson/Claudel
1960 -> 2007-2011
Hydrokite
TU Delft / 2008
flying pod + hydrogenerator
Syroco
Alex Caizergues and team
500m World Sailing speed records
Syroco speed craft
Design
Tools used
- Expert advices (Luc Armant, F-one, ...)
- Analytic models
- CFD
- Multibody Velocity Prediction Program
Forces aligned: no ballast/float to balance
Tension only in kite: large power/finesse to weight ratio
Aerodynamic lift: potential for reduced cockpit+shaft drag
Fully submerged foil: reduced ventilation/wave drag
Super ventilating or supercavitating ?
https://foils.org/wp-content/uploads/2018/10/Parker-Entry-1ST-PRIZE-MIT.pdf
Gondola
Impact protection
Designed to crash on the surface at 80kt without breaking
Reduced drag
Streamlined in air+water
Free weathervaning water then air (+damping)
Water protection
Buoyancy
Minimal stability
For electronic
But control challenge
Electronic foil control system ?
Build
Test
Workshop
- Max load tests
- Endurance test (battery + thermal)
- Software logic check
- Speed/latency test
- Sensors test and calibration
- Electronics (batteries, poor connector, ...) might start fire...
- NMEA 2000/CAN can be a nightmare
- Electromagnetism is sometimes like black magic
Foil only
- Wire rudder control ❌
- Hydraulic rudder control ❌
- Manual RC electronic rudder control ✅
- Automatic rudder control (Roll PID control with IMU in foil) ✅
- Drag of cylinder is reduced with ventilation
- Foil can jump very high and come back toward anchoring point
- Density/weight distribution must be right for initial positioning
Kite only
- Manual RC electronic differential steering control
- Manual RC electronic trim control
- -> Static flight, dynamic flight, take off
- Much harder to control without force feedback ! But ok with low turbulence
- Longer lines help to get more time to control
Gondola only
- Buoyancy
- Watertightness
- Radio link robustness (up and capsized)
- Internal elements fixation
- Undisturbed roll/pitch/yaw
Lot of efforts only to get to this state !
Foil + Gondola
- Hull roll/pitch/yaw stability with foil in water
- Take off
- Stability/damping in air
- Ultrasonic/GPS RTK check
- Load sensor check
- Skeg is good for low yaw/roll coupling
- Chase boat wave is not helping-> need to go out of wake
Kite + gondola (+catamaran)
- 1 person onboard kiteboat steering the catamaran
- Kite motors inside gondola controlled remotely from chaseboat
- Elastics are good to get rid of slack in control lines
- Apparent wind reduces turbulence level and make things easier
Archimedian navigation
- Small kite
- Deploy kite and lines
- Ability to capsize and redress by steering kite to zenith
- Ability to relaunch kite
- Ability to accelerate
- Ability to slow down
- Ability to jibe
- (no real ability to choose course)
- Ability to control larger kites
Kite + gondola + foil
- Capsizing is not an issue
- Kite release system must be robust
Flight
- Selection of kite size to be able to take off
- Ability to take off gondola
- Ability to fly low
- "Ability" to jump
- Selection of foil size to be able to choose angle to the wind.
Kite + gondola + foil
- Low Speed Stabilisation System for pitch/yaw stability
- Rudder->yaw->roll control not very fast for altitude control at low speed
Future: run ?
Plane
Train
Wind turbine
Airborne Wind Energy
Boat
Offshore wind turbine
Sailboat
Foiling boat
Aile d'eau
Dual Aircraft Platform
Dynamic soaring
Energy
production
Energy
consumption
Ground
Air
Air
Water
Dynamic simulation
S
By Baptiste LABAT
