Some posts about single skin kites:
OZONE KITES EXPLORE V2 Teaser / Jks-kitesurf
At 0:36 from the beginning, the structure of the wing is shown, with its “ram air wingtips” which I think improves profile and performance with little extra fabric just for the leading edge and the cords, most of the wing remaining single skin.
A similar structure is presented on:
La comparaison by Flysurfer: Peak 5 VS Peak 4 | Flysurf.com
These single skin kites seem interesting for AWE use because the profile remains efficient while the wing keeps its lightness.
Specifications
Size
4m
6m
8m
10m
12m
Weight
.65
.81
.91
1.06
1.21
Bar Size(cm)
45
45
50
50
55
Line Length (m)
20
20
22
25
25
Number of Cells
25
25
25
25
25
Projected Area (m²)
2.89
4.36
5.86
7.30
8.76
Flat Area (m²)
4.00
6.00
8.02
10.00
12.00
Projected Aspect Ratio
2.68
2.83
2.96
2.96
2.96
Flat Aspect Ratio
4.21
4.44
4.64
4.64
4.64
Root Chord (mm)
1180
1408
1593
1779
1948
Flat Span (mm)
4146
5210
6157
6875
7530
1.21 kg and 12 m² of flat area for the 12 m. The aspect ratio is rather high. I would like to know the lift to drag ratio. What not using giant wings like this for AWES?
See also single skin paragliders like
SPECIFICATIONS
SIZES 16 18 Number of panels 39 39 Projected area (m²) 13.9 15.6 Flat Area (m²) 16 18 Projected Span (m) 8.0 8.5 Flat Span (m) 9.5 10.1 Projected Aspect Ratio 4.6 4.6 Flat Aspect Ratio 5.6 5.6 Root Chord (m) 2.0 2.1 Glider Weight* (kg) 1.3 1.4 In-flight Weight Range (kg) 55-90 67-105
The aspect and area/mass ratios are still higher. Perhaps these would make excellent scalable high lift to drag ratio AWES, with reinforced fabric?
See also
An excerpt:
7. How does a mono surface work? A little flight mechanics…
A wing is made up of an intrados (the “underside”) and an extrados (the “top”).
On single-skin wings the upper surface stops just after the leading edge.
In terms of flight mechanics: the air flow linked to the movement of the wing generates lift: by depression on the upper surface (approximately 70% of the lift) and by overpressure on the lower surface (approximately 30% of the lift). So even without a lower surface most of the lift is generated: it flies!
The behaviour of this type of wing is a little different from a classic paraglider. This means that learning to fly with it has it specificities. This is an excellent first step into the world of free flight with paragliders, they are easier to inflate and take-off than standard wings thanks to their very light wing weight, between 1kg to 2kg (a “classic” mountain wing would weigh between 2kg to 4kg).
Can we deduce that the lift is reduced for a single skin paraglider?