Flight test report: EN 926-2:2013 & LTF 91/09 Manufacturer
Ozone Gliders
Certification number
PG_1108.2016
Address
2, Queens Drive LA46LN . UK
Date of flight test
31. 08. 2016
Glider model
Zeno S
Classification
D
Serial number
PR23-R-31A-004
Representative
Russel Ogden
Trimmer
no
Place of test
Villeneuve
Folding lines used
yes
Test pilot
Thurnheer Claude
Zoller Alain
Harness
Sup' Air - Access M
Flugsau - XX-Lite
Harness to risers distance (cm)
43
41
Distance between risers (cm)
44
44
Total weight in flight (kg)
75
90
1. Inflation/Take-off
C
Rising behaviour
Overshoots, shall be slowed down to avoid a front collapse
C
Overshoots, shall be slowed down to avoid a front collapse
C
Special take off technique required
No
A
No
A
2. Landing
A
Special landing technique required
No
A
No
A
3. Speed in straight flight
B
Trim speed more than 30 km/h
Yes
A
Yes
A
Speed range using the controls larger than 10 km/h
Yes
A
Yes
A
Minimum speed
25 km/h to 30 km/h
B
25 km/h to 30 km/h
B
4. Control movement
C
Increasing / greater than 55 cm
A
not available
0
not available
0
Increasing / 45 cm to 60 cm
C
Symmetric control pressure / travel
not available
0
not available
0
5. Pitch stability exiting accelerated flight
A
Dive forward angle on exit
Dive forward less than 30°
A
Dive forward less than 30°
A
Collapse occurs
No
A
No
A
6. Pitch stability operating controls during accelerated flight
A
Collapse occurs
No
A
No
A
7. Roll stability and damping
A
Oscillations
Reducing
A
Reducing
A
8. Stability in gentle spirals
A
Tendency to return to straight flight
Spontaneous exit
A
Spontaneous exit
A
9. Behaviour exiting a fully developed spiral dive
D
Initial response of glider (first 180°)
No immediate reaction
B
No immediate reaction
B
Tendency to return to straight flight
Turn remains constant (g force constant, rate of turn constant)
D
Turn remains constant (g force constant, rate of turn constant)
D
Turn angle to recover normal flight
With pilot action
D
With pilot action
D
Max. weight in flight up to 80 kg Symmetric control pressure / travel Max. weight in flight 80 kg to 100 kg Symmetric control pressure / travel Max. weight in flight greater than 100 kg
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10. Symmetric front collapse
D
Approximately 30 % chord Entry
Rocking back less than 45°
A
Rocking back less than 45°
A
Recovery
Spontaneous in less than 3 s
A
Recovery through pilot action in less than a further 3 s
D
Dive forward angle on exit Change of course
Dive forward 0° to 30° Keeping course
A
Dive forward 0° to 30° Entering a turn of less than 90°
A
Cascade occurs
No
A
No
A
Folding lines used
Yes
Yes
At least 50% chord Entry
Rocking back less than 45°
A
Rocking back less than 45°
A
Recovery
Recovery through pilot action in less than a further 3 s
D
Recovery through pilot action in less than a further 3 s
D
Dive forward angle on exit / Change of course
Dive forward 30° to 60° / Keeping course
B
Dive forward 30° to 60° / Entering a turn of less than 90°
B
Cascade occurs
No
A
No
A
Folding lines used
Yes
Yes
With accelerator Entry
Rocking back less than 45°
A
Rocking back greater than 45°
C
Recovery
Recovery through pilot action in less than a further 3 s
D
Recovery through pilot action in less than a further 3 s
D
Dive forward angle on exit / Change of course
Dive forward 30° to 60° / Keeping course
B
Dive forward 30° to 60° / Entering a turn of less than 90°
B
Cascade occurs
No
A
No
A
Folding lines used
Yes
11. Exiting deep stall (parachutal stall)
A
Deep stall achieved
Yes
A
Yes
A
Recovery
Spontaneous in less than 3 s
A
Spontaneous in less than 3 s
A
Dive forward angle on exit
Dive forward 0° to 30°
A
Dive forward 0° to 30°
A
Change of course
Changing course less than 45°
A
Changing course less than 45°
A
Cascade occurs
No
A
No
A
12. High angle of attack recovery
A
Recovery
Spontaneous in less than 3 s
A
Spontaneous in less than 3 s
A
Cascade occurs
No
A
No
A
13. Recovery from a developed full stall
C
Dive forward angle on exit
Dive forward 0° to 30°
A
Dive forward 30° to 60°
B
Collapse
No collapse
A
No collapse
A
Cascade occurs (other than collapses)
No
A
No
A
Rocking back
Greater than 45°
C
Greater than 45°
C
Line tension
Most lines tight
A
Most lines tight
A
14. Asymmetric collapse
D
Yes
Small asymmetric collapse Change of course until re-inflation / Maximum dive forward or roll angle
Less than 90° / Dive or roll angle 15° to 45°
A
Less than 90° / Dive or roll angle 0° to 15°
A
Re-inflation behaviour
Spontaneous re-inflation
A
Inflates in 3 s to 5 s from start of pilot action
D
Total change of course
Less than 360°
A
Less than 360°
A
Collapse on the opposite side occurs
No (or only a small number of collapsed cells with a spontaneous reinflation)
A
No (or only a small number of collapsed cells with a spontaneous reinflation)
A
Twist occurs
No
A
No
A
Cascade occurs
No
A
No
A
Folding lines used
Yes
Yes
Large asymmetric collapse Change of course until re-inflation / Maximum dive forward or roll angle
Less than 90° / Dive or roll angle 45° to 60°
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C
90° to 180° / Dive or roll angle 15° to 45°
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B
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Re-inflation behaviour
Inflates in less than 3 s from start of pilot action
C
Inflates in 3 s to 5 s from start of pilot action
D
Total change of course
Less than 360°
A
Greater than 360° with tendency to recover (g force decreasing, rate of turn decreasing)
C
Collapse on the opposite side occurs
No (or only a small number of collapsed cells with a spontaneous reinflation)
A
No (or only a small number of collapsed cells with a spontaneous reinflation)
A
Twist occurs
No
A
No
A
Cascade occurs
No
A
No
A
Folding lines used
Yes
Yes
Small asymmetric collapse with fully activated accelerator Change of course until re-inflation / Maximum dive forward or roll angle
Less than 90° / Dive or roll angle 15° to 45°
A
90° to 180° / Dive or roll angle 15° to 45°
B
Re-inflation behaviour
Spontaneous re-inflation
A
Inflates in 3 s to 5 s from start of pilot action
D
Total change of course
Less than 360°
A
Less than 360°
A
Collapse on the opposite side occurs
No (or only a small number of collapsed cells with a spontaneous reinflation)
A
No (or only a small number of collapsed cells with a spontaneous reinflation)
A
Twist occurs
No
A
No
A
Cascade occurs
No
A
No
A
Folding lines used
Yes
No
Large asymmetric collapse with fully activated accelerator Change of course until re-inflation / Maximum dive forward or roll angle
90° to 180° / Dive or roll angle 45° to 60°
C
Less than 90° / Dive or roll angle 45° to 60°
C
Re-inflation behaviour
Spontaneous re-inflation
A
Inflates in 3 s to 5 s from start of pilot action
D
Total change of course
Less than 360°
A
Greater than 360° with tendency to recover (g force decreasing, rate of turn decreasing)
C
Collapse on the opposite side occurs
No (or only a small number of collapsed cells with a spontaneous reinflation)
A
No (or only a small number of collapsed cells with a spontaneous reinflation)
A
Twist occurs
No
A
No
A
Cascade occurs
No
A
No
A
Folding lines used
Yes
15. Directional control with a maintained asymmetric collapse
A
Able to keep course
Yes
A
Yes
A
180° turn away from the collapsed side possible in 10 s
Yes
A
Yes
A
Amount of control range between turn and stall or spin
More than 50 % of the symmetric control travel
A
More than 50 % of the symmetric control travel
A
16. Trim speed spin tendency
A
Spin occurs
No
A
No
A
17. Low speed spin tendency
D
Spin occurs
Yes
D
No
A
18. Recovery from a developed spin
B
Spin rotation angle after release
Stops spinning in 90° to 180°
B
Stops spinning in less than 90°
A
Cascade occurs
No
A
No
A
19. B-line stall
0
Change of course before release
not available
0
not available
0
Behaviour before release
not available
0
not available
0
Recovery
not available
0
not available
0
Dive forward angle on exit
not available
0
not available
0
Cascade occurs
not available
0
not available
0
20. Big ears
B
Entry procedure
Dedicated controls
A
Dedicated controls
A
Behaviour during big ears
Stable flight
A
Stable flight
A
Recovery
Spontaneous in 3 s to 5 s
B
Spontaneous in 3 s to 5 s
B
Dive forward angle on exit
Dive forward 0° to 30°
A
Dive forward 0° to 30°
A
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No
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21. Big ears in accelerated flight
C
Entry procedure
Dedicated controls
A
Dedicated controls
A
Behaviour during big ears
Unstable flight
C
Stable flight
A
Recovery
Recovery through pilot action in less than a further 3 s
B
Recovery through pilot action in less than a further 3 s
B
Dive forward angle on exit
Dive forward 0° to 30°
A
Dive forward 0° to 30°
A
Behaviour immediately after releasing the accelerator while maintaining big ears
Stable flight
A
Stable flight
A
22. Alternative means of directional control
A
180° turn achievable in 20 s
Yes
A
Yes
A
Stall or spin occurs
No
A
No
A
23. Any other flight procedure and/or configuration described in the user's manual
0
Procedure works as described
not available
0
not available
0
Procedure suitable for novice pilots
not available
0
not available
0
Cascade occurs
not available
0
not available
0
24. Comments of test pilot Comments
Test Report generated automatically by AIR TURQUOISE SA, valid without signature
Delta 2 S. Classification. C. Trimmer no. Test pilot Dupont Philippe. Thurnheer Claude ... Smooth, easy and constant rising A Smooth, easy and constant rising. A.
Delta 2 S. Classification. C. Trimmer no. Test pilot Dupont Philippe. Thurnheer Claude ... Smooth, easy and constant rising A Smooth, easy and constant rising. A.
Roll stability and damping. A. Oscillations. Reducing. A Reducing. A. 8. Stability in gentle spirals. A. Tendency to return to straight flight. Spontaneous exit.
17. 10. 2013. Representative. David Dagaut. Place of test. Villeneuve. Glider model. Mantra M6 MS. Classification. D. Trimmer no. Test pilot Thurnheer Claude.
Little Cloud - DLCO ... Harness Little Cloud - Little Cloud ... 2. Landing. A. Special landing technique required. No. A No. A. 3. Speed in straight flight. B.
Behaviour before release. Spontaneous in less than 3 sec. Cascade occurs. Recovery. Dive forward angle on exit. No. Remains stable with straight span. B.
Paraglider. Accessories. Maximum weight in flight (kg). 125. Range of speed system (cm). 14.7. Minimum weight in flight (kg). 105. Speed range using brakes ...
25. 04. 2008. Representative Alloix Pierre-Yves. Place of test. Villeneuve. Glider model. Magic 5 M. Classification. D. Trimmer no. Test pilot Thurnheer Claude.
Symmetric control pressure / travel not available. 0 not available. 0. 5. Pitch stability exiting accelerated flight. A. Dive forward angle on exit not available. 0.
May 30, 2007 - Total weight in flight 65 kg. 85 kg. Min weight. Max weight. 1. Inflation/Take-off. Rising behaviour. Smooth, easy and constant rising. A Smooth ...
Jun 7, 2007 - 86-031 Osielsko. Place of test. Villeneuve. Poland. Representive None ... More than 14 m/s. B More than 14 m/s. B. 10. Symmetric front collapse.
16. 01. 2012. Representative. Gin Seok Song. Place of test. Villeneuve. Glider model. BoomerangX M. Classification. D. Trimmer no. Test pilot Thurnheer Claude.
Harness Sup air - Evasion Bi. Advance - Bi Pro 2 ... Flight test report: PG_0569.2012 / page 1 of 3. 1. Inflation/Take- ... Max. weight in flight up to 80 kg. Symmetric ...
86-031 Osielsko. Poland. Date of flight test. 13. 03. ... Sup' Air - Access M. Total weight in flight (kg) 60. 85 ... A More than 14 m/s. B. 10. Symmetric front collapse.
Flight test report: PG_0721.2013 / page 1 of 3. 1. Inflation/Take-off. A. Rising behaviour. Smooth, easy and constant rising A Smooth, easy and constant rising. A.
Sep 14, 2007 - A Yes. A. Minimum speed. Less than 25 km/h. A Less than 25 km/h. A. 4. Control movement. Max. weight in flight up to 80 kg. Symmetric control ...
Flight test report: PG_0645.2012 / page 1 of 3. 1. Inflation/Take-off. A. Rising behaviour. Smooth, easy and constant rising A Smooth, easy and constant rising. A.