Soaring Weather - PowerPoint PPT Presentation

About This Presentation
Title:

Soaring Weather

Description:

Teaching Soaring Weather Soaring Safety Foundation FIRC Rich Carlson Determining When to Land What effect does the wind have on landing? Effect of 20 Kt wind 27 9 ... – PowerPoint PPT presentation

Number of Views:131
Avg rating:3.0/5.0
Slides: 17
Provided by: Richar1032
Category:
Tags: soaring | weather

less

Transcript and Presenter's Notes

Title: Soaring Weather


1
Teaching Soaring Weather
Soaring Safety Foundation FIRC Rich Carlson
2
Determining When to Land
  • What effect does the wind have on landing?

3
(No Transcript)
4
Effect of 20 Kt wind
Time on Downwind More, Less, no Change? Altitude
loss More, Less, no Change?
20 Kts
5
Effect of 20 Kt wind
Time on base More, Less, no Change? Altitude
loss More, Less, no Change?
20 Kts
6
Effect of 20 Kt wind
Time on Final More, Less, no Change? Altitude
loss More, Less, no Change?
20 Kts
7
Effect of 20 Kt wind
Which path is your student likely to fly? Which
path do you want them to fly?
4
20 Kts
3
1
2
8
Final Approach(No wind)
60 kts _at_ 500 ft/m decent rate 121 glide slope 24
seconds
200
2400
9
Final Approach(20 Kt Head Wind)
60 kts _at_ 500 ft/m decent rate 81 glide slope 24
seconds
200
800
2400
10
Final Approach(20 kt wind shear)
60 kts _at_ 500 ft/m decent rate Maintain constant
speed during approach How much time remains?
200
20 kts
0 kts
X
Y
800
2400
11
Decision Time
  • With a 20 kt shear, are you likely to
  • overshoot (into area Y)
  • undershoot (into area X)
  • Said another way, what actions do you need to
    take to reach your intended touchdown point
  • close the spoilers to extend (undershooting)
  • open the spoilers to sink faster (overshooting)
  • Another variation, what will the aim spot do?
  • move up on the canopy (undershooting)
  • move down on the canopy (overshooting)

12
How much Altitude does it take to regain original
airspeed?
?
13
Preliminary Analytical Results
  • No Wind
  • Distance is X
  • Steady 20 Kt head wind
  • Distance is X 0.67 (33 shorter)
  • Wind Gradient Case
  • Distance is X 0.47 (53 shorter)

14
Shear Encounters
  • When can this happen?
  • Landing in gusty conditions
  • Landing area shielded by obstructions
  • During good thermal conditions

15
Recommendations
  • Plan for this loss of energy
  • Pick an approach speed that will allow for some
    loss
  • Move base leg closer to runway edge
  • Be higher turning Final
  • Be prepared to close the spoilers
  • Be prepared to pitch forward to maintain/recover
    airspeed

16
Conclusions
  • Shear line causes loss of Total Energy
  • Large Pitch change required to rapidly recover
    lost energy
  • Large amount of Time lost while total energy
    changes
  • Immediate action is required to reach original
    touchdown point!
Write a Comment
User Comments (0)
About PowerShow.com