3D flow

Question 1

What factors affect span wise flow

Answer 1

Inertia of mass flow

Local pressure differences around aircraft

Question 2

How are wing tip vortices formed

Answer 2

Air at bottom of wing (high Pressure) try’s to get to top. But wing tip moving rapidly. So mass of air left behind that rotates inwards. Occurs at both tips clockwise left anti righ

Question 3

What factors affect intensity of wing tip vortices

Answer 3

Can only be produced when wings produce lift. If amount of lift increases intensity will be greater.
Slower speeds=Stronger vortices.
Wing aspect ratio increasing results in intensity decreasing. Low aspect ratio wing produces more intense vortices.

Question 4

Effects of tip trailing vortices

Answer 4

Downwash
Drag
Wake turbulence.
Stronger tip trailing vortices stronger the effects.

Question 5

Wake turbulence threat

Answer 5

Low speed and high AOA produce greatest wake turbulence.
Migrate downwards because of downwash. Only produced when wing produces lift. Can extend for several miles. Stabilise at 900ft.

Question 6

How Trailing edge vortices form

Answer 6

Span wise flow cause air on upper surface to turn slightly inwards.
Air on bottom turns outwards.
At trailing edge the 2 air flows meet at an angle
Strength depends on angle they meet at.

Question 7

What happens to upwash and downwash in 3D flow

Answer 7

Upwash decreases.

Downwash Increases.

Question 8

What is Effective airflow

Answer 8

EAF is direction of airflow relative to the wing.

Pressure distribution and aerodynamic forces are determined by EAF.

Question 9

Induced AOA

Answer 9

Angle between effective airflow and relative airflow.

Question 10

Induced Drag

Answer 10

Whenever lift is generated induced drag is generated. depends on induced AOA and is proportional to induced AOA.

Question 11

Angle of Attack in 3D Flow

Answer 11

AOA is the angle between aircrafts longitudinal axis and the relative airflow.

Question 12

What affects Induced AOA

Answer 12

Induced AOA is large if aircraft is flying at lower TAS or if vortices are stronger therefore producing greater downwash.

Question 13

What is effective AOA

Answer 13

Effective AOA is the angle between effective airflow and chord line of the wing.
AOA is now sum of Effective AOA and Induced AOA

Question 14

Relationship between vortices and EAF/Induced AOA

Answer 14

Stronger vortices result in a smaller EAF and larger Induced AOA. This gives a lower proportion of lift to induced drag. So weaker vortices are better for lift.

Question 15

Relationship between Rectangular wing and vortices.

Answer 15

For a rectangular wing vortex strength changes span wise. Stronger vortices and greater downwash occur close to the wingtips. Wing root vortices are weaker. This is because wing root has greater EAF and larger lift coefficient.