158

N. Chari et al.

Table 12.1 Comparison of fixed, rotary and flapping wings

Parameters

Fixed wings

Rotary wings

Flapping wings

Aerodynamic forces

developed

Vertical lift opposing

drag and no thrust

Lift, drag and thrust

Lift, drag and thrust

Fulcrum at the wing

base

Wing rigidly fixed at

the base

Hinged to central rotor

hub; free to tilt up and

down and turn about

the longitudinal span

wise axis

Elastic hinge and

movable; possibly in

X, Y, and Z directions

Propeller or jet

(optional)

Usually separate

propellers are present

No separate propellers

No separate propellers

Acoustic level

Relatively high

Very high as in

helicopters

Variable; depends on

wingbeat frequency

Wing tip velocity

Constant

Constant

Variable, linear and

rotating

Aeroelastic effects

Present

Present and more

critical

Present and more

critical

Wing motion

Wing rigidly attached,

moves along with the

body

Circular (rotary) and

with up and down

oscillations

Oscillating and

twisting type of

motion

Wingtip traces

Practically straight line Circular superimposed

with up and down

oscillatory motion

Elliptical or figure of

‘8’ depending on

frequency

Stalling angle (onset) 15 to 20°

15 to 20°

Up to 70° or more

Landing/Take off

Long run way is

required

VTOL (Vertical

Takeoff and Landing);

no runway required

Need some runway

(STOL or V/STOL)

for MAVs

Rotary tail fan

Absent

Required to counter

rotor torque

Absent

Manoeuvrability

Limited

Torque of the moving

rotor is relatively high.

Hence limited

Relatively high

Translatory motion

Forward, long and

small distance flight

Forward and

backward, VTOL

Forward and

occasionally backward

Source Adopted and modified from Chari [1]

inspiration and provide many useful clues in the design of small man-made aerial

vehicles by incorporating flapping and flexible wings. The microaerial vehicles and

unmanned aerial vehicles (MAVs and UAVs) share many common characters with the

biological fliers. Presently there is an increased demand for the deployment of MAVs

for surveillance applications, paramilitary activities, civilian applications, military

and environmental missions for spying and surveillance. This is equally true for both

the advanced and developing countries. The design and production of successful

MAVs is still in experimental stages. There is also a serious problem of takeoff and