Calculating Lift Capacity of Rotor Blades

AI Thread Summary
To calculate the lift capacity of rotor blades, engine horsepower is the primary factor, as it determines thrust output. The relationship between engine RPM, blade size, and pitch angle is crucial, with variable pitch blades allowing adjustments for optimal performance. Induced drag and structural limitations also significantly affect the actual lift available, often reducing it to less than 75% of engine output. Environmental factors like elevation, temperature, and humidity further complicate lift calculations, necessitating reference to aircraft operator manuals for accurate performance data. Overall, lift calculations are complex and require consideration of multiple variables beyond just engine power.
bobo67
Messages
2
Reaction score
0
What calculation is the to find the amount a helicopter (or flying device using rotor blades) can lift? I would of thought I would need to take into consideration the RPM of the blades, the size of the blades and maybe the angle. I was hoping there would be some calculation telling me how much it can lift.
Thanks
 
Physics news on Phys.org
I would think the first consideration of "can lift calculations" would be engine horsepower or equivalent units.

Once you know what the engine puts out, you can figure how to transfer it to thrust. Almost all helecopters have variable pitch blades, for lift you could say the collective pitch verses cyclic.(think of the variable pitch blades as your adjustable transmission, (too much pitch too much work trying to be done), and the engine bogs down and strays from optimal power output.

Most turbine helecopters set the engine to a "set" optimal RPM. From this set RPM, you adjust the pitch of the blades.

Loooonnngg story short, find the engine horsepower and calculate lift from that, (after you subtract the weight of the helecopter). Because of induced drag losses on the rotor blades, etc,etc,etc,etc, I would guess less than 75% of what the engine(s) put out is available for lift.
 
There is no straightforward calculation because the real world numbers take into account a lot more factors than just the engine max power and the blade lift. There are a lot of other limiting factors like structural limits on the fuselage and the blades/rotor hub them selves which may limit the max lift available. There's also the issue of whether in a hover or in forward flight, etc...

Not to mention that all things change at different elevations and temperatures and humidity. That is why a very large section of most aircraft operator's manuals have charts on allowable performance at certain conditions. If you're looking to look at a real aircraft, look in it's operator's manual. Any number you calculate won't be in the ball park.
 
Thanks very much for your help. It made it a lot clearer.
Thanks
 

Thread 'Need help understanding particle physics and quantum physics'

So I know that electrons are fundamental, there's no 'material' that makes them up, it's like talking about a colour itself rather than a car or a flower. Now protons and neutrons and quarks and whatever other stuff is there fundamentally, I want someone to kind of teach me these, I have a lot of questions that books might not give the answer in the way I understand. Thanks
View full post »

Similar threads

B Questions on how helicopters fly
Replies
36
Views
6K
I C Could a Jet Helicopter with Wings Fly at Supersonic Speeds?
Replies
4
Views
5K
Chord length and radius of a wind turbine rotor blade
Replies
6
Views
13K
Aerodynamics of a helicopter blade
Replies
4
Views
918
Misc. Rowing: does every oar need a blade?
Replies
20
Views
2K
Calculating Torque and Current for Quadcopter Rotor Blades
Replies
1
Views
1K
Vertical wind turbine with two concentric rotors
Replies
7
Views
3K
Single main rotor helicopter
Replies
8
Views
2K
Subsonic airbreathing engines and inlet blade angle
Replies
7
Views
3K
[Mechanics] Friction decelerating a helicopter rotor assembly
Replies
1
Views
2K

Hot Threads

Recent Insights

Back
Top