helicopter design features
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helicopter design features
I know that among the users in the forum there are some wise men that might want to share knowledge...
I would like to learn what makes a helicopter more capable than others to perform hot&high.
Is it only a matter of engine??? If so... what makes an engine to stand better than others hot&high conditions???
If aerodinamic design of the heli itself makes any difference???
Any knowledge welcome ...I'm stilllearning !!!
I would like to learn what makes a helicopter more capable than others to perform hot&high.
Is it only a matter of engine??? If so... what makes an engine to stand better than others hot&high conditions???
If aerodinamic design of the heli itself makes any difference???
Any knowledge welcome ...I'm stilllearning !!!
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To get more lift and to catch thin air means you need:
Big blades (longer chord) = more drag = more power = more weight (TMP & Trans) = more fuel ....
As a "system" you are chasing your tail to improve the performance on the dificult end.
Big blades (longer chord) = more drag = more power = more weight (TMP & Trans) = more fuel ....
As a "system" you are chasing your tail to improve the performance on the dificult end.
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Agile, all that is true, but when looking at performance charts, some have steeper lines than others, meaning that some helis loose performances faster than others when it comes to altitud and temp...WAT charts might get quite different from ones to others...what is that makes it work that way???
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It might not be just engines - for example, I wouldn't like to try to operate a NOTAR at high altitude, despite how much power it has. Rotor blades on some machines can slow things down somewhat. Ans of course, pilot skill!
stilllearning,
The parts of the aircraft that the manufacturers got wrong are known as "helicopter design features"
The parts of the aircraft that the manufacturers got wrong are known as "helicopter design features"
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RVDT when I started this thread "design features" meant just the opposite: what makes the differences to perform better that others...
Probably the main point to begin with is to mount engines that don't reach their max performances at low levels and need quite high alt&temp to get near their max compressor RPM's ... but probably there is more to it that is what I was looking for ...
Probably the main point to begin with is to mount engines that don't reach their max performances at low levels and need quite high alt&temp to get near their max compressor RPM's ... but probably there is more to it that is what I was looking for ...
to perform better than others
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megan, if I want a good performet hot&high I wouldn't buy a good performer at sea level. As simple as that... again: I am looking for technical answers not arguments on fuel consumption or airconditioned equipment...
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there is no bulls eye answer to your question.
people will continue to take random shots at your target until you have your winner.
This is not an easy question to answer. Helicopters have been arguing with gravity since DaVinci first put ink on paper and everyone is "stilllearning". No manufacturer has perfected the perfect hot/high helicopter combination as of yet.
people will continue to take random shots at your target until you have your winner.
This is not an easy question to answer. Helicopters have been arguing with gravity since DaVinci first put ink on paper and everyone is "stilllearning". No manufacturer has perfected the perfect hot/high helicopter combination as of yet.
I am looking for technical answers
If you want the right answers go to the right place?
There are a ton of books out there - start with Ray Prouty's books as they are pretty easy going yet tackle the questions you are asking.
One factor.
Turbine engines are most efficient when run at design (max continuous?) power.
So an engine that is powerful enough at altitude, will be inefficient at lower altitudes and power settings.
Probably similar with blades (big ones on top, and the tail feathers.)
IE the design that works well in thin air, might be high drag for the lift they generate in dense air.
As usual, “compromise” is the name of the game.
Does that help?
Turbine engines are most efficient when run at design (max continuous?) power.
So an engine that is powerful enough at altitude, will be inefficient at lower altitudes and power settings.
Probably similar with blades (big ones on top, and the tail feathers.)
IE the design that works well in thin air, might be high drag for the lift they generate in dense air.
As usual, “compromise” is the name of the game.
Does that help?
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If you look at something like the Lama horsepower is the main factor to get performance at altitude.
A very powerful engine derated at lower altitudes to be able to perform at high altitudes.
The lama had a three bladed rotor system but a two bladed rotor system is the most efficient at altitude due to less parasite drag than a multi bladed system.
A very powerful engine derated at lower altitudes to be able to perform at high altitudes.
The lama had a three bladed rotor system but a two bladed rotor system is the most efficient at altitude due to less parasite drag than a multi bladed system.
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T&S and Fadecdegraded all that makes perfect sense and is the type of knowledge I was looking for ... important aspects of design. Thanks
RVDT...if you don't know just pass on and go to next thread ... don't understand your attitude ...NAMASTE
RVDT...if you don't know just pass on and go to next thread ... don't understand your attitude ...NAMASTE
fadecdegraded - yes but you have less aerodynamic damping at altitude and the higher blade inertia with only two blades can make handling less desirable, especially coupled with a teetering head (as most two blade rotors are) it's all about Lock number apparently.
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Compromise..... And technical choices....That's all. Depending the result wanted : Speed, high and hot, maniability, Mountain flight, noise, payload etc.... The II Intelligent Ingeener make different choice to reach what the customer/market want...No more no less... And sometime you fly a very quiet helicopter without any defense on the pedal in high mountain... or very speedy helicopter but with a poor payload...
The perfect helicopter is only perfect for his customer and his use...
The perfect helicopter is only perfect for his customer and his use...
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Megan is very good for you to see so many things about my knowledge through a few words and comments ...
After 40 years flying all I can say is that I am stilllearning and everyday I ignore a few more things about these wonderful machines and how they fly...
Again NAMASTE
After 40 years flying all I can say is that I am stilllearning and everyday I ignore a few more things about these wonderful machines and how they fly...
Again NAMASTE
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Airbus (Eurocopter) designs have always been better high altitude machines. Bell and Sikorsky seem to be designed for operations near sea level. Having flown a Bell 205A into helipads at 13,000 MSL, I can tell you that the tail rotor was very limited, and autorotation ability was almost zero.
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You want to go high altitude? You want less engines. Just look at the Lama and B3 Squirrel (altitude record for helis I think).
This should give best power to weight you can get (with sufficiently powerful engine obviously - efficient because you only have single gas generator to drive). Clearly you need to strip out any excess weight too (no redundancy like twin hyds for example).
I would also design the rotor for efficiency at high altitude (it'll fly like a pig at low level though). You would have to design control phasing for the altitude (Lock number effects) - you see this going wrong when flying a "sea level" helicopter at 20000ft - forwards back left and right all get skewed around. I would also increase control gearing/control power as everything gets a little sloppy on the controls.
I think a lower rotor speed would also be a good idea. The speed of sound is lower at altitude (ie lower temperature) so tip effects would kick in earlier. Longer blades might cause problems with tip effects so I think broader chord is the way to go.
Just some thoughts
This should give best power to weight you can get (with sufficiently powerful engine obviously - efficient because you only have single gas generator to drive). Clearly you need to strip out any excess weight too (no redundancy like twin hyds for example).
I would also design the rotor for efficiency at high altitude (it'll fly like a pig at low level though). You would have to design control phasing for the altitude (Lock number effects) - you see this going wrong when flying a "sea level" helicopter at 20000ft - forwards back left and right all get skewed around. I would also increase control gearing/control power as everything gets a little sloppy on the controls.
I think a lower rotor speed would also be a good idea. The speed of sound is lower at altitude (ie lower temperature) so tip effects would kick in earlier. Longer blades might cause problems with tip effects so I think broader chord is the way to go.
Just some thoughts
