gubEngineer
New member
- Feb 22, 2015
- 4
Hello experts!
This is my first post and it's an 'ask someone with a lot more aerodynamics knowledge than me' kind of post, so forgive me if it needs to be posted elsewhere.
This has been bugging me for some time, explained as follows. I will use point form so that my assumptions / knowledge can be easily snared and corrected:
A question in two parts:
[ul]
[li]Terminal velocity[/li]
[li]Terminal velocity depends, partially, on air density, i.e. if the atmosphere is denser on planet X, for example, then the same object falling on planet X would have a lower terminal velocity than on Earth[/li]
[li]Airfoils[/li]
[li]A basic airfoil is designed to create a pressure differential[/li]
[li]On one edge of the airfoil there will be a greater air pressure as it is accelerating[/li]
[li]Visualise, then, an airfoil that was shaped into a 'ring' instead of a flat 'wing' (see attached files)[/li]
[li]If this 'ring' was falling vertically, and designed with the cross section of such an airfoil, could a greater air pressure be induced inside this ring?[/li]
[li]If so, would there be a way that this increased air pressure could be harnessed such that the terminal velocity of the falling body could be significantly reduced?[/li]
[/ul]
Things I have considered but haven't been able to verify:
[ul]
[li]The effectiveness of such a device would be lower at lower accelerations / velocities. If our falling 'ring' reached terminal velocity - i.e. when acceleration stops, would there be no more pressure differential?[/li]
[li]Would the overall effectiveness of the 'ring' be less at thinner atmospheres?[/li]
[li]Could the (higher pressure) air be funneled into a parachute / drag inducing mechanism in order to lower the terminal velocity?[/li]
[li]Is this re-inventing the wheel i.e. does something like this already exist? I am curious.[/li]
[/ul]
Image 1
Image 2
The main reason I ask is that I am wondering whether it is possible for some sort of 'structural parachute' that would work at any altitude and significantly reduce a falling person's terminal velocity. I am predicting that it is possible but it will fall into the 'asking too much from physics' basket - which would explain why I haven't read about it elsewhere
Thanks for your time and your thoughts!
This is my first post and it's an 'ask someone with a lot more aerodynamics knowledge than me' kind of post, so forgive me if it needs to be posted elsewhere.
This has been bugging me for some time, explained as follows. I will use point form so that my assumptions / knowledge can be easily snared and corrected:
A question in two parts:
[ul]
[li]Terminal velocity[/li]
[li]Terminal velocity depends, partially, on air density, i.e. if the atmosphere is denser on planet X, for example, then the same object falling on planet X would have a lower terminal velocity than on Earth[/li]
[li]Airfoils[/li]
[li]A basic airfoil is designed to create a pressure differential[/li]
[li]On one edge of the airfoil there will be a greater air pressure as it is accelerating[/li]
[li]Visualise, then, an airfoil that was shaped into a 'ring' instead of a flat 'wing' (see attached files)[/li]
[li]If this 'ring' was falling vertically, and designed with the cross section of such an airfoil, could a greater air pressure be induced inside this ring?[/li]
[li]If so, would there be a way that this increased air pressure could be harnessed such that the terminal velocity of the falling body could be significantly reduced?[/li]
[/ul]
Things I have considered but haven't been able to verify:
[ul]
[li]The effectiveness of such a device would be lower at lower accelerations / velocities. If our falling 'ring' reached terminal velocity - i.e. when acceleration stops, would there be no more pressure differential?[/li]
[li]Would the overall effectiveness of the 'ring' be less at thinner atmospheres?[/li]
[li]Could the (higher pressure) air be funneled into a parachute / drag inducing mechanism in order to lower the terminal velocity?[/li]
[li]Is this re-inventing the wheel i.e. does something like this already exist? I am curious.[/li]
[/ul]
Image 1
Image 2
The main reason I ask is that I am wondering whether it is possible for some sort of 'structural parachute' that would work at any altitude and significantly reduce a falling person's terminal velocity. I am predicting that it is possible but it will fall into the 'asking too much from physics' basket - which would explain why I haven't read about it elsewhere
Thanks for your time and your thoughts!