High altitude balloon acceleration

In summary: The drag will eventually bring it down.Eventually it's mostly helimum and hydrogen at the outer edges of the atmosphere without any of the heavier elements.In summary, the balloon will have a constant acceleration up to a certain altitude, but the drag will eventually bring it down.
  • #1
djdoug99
15
0
I'm trying to calculate the acceleration of a high altitude balloon at different altitudes. In excel I've got the temperature, air pressure, and air density for a given altitude (thanks to NASA). Right now I am calculating the net force on the balloon with:

Fnet= Fb-Fm

Fb = Buoyant force = density of air*volume*9.81

Fm= (mass of balloon+mass of payload+(volume*density of helium))*9.81

For whatever volume I put in for the balloon I only get a positive net force until about 55,000 feet. I'm thinking it is because I am not taking into account the increase of air that will be displaced by the balloon as it gets higher and higher, but I am not sure how to model that mathematically. Any insight as to how to do this would be appreciated.
 
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  • #2
Isn't the buoyant force: density of air*volume*9.81 ?

High altitude balloons will start out partially filled, so their volume will increase. What won't increase is the mass of the helium used. F_m will be a constant unless you let out helium
 
  • #3
Yes it is. I guess I wasn't paying attention when I was typing that in. Its been fixed in the original post. I'm aware that the volume of the balloon will increase as it climbs which is my problem since the amount of air displaced will also increase. I just don't know how to model the change of volume. As for the helium, the mass of the helium in my excel sheet is constant (it uses the initial volume of the balloon)
 
  • #4
bump.. or anyone have another idea how I can approximate the acceleration at various altitudes?
 
  • #5
Im using these equations:
http://www.grc.nasa.gov/WWW/K-12/airplane/atmosmet.html

I'm still getting a constant buoyant force for some reason. If someone could take a look at my excel sheet that would be great. The ideal gas law is being used to calculate the baloons volume at different altitudes.

thank you
 

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  • #6
djdoug99 said:
I'm still getting a constant buoyant force for some reason.
Maybe because it is correct? At least as long as the balloon can expand freely.
 
  • #7
At very high altitudes, the strength of gravity will be a bit less. Eventually it's mostly helimum and hydrogen at the outer edges of the atmosphere without any of the heavier elements.
 
  • #8
Jeff Reid said:
At very high altitudes, the strength of gravity will be a bit less. Eventually it's mostly helimum and hydrogen at the outer edges of the atmosphere without any of the heavier elements.
Yes, these a minor effects. But at some point the balloon is fully inflated, so it cannot reduce its density to float into less dense regions.
 
  • #9
A.T. said:
Maybe because it is correct? At least as long as the balloon can expand freely.

But if it was constant than its acceleration would be constant so it would be going close to 300 m/s at a certain altitude. This of course is without the drag force accounted for.
 
  • #10
Jeff Reid said:
Eventually it's mostly helimum and hydrogen at the outer edges of the atmosphere without any of the heavier elements.

I don't think you'll get that far with a balloon.
 

1. How does high altitude affect the acceleration of a balloon?

At high altitudes, the air is less dense which means there is less air resistance or drag acting on the balloon. This allows the balloon to accelerate faster due to the reduced resistance.

2. Can high altitude balloons reach supersonic speeds?

No, high altitude balloons are not designed to reach supersonic speeds. They are typically limited to reaching speeds of Mach 1 or lower. This is because the thin air at high altitudes does not provide enough resistance for the balloon to generate enough thrust to reach supersonic speeds.

3. How is acceleration measured in high altitude balloons?

Acceleration in high altitude balloons is typically measured using accelerometers. These devices use sensors to measure the change in velocity over time and can accurately calculate the acceleration of the balloon.

4. What factors can affect the acceleration of a high altitude balloon?

The acceleration of a high altitude balloon can be affected by various factors such as air density, temperature, wind speed, and the weight and design of the balloon itself. These factors can either increase or decrease the acceleration of the balloon.

5. Are there any safety concerns for high altitude balloon acceleration?

Yes, there are safety concerns for high altitude balloon acceleration. As the balloon reaches higher altitudes, the air becomes thinner which can lead to decreased oxygen levels and increased risk of hypoxia for the passengers on board. It is important for proper safety measures to be in place and for passengers to be properly trained and equipped for high altitude flights.

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