- #1
Gepard
- 18
- 0
Hi,
I'm currently designing a model torpedo and plan to use compressed air for it's propulsion and am working out if it's feasible.
At the moment I'm trying to calculate how long it takes for X volume of compressed air at Y pressure to leave (IE return to atmospheric pressure) through a hole or vent of Z diameter. I've had a Google but I'm not quite sure how to phrase it but so far the best way I can think of it is to break it down into groups of milliseconds and then use the Venturi Effect to give me a rough idea but it seems a little crude.
Anyone care to suggest a better method? I'm presuming there is some 'magical formula' that I'm not quite getting.
Cheers,
Michael
I'm currently designing a model torpedo and plan to use compressed air for it's propulsion and am working out if it's feasible.
At the moment I'm trying to calculate how long it takes for X volume of compressed air at Y pressure to leave (IE return to atmospheric pressure) through a hole or vent of Z diameter. I've had a Google but I'm not quite sure how to phrase it but so far the best way I can think of it is to break it down into groups of milliseconds and then use the Venturi Effect to give me a rough idea but it seems a little crude.
Anyone care to suggest a better method? I'm presuming there is some 'magical formula' that I'm not quite getting.
Cheers,
Michael
