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Rockets not carrying fuel.
From this web page, the weight of the shuttle external tank with the
liquid oxygen and hydrogen is 1.6 million pounds: EXTERNAL TANK http://science.ksc.nasa.gov/shuttle/...ewsref/et.html But the amount of liquid oxygen that is burned is only 2,787 pounds per second and the amount of hydrogen 465 pounds per second. Nanotube productions methods are advancing quickly. Suppose it is possible to make a fuel line of carbon nanotube material hundreds of kilometers long. Could fuel be pumped up to a rocket accelerating to orbital velocity? What would be the fuel requirements for a rocket that did not carry its own fuel? Say a rocket with the payload capacity of the shuttle and with engines of the efficiency of the shuttle main engines? Bob Clark |
#2
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Rockets not carrying fuel.
Robert Clark wrote:
snip Suppose it is possible to make a fuel line of carbon nanotube material hundreds of kilometers long. Could fuel be pumped up to a rocket accelerating to orbital velocity? snip Bob Clark I see the electric car with a 100 mi. power cord. ;-) Somthing big enough, what can contain millions of PSI, unspooling at mach 14 into the path of superheated gasses? |
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Rockets not carrying fuel.
Robert Clark wrote:
But the amount of liquid oxygen that is burned is only 2,787 pounds per second and the amount of hydrogen 465 pounds per second. Those numbers don't look right. Shouldn't the LOX be about 8 times the LH? Nanotube productions methods are advancing quickly. Suppose it is possible to make a fuel line of carbon nanotube material hundreds of kilometers long. Could fuel be pumped up to a rocket accelerating to orbital velocity? Got to give you credit for thinking outside the box. This certainly is a unique idea. But I can't imagine there exists a pump that could do this. Or even come close. Especially since it has to operate at liquid oxygen temps. -- Dan Tilque |
#4
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Rockets not carrying fuel.
On Mon, 28 Jul 2003 22:41:16 -0700, in a place far, far away, "Dan
Tilque" made the phosphor on my monitor glow in such a way as to indicate that: But the amount of liquid oxygen that is burned is only 2,787 pounds per second and the amount of hydrogen 465 pounds per second. Those numbers don't look right. Shouldn't the LOX be about 8 times the LH? Yes, if the propellant were burned stoichiometrically. But for reasons of propulsion efficiency, it's not. 6:1 turns out to be about the best mixture ratio, because the value of more low-mass molecules (hydrogen) turns out to provide a higher specific impulse than getting the maximum energy from the reaction. -- simberg.interglobal.org * 310 372-7963 (CA) 307 739-1296 (Jackson Hole) interglobal space lines * 307 733-1715 (Fax) http://www.interglobal.org "Extraordinary launch vehicles require extraordinary markets..." Swap the first . and @ and throw out the ".trash" to email me. Here's my email address for autospammers: |
#5
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Rockets not carrying fuel.
"Robert Clark" wrote in message om... From this web page, the weight of the shuttle external tank with the liquid oxygen and hydrogen is 1.6 million pounds: EXTERNAL TANK http://science.ksc.nasa.gov/shuttle/...ewsref/et.html But the amount of liquid oxygen that is burned is only 2,787 pounds per second and the amount of hydrogen 465 pounds per second. Nanotube productions methods are advancing quickly. Suppose it is possible to make a fuel line of carbon nanotube material hundreds of kilometers long. Could fuel be pumped up to a rocket accelerating to orbital velocity? I believe it's only possible to pump fluids to a certain height - after which you just cant push any more Doug |
#6
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Rockets not carrying fuel.
"Doug Ellison" wrote ...
I believe it's only possible to pump fluids to a certain height - after which you just cant push any more *ahem* After a certain height you can't _pull_ anymore. I don't think there is a limit to how far you can _push_ liquids up. However the prospect of the immense pressures involved might give some people pause - in which case you can always have 'staging posts' along the way. |
#7
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Rockets not carrying fuel.
Robert Clark wrote:
From this web page, the weight of the shuttle external tank with the liquid oxygen and hydrogen is 1.6 million pounds: EXTERNAL TANK http://science.ksc.nasa.gov/shuttle/...ewsref/et.html But the amount of liquid oxygen that is burned is only 2,787 pounds per second and the amount of hydrogen 465 pounds per second. Nanotube productions methods are advancing quickly. Suppose it is possible to make a fuel line of carbon nanotube material hundreds of kilometers long. Could fuel be pumped up to a rocket accelerating to orbital velocity? Intensely stooopid idea. The rocket still lifts most of the fuel, plus the pipe, plus the ice on the pipe. Friction with the piping wall prevents flow. Expel your breath, then expel it through a soda straw. Compare flow rates What would be the fuel requirements for a rocket that did not carry its own fuel? Say a rocket with the payload capacity of the shuttle and with engines of the efficiency of the shuttle main engines? Why don't you beam a laser at it to blast the air underneath into plasma and push the thing up? That was deeply supported by NASA despite the obvious square-cube contradiction. -- Uncle Al http://www.mazepath.com/uncleal/ (Toxic URL! Unsafe for children and most mammals) "Quis custodiet ipsos custodes?" The Net! |
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Rockets not carrying fuel.
Dan Tilque wrote:
Robert Clark wrote: But the amount of liquid oxygen that is burned is only 2,787 pounds per second and the amount of hydrogen 465 pounds per second. Those numbers don't look right. Shouldn't the LOX be about 8 A boundary layer of raw fuel is pumped down the inner walls of each combustion chamber to cool the walls. If you look at an apolitical rocket system launching - the Saturn moon rockets - you note closeup of the running engines at launch shows a black collar around each exhaust that flashes white hot a bit later on down. The black is a sheath of pyrolyzing kerosene that finally combusts. Nanotube productions methods are advancing quickly. Suppose it is possible to make a fuel line of carbon nanotube material hundreds of kilometers long. Could fuel be pumped up to a rocket accelerating to orbital velocity? Got to give you credit for thinking outside the box. This certainly is a unique idea. But I can't imagine there exists a pump that could do this. Or even come close. Especially since it has to operate at liquid oxygen temps. Turbopumping is no big deal, the Germans had it down pat for the V-2. Pumping anything at sonic velocities through a long thin pipe is really stooopid. You plug in the appropriate dimensionless number for flow, you see where the turbulent flow regime begins, then you carefully plan the project so you retire before the first shakedown demo. What insulates the cryogen from ambient temp? Nothing. Stooopid idea. -- Uncle Al http://www.mazepath.com/uncleal/ (Toxic URL! Unsafe for children and most mammals) "Quis custodiet ipsos custodes?" The Net! |
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Rockets not carrying fuel.
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#10
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Rockets not carrying fuel.
"Doug Ellison" wrote in message ... "Robert Clark" wrote in message om... From this web page, the weight of the shuttle external tank with the liquid oxygen and hydrogen is 1.6 million pounds: EXTERNAL TANK http://science.ksc.nasa.gov/shuttle/...ewsref/et.html But the amount of liquid oxygen that is burned is only 2,787 pounds per second and the amount of hydrogen 465 pounds per second. Nanotube productions methods are advancing quickly. Suppose it is possible to make a fuel line of carbon nanotube material hundreds of kilometers long. Could fuel be pumped up to a rocket accelerating to orbital velocity? I believe it's only possible to pump fluids to a certain height - after which you just cant push any more You can always push, but there is a limit to how high you can pull. |
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