NASA Ground Tests Ion Engine

herda05 writes "New Scientist reports from a press release by NASA on a successful ground test of the HiPEP (High Power Electric Propulsion) ion engine, which is the first 'major milestone' for Project Prometheus. Also some pictures and more info on the HiPEP engine."

Re:Am I interpreting this correctly?

[SmallFurryCreature]

Ion engines are very efficient with their propelant. So yes the longer you want to burn the more you need to carry but it is a fraction of what you would need to carry for a normal rocket engine. ION engines work by constantly burning of a tiny amount of fuel/propelant amazingly effciently. The accelarition is awfull but it can just keep on accelaring for years.

This I think makes it only usefull for long flights. No tie fighters. Fortuanly real space flight has a lot of long flights.

Re:Xenon gas?

[deglr6328]

what is "hydrogent"? :) The reason Hydrogen is not used and Xenon IS, is because xenon is ~130 times more massive per atom than Hydrogen is. Therefore you'll get much more momentum from accelerating the Xenon out the back of an ion engine at a given speed than you will a Hydrogen atom. And for that matter why stop at Xenon? This guy is working on Bismuth powered Hall thrusters.

Cool.

[falsification]

I always liked ion engines. Back in the star frontiers, when I was a ranger, my commando team would hide in a freighter's hold. Listening to that steady purr of the ion engine made the days before hitting down the warp pass quickly by. We played jimble-jack, and 3-D chess, sure, but mostly you just sat on your ass on a crate smoking sourweed. It was kind of rough, because one of my comrades was a Vrusk, and the other was a Yazirian. They didn't like one another. Plus, the male and female Dralasites kept humping. It got to smell pretty bad in that hold. Eventually, we unwarped. We sneaked up to a Sathar and pirate base. They thought we were just smugglers, but they wouldn't have, except for that ion engine. Old, but reliable. We lost a lot of men that day, dammit all. And the Vrusk. Had to mercy kill him with a laser pistol. It was worth it, though. Disabled their chemical rocket system. We killed or captured the entire lot of bad guys. There was dead worm everywhere. The vibroblade was whirring that day, I'll tell you. It was beautiful. At that point, the base was about to fall into an event horizon, but with our trusty ion engine freighter, we got out of there, right before a dual star system was sucked into the black hole, which created a supernova.

Those were the days.

Re:Am I interpreting this correctly?

[jerde]

Ion propulsion works very differently than any other type of normal rocket. The idea with ion engines is that they're able to take individual atoms of their "propellant" and accelerate them to high velocities, using electricity as the energy, rather than some sort of chemical reaction.

Rockets in space work by taking some mass and throwing it in the opposite direction you want to go. Imagine yourself floating in space holding a bowling ball. You wouldn't have to push the ball away from you very hard to get yourself moving, since it's very heavy. But what if you only had a ping-pong ball: to get yourself moving quickly, you'd have to "throw" the ping-pong ball away from you very very very fast, to make up for its very small mass.

Chemical rockets take some combination of chemicals that react strongly together, creating heat. The result is a hot gas at high pressure, which blows out in the direction of the rocket nozzle, providing thrust the other direction.

The xenon ion engine takes xenon gas at very very low pressure, ionizes the atoms so that they're electrically charged, and then uses electric force to fling them at VERY high speed out into space. The velocity is much higher than in any chemical rocket. But ion engines aren't very strong -- the process works with just a little tiny bit of xenon at a time, so the engine as a whole winds up giving just a very gentle push. But since not much xenon is used up, the xenon that you have will last a LONG time.

That's the "specific impluse": a measure of how much a rocket can push you "per pound" of fuel. This page says that the space shuttle's chemical engines have a specific impulse of 460. This latest ion engine has a specific impulse of 6000!

So with the same weight of fuel, the ion engine would get you going about 13 times faster by the time you used up the fuel.

- Peter

Re:Xenon gas?

[kinnell]

Therefore you'll get much more momentum from accelerating the Xenon out the back of an ion engine at a given speed than you will a Hydrogen atom

Close, but...

The speed isn't a constant for different gasses. What's important, as you point out is momentum.

Change of momentum = impulse = Force * time.

The advantage of heavier ions is that they accelerate slower, thus staying within the engine for longer. As a result, the force is applied to the ions for longer, therefore the change in momentum of the ions is higher, therefore, the change in momentum of the vehicle is also higher.