Ex-Astronaut Developing Plasma Rocket To Revitalize NASA

TechReviewAl writes "Former astronaut Franklin Chang Diaz believes that the private sector can revitalize NASA, and his company is developing a plasma rocket to back up that claim. Chang Diaz argues that private industry can be used to develop much of the basic technology needed for space exploration, allowing NASA to focus on more sophisticated and critical components. His company, Ad Astra, is developing a variable specific impulse magnetoplasma rocket (VASIMR) that will be used to reposition the International Space Station. Last week, the rocket passed an important milestone in testing — reaching 200 kilowatts (enough to move the ISS). A video of the rocket can be seen on Ad Astra's site."

This is Huge

[hardburn]

VASIMR means the only expensive part is getting to LEO. Once there, a space tug using VASIMR can lift satellites to GEO for almost nothing (compared to today's prices). It's not really fast enough for human travel, but for moving equipment around Earth orbit (or elsewhere), it's very promising. Between this and SpaceX reducing the price to LEO, the next 10 years should be very exciting in commercial space travel.

Physics question

[gestalt_n_pepper]

Bank in 1999. electricity has been generated in space by dragging a copper tether though the earth's magnetic field (http://www.independent.co.uk/news/astronauts-seek-power-in-space-1319781.html).

Presumably this produced drag. Can't this "drag" be used for some near earth maneuvering using a mesh system to create an electromagnetic sail by which one might tack? Or is the amount of force to small to be useful?

Re:Another ex-NASA type trying to cash in

[suomynonAyletamitlU]

I'm not sure you understand the potential that any particular astronaut has to ruin hundreds of billions of dollars of government investment. If an astronaut meant to, or just screwed up at something that may have seemed inconsequential at the time, the deaths of the people onboard would be, while publicly tear-jerking, relatively inconsequential compared to the gross loss of capital for the agency. (Less now that they're intending to stop using the shuttles altogether, but to some degree still.)

The fact that he made it through training and became an astronaut means that he was worthy of being trusted with a hundred-billion-plus dollar space ship. That's what the training is for. That's why we pay their training, and why we pay them. Not only could they die in a spectacular fireball if they make the wrong mistake--or if someone else does--but it's possible they could completely ruin NASA's chances of ever being useful again by swaying public opinion. A single person could--or could have--singlehandedly set back mankind's exploration of space by decades or longer.

And you've really got the balls to say that spending the money that he got as part of that trust to keep advancing something he loves and believes in is less respectable than if he had taken his money, gambled with it on the stock market, and taken whatever gains he had and spent them on this as an outsider?

Disclosure: I am related to a former high-ranking NASA employee, and while that doesn't make me an expert, I do have at least SOME sense of scale about the damned thing.

The Electricity

[florescent_beige]

Despite it's high specific impulse this engine isn't the whole answer to the exploration of the solar system. Blame the inverse square law.

It may be feasible to power an slow unmanned Earth-Moon VASIMR transfer vehicle with solar, but at Mars solar radiation is only 25% as strong and at Jupiter it's 4%. So you are talking about nuclear for probes to the outer planets and for manned missions to anywhere.

There's nothing technological that would stop space-based nuclear but you just know it'll take years to get that done.

New Scientist has an article that says VASIMR + nuclear = 39-day transit time to Mars.

Re:All that is keeping us from space is efficiency

[Ungrounded+Lightning]

... a gallon of gasoline could potentially lift a human into orbit, less spaceship.

Actually it's quite a bit more than a gallon. (LEO is very high and very fast. Other orbits are moreso.) But the basic idea is sound.

Rockets are HORRIBLE energy-spenders. (Their big advantage is that they do work and are self-contained.) That's why there's all that work on various "space elevators", where you can use electric motors (or the equivalent), at efficiencies in the 75 to 98% range from electricity to kinetic energy, to move stuff from the ground to LEO, geosynch, or otherwise get it persistently off the ground and out of the atmosphere.