NASA: We're Not Racing SpaceX To Mars

astroengine writes: According to NASA's new science chief Thomas Zurbuchen, the U.S. space agency doesn't see SpaceX as a competitor in a race to Mars and that if any private company gets there before NASA, it will be cause for celebration and a huge science boon. "If Elon Musk brought the samples in the door right now I'd throw him a party out of my own money," Zurbuchen told reporters on Monday. He also said that polarizing topics, including science issues, need to be tackled with empathy for and patience with people who have opposing viewpoints. "Just because somebody doesn't agree with us the first time we open our mouths doesn't mean that they're stupid, or we're smart, or the other way around. I think it's really important to create, bring some empathy to the table," he told Seeker. "There's a lot of stuff that can be learned by just talking to people." The report adds: "Before joining NASA, Zurbuchen was a professor of space science and aerospace engineering at the University of Michigan in Ann Arbor. His areas of expertise include solar and heliospheric physics, experimental space research, innovation and entrepreneurship, NASA said in a statement."

Good attitude

[Camembert]

I like his humble, collaborative attitude, befitting a true scientist. I expect that, in practice getting there in a repeatable way will be the result of various international cooperations where different organisations will bring their own skills. Empahy and dialogue can only accelerate the process.

Re: Good attitude

[rtb61]

Priorities also count. So race to Mars or race to build a city on the Moon. You might find that the city on the moon is far more capable of supporting Mars exploration, than trying to do it from earth (less gravity and no atmosphere). So should NASA focus on the bleeding edge always or should they also start to focus more on building the infrastructure to give others the opportunities to make the most of that space infrastructure that NASA builds, say a landing and launch facility on the moon, Mars ship assembly, fuel generation etc.

Look at it this way, people say we can't afford, too much debt but you build space infrastructure and you add new assets to offset debts, like the entire surface of the moon or the entire planet Mars and of course a whole bunch of major asteroids and shit we ain't even out of the solar system yet, they can dump debt on all the new planets we find, those colonists will be born in hock up to their eyeballs but they will be out there exploring the galaxy.

Settling space means creating trillions in new assets and the value of those assets would be bound to the cost of getting there, that exclusivity value and only the best going means the best have something to aim for. Are you good enough to set foot on another world or not?

Re: Good attitude

[Rei]

Indeed - if you can't get volatiles like hydrogen (water does appear to be available in some locations, but there are limits, and we really don't know how accessible it is), your options for propellant become extremely limited. Without H, He, C or N, your best propellant option would be something like extremely fine aluminum dust burned with oxygen in an extremely oxygen rich environment (would probably need a ceramic engine). It'd have to be oxygen rich because Al2O3 condenses out of the exhaust stream at very high temperatures and can thus no longer be put to work via expansion; it needs to transfer its heat to a working fluid, and you don't have a lot of options apart from oxygen. Another potential working gas would be metallic sodium (from sodium/aluminum powder fuel burned with O2, very fuel rich). The obvious downside is that your "gas" would condense out at 1156K, so you wouldn't be able to expand it as much as you'd like. But at least you'd get a good chunk of the energy, including the heat of condensation of the Al2O3 - and it's a lighter gas than O2, so that's an advantage.

In both cases you face a challenge of how to burn the fuel and oxidizer, since you don't have a binder for a traditional hybrid, nor a liquid to gel powders into. And you wouldn't want to have to keep aluminum in a molten state; that's totally impractical. Your best option is probably taking a cue from ALICE (aluminum-ice): they have the aluminum powder embedded in an ice matrix, burned as a solid rocket. In the case of LOX as the oxidizer (aka, you don't have ice), you could use solid oxygen as the binder. So, 54K or less. As a last option, I suppose you could try fluidizing the powder and spraying it into a combustion chamber along with turbopumped LOX... but I've never even heard of an attempt to make a rocket like that.

Lots of options open up when you have carbon and/or nitrogen even without a source of hydrogen (for example, on Mars without ice mining or Venus without acid harvesting), such as burning carbon monoxide or cyanogen. But without volatiles... rocketry is tricky.

Humility and Empathy

[_archangel]

"Just because somebody doesn't agree with us the first time we open our mouths doesn't mean that they're stupid, or we're smart, or the other way around. I think it's really important to create, bring some empathy to the table," I wish this was the de facto attitude people took when communicating about all aspects of life, not just science.