杏吧原创

How astronauts could ‘harvest’ water on the moon

Now that we know there is water on the moon, how do we extract it? A NASA design would zap the frigid lunar soil with microwaves and collect the resulting water vapour
If the moon's water could be collected, lunar astronauts could use it as drinking water and split it into oxygen and hydrogen to make rocket fuel for their return journeys to Earth
If the moon鈥檚 water could be collected, lunar astronauts could use it as drinking water and split it into oxygen and hydrogen to make rocket fuel for their return journeys to Earth
(Image: NASA)

Newly confirmed water on the moon could help sustain lunar astronauts and even propel missions to Mars, if harvesting it can be made practical. A microwave device being developed by NASA could do just that.

Three spacecraft 鈥 India鈥檚 Chandrayaan-1 and NASA鈥檚 Cassini and Deep Impact probes 鈥 have detected the absorption of infrared light at a wavelength that indicates the presence of either water or hydroxyl, a molecule made up of a hydrogen and an oxygen atom. All found the signature to be stronger at the poles than at lower latitudes.

Some of these molecules may be created continuously when solar wind protons 鈥 hydrogen ions 鈥 bind to oxygen atoms in the lunar soil. Comet impacts may also have brought water to the moon.

Water delivered by comets or generated by the solar wind could randomly diffuse over time into permanently shadowed craters at the lunar poles, which were recently measured to be colder than Pluto.

鈥淥nce it gets in there, it鈥檚 not going to come out,鈥 says Carle Pieters of Brown University in Providence, Rhode Island, lead scientist for the NASA-built instrument that made the Chandrayaan-1 measurements.

鈥楻ailroad to space鈥

So far, the water does not appear to be very abundant 鈥 a baseball-field-sized swathe of lunar soil might yield only 鈥渁 nice glass of water鈥, Pieters told New 杏吧原创.

But if it could be harvested, lunar astronauts could use it as drinking water and split it into oxygen and hydrogen to make rocket fuel for their return journeys. That would slash launch costs, since it would reduce the amount of fuel they would need to lug with them from Earth.

Rocket fuel produced on the moon might even help mount a human mission to Mars. Because of the moon鈥檚 weaker gravity, it would take less energy to loft fuel into space for a Mars mission from the lunar surface than it would from Earth.

鈥淚t completely changes the spaceflight paradigm,鈥 says Paul Spudis of the Lunar and Planetary Institute in Houston, Texas. 鈥淚t鈥檚 like building a transcontinental railroad to space.鈥

Cold plate

But how do you extract water that is likely locked up as small concentrations of ice in the lunar soil? Microwaves could provide the key, according to work by Edwin Ethridge of NASA鈥檚 Marshall Space Flight Center and William Kaukler of the University of Alabama, both in Huntsville, who first demonstrated the technique in 2006.

They used an ordinary microwave oven to zap simulated lunar soil that had been cooled to moon-like temperatures of -150 掳C.

Keeping the soil in a vacuum to simulate lunar conditions, they found that heating it to just -50 掳C with microwaves made the water ice sublimate, or transform directly from solid to vapour. The vapour then diffused out from higher-pressure pores in the soil to the low-pressure vacuum above.

On the moon, the vapour could be collected by holding a cold metal plate above the soil. The rising water vapour would then condense as frost onto the cold plate and 鈥測ou could scrape it off鈥, Kaukler says.

Baking and processing dry lunar soil at high temperatures could also release oxygen and hydrogen for rocket fuel or other uses. But that would take about 100 times as much energy as extracting them from native lunar water, Spudis says: 鈥淓verything becomes easier and cheaper and quicker.鈥

Topics: Solar system / Space flight