Fusion Reactors & Moon Helium: Is Helium a Better Option?

In summary, helium is an option for fusion reactors that is not radioactive and has a greater abundance than hydrogen.
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  • #2
Aquamarine said:
Is helium a better alternative then the current proposed fuels for fusion reactors?

http://www.space.com/scienceastronomy/helium3_000630.html
http://www.asi.org/adb/02/09/he3-intro.html

Aquamarine,

Helium would be more difficult to fuse than Hydrogen - there's more
electric repulsion with Helium than with Hydrogen. We also have more
Hydrogen than Helium readily available.

The one item in favor of Helium, is that if one uses Helium-3 [ available
on the Moon ], then the fusion reaction is "aneutronic" - it doesn't produce
neutrons - so it doesn't make other materials radioactive.

However, radioactivity is not an insurmountable problem - it can be
readily dealt with. The problems associate with getting Helium-3 from
the Moon, and bringing it back will probably dwarf the problems with
radioactivity.

Dr. Gregory Greenman
Physicist
 
  • #3
You know, nothing in either of the links Aquamarine gave tells us about the abundance (or difficulty of extracting) of He3 here on Earth (other than as a by-product of human activities). No doubt it's available here on Earth (otherwise, how would physicists have done experiments into its superfluid nature, for example?), and no doubt a minor component of the helium that's part of natural gas deposits. I suspect that if He3 were to become economically valuable, all kinds of entrepreneurs would find ways to supply the demand ... without having to go to the Moon to mine it!
 
  • #4
Although the natural abundance of He-3 is very low (0.0137% in terrestrial sources), it can be obtained in relatively large amounts, as the product of the radioactive decay of tritium, which has been made for thermonuclear systems.

Of the tritium produced in the ten years following WWII (1945-1955), all of that, which has survived, has been through at least 4 half-lives, so more than 94% of it is now He-3. Of course, much of that may have already been used in experiments.
 
  • #5
He3 is an isotope heavilly bombarded on the lunar surface from solar waves (rays) which are tritated (not referring to water). This component can be used for propellant production however, lithium (which is almost abundent beaneath earth) is a more greater option.

- thus Li 6 - D is applicable for direct fusion propulsion, only after fission - because of thermal laws (millions of degrees).
D can be made from regular water - 1 in 6000 atoms are exising Dueterium /D.
 

1. What is a fusion reactor?

A fusion reactor is a type of nuclear reactor that uses nuclear fusion to produce energy. It works by combining two or more atomic nuclei to form a heavier nucleus, releasing a large amount of energy in the process.

2. How does a fusion reactor work?

In a fusion reactor, hydrogen isotopes are heated to extremely high temperatures, causing them to collide and fuse together. This fusion releases energy in the form of heat, which can then be used to generate electricity.

3. What is moon helium and why is it a better option for fusion reactors?

Moon helium is helium-3, a rare isotope of helium that is abundant on the moon's surface. It is a better option for fusion reactors because it produces less radioactive waste and is more efficient in producing energy compared to other fuels.

4. How much moon helium is needed for a fusion reactor?

It is estimated that a fusion reactor would require about 25 tons of moon helium per year to produce enough energy to power a city of 100,000 people. However, this amount may vary depending on the design and efficiency of the reactor.

5. Are there any challenges to using moon helium for fusion reactors?

Yes, there are several challenges to using moon helium for fusion reactors. These include the high cost of extracting and transporting the helium from the moon, as well as the lack of infrastructure and technology for harvesting and utilizing it. Additionally, there may be geopolitical and legal considerations in obtaining and using moon helium.

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