Let me see. This means one ton of He-3 will be worth over
one billion dollars. And yes, it is a
piece of cake to use it for producing direct fusion power.. The present effort by focus fusion is using a
bismuth protocol that is as safe and as easy to use to produce power. It is still difficult to make happen and this
is certainly worthy of enthusiasm while it fuels space exploration.
At least it provides a convincing
business plan able to justify the investment effort.
I suspect though that we will
have cheap fusion power inside of the next five years which will pull the
thunder from having an Earth customer. However
this is certainly the quick and easy solution to space power were our power
needs will be difficult without a heat efficient protocol.
We are still several years away
from a final plunge into space and a hop onto the Moon. Tritium may just appear the best available option
then. I wonder how it will be
beneficiated?
Mining Helium-3 will Transform Dark Side of the Moon
Russia, India, China, Caterpillar, Google, and Virgin race for the Moon
to mine helium-3--an isotope that can transform our energy future through
nuclear fusion
Mining Helium-3 will Transform Dark Side of the Moon
9 MAY 2011 John
Shimkus
Mining Helium-3 will Transform the Dark Side of the Moon
Most people are unaware that our Moon holds countless resources.
Some are familiar: titanium, platinum, silicon, ammonia, mercury, and even
water (yes, H20 has been confirmed to be present on the moon). But a more
elusive substance, which is a rarity here on Earth, is also found on the Moon:
helium-3.
Helium-3 is a non-radioactive hydrogen isotope with one neutron and two
protons. It is carried through space via the Sun’s solar winds, but burns
up as it enters Earth’s atmosphere, making it almost non-existent here on our
planet. However, an abundance of helium-3 has built up on the Moon’s
surface over the millennia as confirmed in soil samples collected by the Apollo
17 lunar mission, and it is just waiting to be mined. Why you ask?
Because, helium-3 can fuel non-radioactive nuclear fusion reactions to produce
safe, clean, abundant energy, and can completely transform our energy future.
Helium-3 nuclear fusion reactions release non-radioactive protons that
can be harnessed to create electricity directly. This type of nuclear
fusion is safer and far more efficient than the nuclear fission reactions used
in nuclear plants today, which use heat to run steam turbines, losing energy in
the conversion process and creating radioactive waste as a byproduct.
Projections estimate that on a commercial basis helium-3 would be worth
around $40,000 per ounce. Roughly 100 tons of Helium-3 could power the
entire population of Earth for a year and scientists estimate that the Moon
could contain approximately 1 million tons—10,000 years worth of energy.
But is mining the Moon realistic, and who would spearhead such a risky
endeavor?
Google announced the “Google Lunar X PRIZE” competition in 2007, in
which the Internet giant challenged privately funded spaceflight teams from
across the globe to send a robot to the moon’s surface. The first
successful team will win $30 million in prizes. As of February 2011, 29
teams from various nations are officially competing for the prize, and several
will be launching within the next two years.
The US state of Florida is also offering
a $2 million prize to the first private spaceflight launched from its soil.
NASA is even willing to pay $10 million or more for data collected from
private lunar missions.
Caterpillar—a top name in mining machinery and equipment—has invested
in Carnegie Mellon University ’s
Astrobotic Technology, a company vying for the Google Lunar X PRIZE.
Already having experience in automated machinery, Caterpillar will use the
partnership with Astrobotic to propel its own lunar program. Caterpillar
Automation Systems Manager Eric Reiners says,“Caterpillar makes sustainable progress
possible by enabling infrastructure development and resource utilization on
every continent on Earth. It only makes sense we would be involved in
expanding our efforts to the 8th continent: the Moon.”
Richard Branson—the man, the myth, the legend—has started up Virgin
Galactic. With his own private fleet of spaceships and a spaceport in New Mexico (USA ), Branson is already booking
spaceflights for those who can afford the $200,000 ticket price. Initial
flights will be sub-orbital, with the goal of eventually setting up a lunar
resort, in which the elite can take a vacation to the Moon. While no
official statements have confirmed Branson’s intentions to mine the Moon, media
contacts from Virgin Galactic have hinted that it is not out of the realm of possibility.
The governments of Russia, China and India have all made public
comments on exploiting the Moon’s resources, and the Russian space company RSC
Energia has proposed a permanent lunar base to be completed by 2025 as a hub
for helium-3 mining operations. According to the Outer Space Treaty of
1967, Moon mining does not seem to violate any international agreements.
However, there is debate over who would own the rights to the materials mined.
Mining the Moon would, in fact, create an entirely new industry
completely with a radically different kind of supply chain. Shackleton
Energy Co., a subsidiary of Stone Aerospace, is planning on developing orbital
rocket fueling stations by 2020, so spaceships will be able to fill up on their
way to the Moon and back.
There is a dark side, however, to mining the Moon. Let us not
forget that the Moon’s orbit dictates the ebb and flow of various systems here
on Earth. From sea tides to weather patterns, animal mating habits to
plant growth, even plate tectonics, a number of the Earth’s systems are reliant
on the Moon’s consistent circumnavigation of the planet to function
properly. If we remove millions of tons of helium-3 and other minerals
from the moon and bring them to Earth, the celestial balance that drives those
patterns may be thrown off. What’s worse, mining activities tend to use
explosives, and in low gravity, who’s to say that we may not fracture the moon
entirely, hurling giant lunar meteorites toward Earth? Transforming the
Moon into a mining hub is certainly risky business, but it’s bound to be a
profitable reality very soon!
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