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An energy source that's out of this world
Asia Times Online ^ | Nov 15, 2003 | Satyabrata Rai Chowdhuri

Posted on 11/17/2003 4:28:51 PM PST by Willie Green

For education and discussion only. Not for commercial use.

With the oil age starting to appear alarmingly finite, and with governments all over the planet searching for new energy sources, space scientists are looking at yet another fuel source, this one distributed on the moon over billions of years as birds distributed guano on the island of Nauru.

The energy source is Helium 3, which exists in minute quantities on earth but which has been deposited on the moon by solar winds, a rapid stream of charged particles from the sun, from the dawn of time. Helium-3, or Astrofuel, as scientists have dubbed it, sounds, well, almost too good to be true. All they have to do is figure out a way to go get it, and then to build a plant to transform it to energy once they get it back here.

Estimates of world energy use and recoverable reserves vary widely. Average energy consumption, measured in crude oil, is 71,530, barrels per day against a total known world reserve of about 1.0 trillion barrels. Thus a conservative estimate indicates that commercially viable oil supply could be exhausted in 40 to 50 years although by another estimate there is enough coal in the United States to last another 275 years at current consumption rates. Coal, however, is a dirty fuel that is costly to clean up through filters and scrubbers.

At present rates of consumption, which are unlikely to hold steady forever as alternative fuels come on stream, when the population reaches the 10 billion mark consumption is projected at about 100 to 150 billion barrels of oil per year. Mankind is already looking for energy sources based on solar, wind, hydro, geothermal and biomass and certainly some will continue towards playing a major role in energy production.

Nuclear fusion is the other source of energy, but faces lots of political problems because of the radioactive waste it produces and because it produces a great number of neurons, which damage reactors, cutting their life. On the other hand, a fusion reaction carried through Helium3 releases only one percent of its energy in the form of neutrons. As a result, this type of reactor becomes easy and reduces radioactivity to a very low level, scientists working on the subject say.

Enter Astrofuel, as Helium-3 or He3 has come to be known, which was discovered on the moon in 1969 when American astronauts first arrived, although the link between the isotope and lunar resources was not made until 1986. Scientists describe it as the most efficient known source of power, because 99 percent of the energy can be released as charged particles and thus be converted into electricity with greater efficiency. The level of radioactivity is so low that a complete reactor meltdown would not spread radioactive particles. And the reactor could be dismantled at the end of its useful life to be disposed of like any other ordinary median instruments.

The Center for Space Automation and Robotics at the University of Wisconsin in Madison first conceived the idea of mining Astrofuel from the Moon in 1986. The center, one of 16 National Aeronautics and Space Administration (NASA)-funded facilities for the commercial development of space, is positioned to manage the project because of the university's already existing fusion, space and life support research program.

Researchers at Madison say they are certain that He3, an isotope of helium with one less neutron than helium itself, could replace fossil fuels. While it is rare on earth, it is available in large quantities on the moon. One tonne, they say, could supply the energy needs of a city of 10 million people when combined in a fusion reactor with a form of hydrogen extracted from water. It is hardly difficult to thus imagine the impact that Astrofuel could have on world energy supplies.

The extremely high power density means that only 28 tonnes of Astrofuel, approximately the payload of the current US Space Shuttle, could supply the entire electrical demand of the US for a year. Even at a selling price of US$1 billion per tonne, the energy cost would be equivalent to oil at $7 a barrel. Unfortunately, the space shuttle is not at this time configured to fly to the moon, and a new space vehicle would have to be developed.

The nation that develops the technology to retrieve Astrofuel could thus find itself in a commanding economic and strategy position in this century. The US already has the research and resource lead for recovery. While some He3 is available on earth, the quantity is not sufficient to be exploited commercially. The US strategic reserve amounts to only 29 kg, with another 187 kg mixed up with natural gas. By contrast, the moon has an estimated reserve of 1.1 billion tonnes of He3 that has been deposited by the solar wind.

The commercial viability of Astrofuel was determined by the Wisconsin´s University Research Center in 1987, a year after its discovery. In 1987 prices, it was found that the US spends $40 billion annually to buy coal, oil, natural gas and uranium to produce electricity. For the megawatt volume of electricity for one year, the US might need to import one spacecraft load of fuel at a cost of $25 billion - about a fourth of the price of crude today at the aforementioned $7 per barrel.

Obviously, billions of dollars would be required or research and development by participating countries and would involve the development of many technologies that currently remain to be created. Foremost among them are superconducting magnets, plasma control and diagnostics, robotically controlled mining equipment, life support facilities, rocket launch vehicles, telecommunications, power electronics, etc. Though the investment seems astronomical, compared to the benefit derived, the justification seems more than adequate.

For one thing, the developed world would no longer be held hostage to the Middle East, where the preponderance of the world´s fossil fuel reserves are located. American scientists have already declared that the moon could be the Persian Gulf of the present century. Two liters of He3 would do the work of more than 1,000 tons of coal.

And who would own this real estate? No doubt, the only affordable source of energy would be completely dominated by American industries. With the collapse of the USSR, Russia´s space program has largely disappeared. The Chinese, who only launched their first man into space last month, are well behind in the race. India, with its fledgling space program even less-developed, is even further behind. The Euroland space program is hardly oriented towards anything beyond launching commercial earth satellites.

It is thus possible that every member of the United Nations could be forced to stand in a queue to receive a quota of fuel fixed by Uncle Sam. All discussion about energy security would take a back seat. The UN will discuss everything, but its members would go on waiting for their quota to arrive. Astrofuel would decide politics, economics and the world order.

The technology to harness He3 as an energy source is a continuing process in the laboratories of the US universities. Miniaturization of He3-driven reactors would take an immense role in the new world order.

Dr Satyabrata Rai Chowdhuri is a former professor of international relations at Oxford College in the UK and a guest professor of international relations at the London School of Economics & Political Science.


TOPICS: Business/Economy; Foreign Affairs; Government
KEYWORDS: astrofuel; energy; moonmining
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1 posted on 11/17/2003 4:28:52 PM PST by Willie Green
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To: RightWhale
ping

Thought you might be interested in this.
Of course, you already know that Spencer Abraham is gonna dictate that any new moon shuttles built by NASA must be powered only by zero-emission solar panels and hydrogen fuel cells.

2 posted on 11/17/2003 4:31:47 PM PST by Willie Green (Go Pat Go!!!)
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To: Willie Green
bump!
3 posted on 11/17/2003 4:33:12 PM PST by Constantine XIII
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To: Willie Green
The Chinese are also well aware of He3 and that is in their plan for moon exploration.
4 posted on 11/17/2003 4:33:22 PM PST by RightWhale (Close your tag lines)
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To: sourcery; Ernest_at_the_Beach
ping
5 posted on 11/17/2003 4:36:50 PM PST by Libertarianize the GOP (Ideas have consequences)
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To: Willie Green
With the oil age starting to appear alarmingly finite, and with governments all over the planet searching for new energy sources, space scientists are looking at yet another fuel source, this one distributed on the moon over billions of years as birds distributed guano on the island of Nauru.

It started to appear alarmingly finite at the very beginning of its modern use as a fuel.
6 posted on 11/17/2003 4:37:56 PM PST by aruanan
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To: Willie Green
What are the chances that environmentalists will allow strip-mining on the moon? Or is there a way to extract He3 from lunar soil without disturbing the soil?
7 posted on 11/17/2003 4:43:36 PM PST by AZLiberty (Where Arizona turns for dry humor)
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To: AZLiberty
Or is there a way to extract He3 from lunar soil without disturbing the soil?

Bake it out with sunlight???

8 posted on 11/17/2003 4:46:56 PM PST by null and void (Lord Hildamort!™ - She Who Must Not Be Named)
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To: aruanan
It started to appear alarmingly finite at the very beginning of its modern use as a fuel.

Hear hear!

It's almost as if it's part of policy to keep the actual amount of 'reserves' as low as necessary - until it's necessary to show that card for whatever purpose ...

9 posted on 11/17/2003 4:47:39 PM PST by _Jim ( <--- Rush speaks on gutless 'Liberalism' (RealAudio files))
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To: Willie Green
One tonne, they say, could supply the energy needs of a city of 10 million people when combined in a fusion reactor with a form of hydrogen extracted from water.

Ooops. Exactly which fusion reactor is that now?

10 posted on 11/17/2003 4:47:40 PM PST by Bloody Sam Roberts (Things are more like they are now than they ever were before.)
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To: Bloody Sam Roberts
One tonne, they say, could supply the energy needs of a city of 10 million people when combined in a fusion reactor with a form of hydrogen extracted from water.

Ooops. Exactly which fusion reactor is that now?
__________________________________________________

... and how much energy does it take to extract the hydrogen from water?
11 posted on 11/17/2003 5:02:37 PM PST by GeorgiaYankee
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To: Willie Green

12 posted on 11/17/2003 5:07:33 PM PST by sourcery (No unauthorized parking allowed in sourcery's reserved space. Violators will be toad!)
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To: Bloody Sam Roberts
DUH! Cold Fusion, dude!
13 posted on 11/17/2003 5:10:42 PM PST by null and void (Lord Hildamort!™ - She Who Must Not Be Named)
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To: Bloody Sam Roberts
Ooops. Exactly which fusion reactor is that now?

I think it must be one that's being developed by either China or India.
Spence has aligned our energy strategery with that of OPEC.
If we're lucky, maybe we'll be allowed to import a fusion reactor from China someday.
That is, IF they develop a generous foreign aide program to benefit undeveloped nations such as ourselves.

14 posted on 11/17/2003 5:12:47 PM PST by Willie Green (Go Pat Go!!!)
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To: Willie Green
Willie, the beginning of the 5th paragraph:

"Nuclear FUSION is the other source of energy..."
This is a typo...

He meant to refer to 'fission' here, not fusion, because he is referring to the long half-life of the nuclear waste and the many neutrons released by the reaction. and because he goes on to say:

"On the other hand, a fusion reaction carried through Helium3 releases only one percent of its energy in the form of neutrons..."
15 posted on 11/17/2003 5:21:33 PM PST by edwin hubble
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To: AZLiberty; null and void
What are the chances that environmentalists will allow strip-mining on the moon? Or is there a way to extract He3 from lunar soil without disturbing the soil?

I've heard a few other space evangelists give a similar account. Picture a crawler that scoops up the top one foot of moon soil, dumps it in a chamber where it is heated to release the He3 which is captured and the soil is redeposited behind the crawler. Sort of like a space combine.

One shuttle's worth of He3 would power the earth's energy needs for a year - how many years for Moon Base Alpha? What language will be spoken there?

16 posted on 11/17/2003 5:35:25 PM PST by NonValueAdded ("Either you are with us, or you are with the terrorists." GWB 9/20/01)
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To: Willie Green
Nuclear fusion is the other source of energy, but faces lots of political problems because of the radioactive waste it produces and because it produces a great number of neurons, which damage reactors, cutting their life.

What????

17 posted on 11/17/2003 5:42:40 PM PST by Mike Darancette (Proud member - Neo-Conservative Power Vortex)
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To: Mike Darancette
Deuterium-tritum fusion (the easiest kind) produces much of its energy as neutrons; to harness these, you have to catch the neutrons and have them heat up a working fluid to drive a steam turbine.

Aneutronic fusion requires very high temperatures. If you can sustain 2.5 billion degrees or so, you can fuse hydrogen and boron, generating only charged particles (the energy is easily extracted via magnets).
18 posted on 11/17/2003 5:45:02 PM PST by Poohbah ("Would you mind not shooting at the thermonuclear weapons?" -- Major Vic Deakins, USAF)
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To: Mike Darancette; Willie Green
it produces a great number of neurons

Sure, but can it think philosophically?

19 posted on 11/17/2003 5:45:29 PM PST by RightWhale (Close your tag lines)
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To: RightWhale
Sure, but can it think philosophically?

Half a bee must ipso fact half not-be, vis-a-vis its entity...

20 posted on 11/17/2003 5:46:18 PM PST by Poohbah ("Would you mind not shooting at the thermonuclear weapons?" -- Major Vic Deakins, USAF)
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