Pentagon in orbital solar power plan for world peace

Solar Powerplant in SPACE?!?!?!

Did noone at the pentagon ever play simcity 2000?!? Is noone planning for the eventual disaster, a Microwave scar across an entire city?

Nuclear power != Nuclear bomb

Nuclear power is ready, when will governments tell the unlearned masses to shut up and listen to thoes who know what they are talking about.

No blood for oil + no climate impact.

1 tonne of Nuclear waste <<< billions of tonnes of carbon*

It's not perfect, but why go to the trouble of sending up hundreds of rockets (where's the fuel coming from?) when we can do this *now*

* "<<<" = "is much less dangerous, in all respects, than"

Interesting

So for a tiny fraction of the trillions wasted on war and its weapons, we could have got ourselves a nice orbital powerstation?

A tad optimistic maybe, humans will always find a reason to fight, but still gets you thinking. It'd pretty much end climate change worries too, at least fossil fuel ones from the hundreds of coal fired powerstations going online in Asia every month.

It'd NEVER happen with the current government, who like their oil power very much indeed. Could be a real votewinner for the opposition though.

Predictions of disaster

It always cheers me up to see people predicting disaster without ANY understanding of the underlying issues. Please, continue, post haste!

*cough* Ok, now that that's out of my system, on to more serious refutation. First off, global warming is NOT about the amount of heat we are generating by our energy usage. It is about the amount of solar energy we are trapping via greenhouse gases released from burning fuels for energy usage. The differences in total heat involved is orders of magnitude apart; and a space based solar array system would only be sending down ~5x the energy an equivalently sized ground system would produce. In addition, we simply wouldn't build a system larger than we needed; the cost is prohibitive. Thus, the issue raised by "zen" is not only a non-issue, it's actually obscuring the fact that as this would be "non-polluting," it would reduce global warming.

As far as the comment by "Chad H.," I suspect many played Sim City, but unlike yourself, are smart enough to realize that it is a GAME, and this is REALITY. The beam can not be used as a weapon in the way you describe, it would require the ability to "focus" it to an insane degree. From the article: "The distance from the geostationary belt is so vast that beams diverge beyond the coherence and power concentration useful for a weapon."

So please, focus on REAL concerns if you want to shoot this idea down. However, keep the fear mongering out of it.l

-daniel

@ anthony bingham

At present the idea of creating underground thermal reactors based on the heat from the Earth's core is a no goer because it is usually not possible to dig down deep enough to raise temperatures more then 10-20 degrees. For a thermal reactor to work you need much higher temperatures.

(And at present it has yet to be possible to drill down far enough to penetrate more then 50% of the planets crust.)

At present all thermal reactors are based around hot springs and the like for the simple reason that these places bring the heat to the surface already. The only real option for creating usable underground thermal reactors would be to build them close to volcanic regions or on fault lines where magma/lava are relatively close to the surface. Quite obviously this provides structural dangers of its own (eruption/earthquakes, etc.).

Whilst the energy produced would be clean, and if said eruption/earthquake should occur, the threat to the surface would be minimal and less than that caused by the eruption/earthquake itself (unlike with nuclear power stations as seen after the recent earthquakes in japan). The danger to the lives of the power plant workers though would be unacceptably high (for western nations). So i cant see this technology working in the west, sorry. It could flourish in a place like China where workplace safety is unimportant but then they rarely lead the way in such technologies...

The entire Pacific rim

is a fault line I personally have lived right over a fault I didn't die there were lots of earthquakes basically the reason we can't have extensive geothermal use is it costs money to develop and no one is willing to spend it.

Anyone else see an alternative use for this?

Forget those namby pamby 'crowd control' humvee mounted microwave rayguns, get your tasty 'crowd vapouriser' right here ;)

good idea

Nice to see that there is some sensible thinking down one corridor of the pentagon, but as they say, they will need "a cooperative international regime", which I'm guessing they'll be outsourcing to the rest of the building.

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Reminds me...

There was this incredibly bad movie, James Bond something. Well, the good thing is we won't have to fire up the barbecue...

EAfH

High power microwave beams

would ionize the atmosphere which would allow space radiation to reach the Earth's surface unstopped. This is bad for most lifeforms, the process wastes lots of energy and even increases the tempreture of air around the beam, generating storms. Imho this device could only be used as a weapon. It's effects are on the same scale with nukes.

Title

"But it's nice to see this general sort of thinking all the same."

did you mean thinking in this area, or that a particular Pentagon guy is sort of thinking?

itll never happen

why?

energy == power == money

and those who have these things generally dont want to share it

@TLA

LOL .. please factor in clean up costs. Cradle to grave analysis is always better than back of a fag packet analysis, which you seem to specialise in.

At the moment the world burns coal, I know the EU goes a bundle on gas, but theres less of that around than there is oil. Its ultimately unsustainable. Theres 100,000's of years of coal, we even have large amounts in this country (shock horror, maybe if Maggy didn't shit on the miners we wouldn't have to be dependent on Russian gas .. oh the irony, you kill one red just to get into bed with another. These socialists get everywhere don't they.)

Carbon sequestration is needed now, a decent design for a coal powered station with on site carbon sequestration is the real sweet spot for saving the planet. The Chinese were bringing a new coal fired power station online every month.

I know you don't have any deep knowledge of power generation, you have never participated in any analysis of power generation or looked in any detail of the available alternatives.

So why the f**k do you feel you know the answers ?

As for nuclear power != a nuclear bomb ... the only difference is the purity of the fissile material, its should be obvious that a controlled reaction is more difficult to achieve than an uncontrolled reaction.

As I've said before, a knowledge of ASP does not give you any insight into Science. But that does not stop your average tech geek from spouting off based on a quick wiki fiddle and their favourite blog author, who is normally another tech geek with a knowledge of ASP. Talk about echo chamber reinforcement.

@Zen

Your just an idiot, in future I would keep it to yourself

To give you a hint along these lines, how much energy do you think that a wind turbine bleeds from the wind which is created by varying atmospheric pressure over large areas ? Are you suggesting we need to worry about this at all ?

Maybe we should be streamlining the landscape so that the wind doesn't have any resistance to it. My God, if this carries on the wind will run out of steam before it reaches us, we surely would run out of air, because its the wind thats letting us breathe, innit ?

"Just a thought" ? ... it would be nice if you did !

As for this space based microwave, its not going to solve anything today, its pie in the sky and basically is a vehicle for encouraging space exploration. Fine, but lets not kid ourselves it can help solve the energy crisis. It can't. Nor will a comprehensive knowledge of C++, but that hasn't stopped anyone yet.

The Eagle new it all

Forget SimCity the Pentagon should be forced to sit down and read the 1980s edition of the Eagle comic.

I can't remember the name but there was a storyline where a brand new orbital powerstation was turned on and the moment the power beam reached the ground it effected the atmosphere and rendered it impossible to generate electricity. After many months of apocaliptic warrior stuff, involving steam trains and diesel powered Chieftan tanks in and around the tower of london, it was only the timely arrival a comet that destroyed the orbital station that saved civilisation..... actually sounds like it could be fun turn it on!

Great idea!!!

I think this is excellent.

Heres some of the pessimism points explored -

Chances are China could share from and benefit from the designs (if made public) that the yanks come up with, and help to put their own SBSP system into space, and the UK might create its own SBSP too.

If it were made public, and was totally neutral and standardised (so energy sharing is possible), what possible reason would China have to blow it out of orbit (other than a prelude to invasion)?

Other benefits are apparent - in events such as natural disasters, it might be prudent for nations to share their SBSP generated energy directly to such nations 'base stations', to help perhaps, third world countries, which would improve international relations no end.

Also given that today energy is brought in from other countries, and sent out to other countries all the time now, such a redirection of the 'SBSP beams' could be done directly from the source.

Also, the problem of launching them into space might be mitigated given the proportionately smaller energy requirements that the likes of Bert Rutans SpaceShip one developments (given they go mostly straight up and straight back down) could perhaps be utilised (I'm no scientist but it sounds good!).

Especially if you could send it up in small modular panels creating a kind of network that could keep being added to for generations, eventually replacing fossil fuels entirely.

Old, non functional modules would be ejected from the network over time, and new ones introduced by the same method, helping maintain the network.

Right General, I want the first few modules in space by tomorrow lunchtime! ;-)

Wrong technology again

Although such thinking has to be useful in publicising the necessity of weaning us all off fossil fuels, yet again we seem to be looking at the wrong technology.

Fusion via inertial electrostatic driven devices anyone?..... read this summary paper:

http://www.askmar.com/ConferenceNotes/2006-9%20IAC%20Paper.pdf

Anyone want to join me in a whip round for the 200 mil required?! Joking aside, I'd fund it if i knew how to construct the commercial proposition.

Apparently the key workers on the project plus the patent knowledge now reside within the same company that made the rubber/nitrous oxide rocket engines for the Spaceship One program. One would hope that signifies both intent and capability.

Lets hope they can make it work and we can all raise a glass to the fantastic work of Bussard, Farnsworth, Hirsch et al !

H'arj

We'd have got there sooner...

...if James Bond and his pesky, plucky associates didn't keep killing off the space-bound nutter scientists, who had invested their huge personal fortunes in to making their evil dreams reality. Sure, we'd have to contend with the odd act of global terrorism, but look at what we could have won.

I can see it now...

...the little birdy flying along, happy as anything. It spies a shimmer in the air and its little birdy brain thinks "Updraft". It flies into that area where the energy is being beamed down from space....

zzzzzzt

Of course, no one will do anything until some idiot in an airplane strays off course...

boom!

Expected rectenna array sizes are expected to be in the square km range.

But compare that to the size of solar arrays necessary to provide the same level of power, and generate excess capacity to be stored for nighttime, foul weather, and changing seasonal influx levels.

About 3 to 4 times the physical size plus massive storage facilities. And the whole lot is as toxic as Hell itself. Either during fabrication or inherently as with most battery technology.

The simplest rectenna element is a piece of bent wire and a fast diode rectifier. More complex ones with multiple elements and a backplane can achieve efficiencies as great as 90% with a receiver cost of just a handful of dollars per square meter.

Solar cells are expensive as hell. It makes sense to place them where the maximum wattage can be squeezed out of them. If it's affordable to do so.

And the effect microwaves have on the materials, items, critters and people in their way are very very dependent on the chosen wavelength. For fairly obvious reasons the first limiting factor is that for the purpose of power transmission the beam be as minimally affected as possible by the Earth's atmosphere. Thus it's affect on the atmosphere is equally minimal. One major element in the atmosphere, is water thus one frequency that certainly won't be chosen is the one used in microwave ovens. So strangely enough it's not going to speed cook any people or birds that manage to get in the way of a beam. At worst it would amount to a slight warming effect as some lesser element or compound in the body does adsorb a small proportion of any beam.

As for total waste heat input into the Earth's biosphere, it would be no different to today. That energy is generated and turned into useless heat regardless of it's source. Fossil energy sequestered in fossil fuels is the least of our problems. It's the greenhouse gases which modify the Earth's atmosphere to trap solar energy all over the many millions of square kilometers that face the sun every single second. The few terawatts we dirrectly add to the environment with our activities are nothing against the hundreds of terawatts (petawatts?) we're now adding indirectly through globlal warming.

And perhaps, one day as we get the hang of this strange idea of cooperation we can think about retuning a few transmitters to react with water, not to harm, but to tinker with the weather to redirect or sap the strength of dangerous storms and to create and/or steer beneficial rains over crops and catchment zones.

With abundant and sufficiently cheap energy virtually anything becomes possible. Even if we limit ourselves to the physical resources of Earth, magnetic separation of ionised sea salt could provide almost any rare element we could ever need. It's woefully inefficient but if the energy is cheap enough the rest is very basic engineering. Bucket particle physics.

My fear is not that launch system limitations will prove too expensive, but that they will become cheap too quickly for us to learn the lesson of cooperation properly if at all.

I once saw an article quite a few years ago that spoke of a microwave beam climbing launch vehicle. The basic idea was to focus part of the beam with a parabolic reflector to create a shockwave in the air ahead of the vehicle and creating a partial vacuum in front of the craft. The remainder of the beam was rectified and used to power a ring current around the perimeter of the craft which accelerated heat ionised air past the craft to create forward thrust. Rather ironically the shape of craft was two shallow bowls face to face, with a parabolic bowl inset into the upper surface. Claims were made in the article that the concept worked in wind tunnel tests. If it scales up and ever works in the real world launch costs would plummet to the point where virtually anyone could establish an orbital presence.

A recent development of solar cells which can be printed onto a substrate strike me as making the idea of SBSP even more attractive as solar cells can be rolled onto spools in thousand metre lengths and unwound onto gossamer frames in orbit. My guess is between and acre and a hectare of 12-14% efficient solar cells per ton mass.

It really is starting to look like it is doable, and may well be done soon. Leave it to the military alone and problems will ensue. If it happens, it must be with full international cooperation.