Flying Wing To Run On Sun-Replenished Fuel Cells 128
Saint Aardvark writes: "CNN reports here
that a new flying wing is being powered by a combination of solar panels
and fuel cells that suck up 100kWh every *day*. They hope to keep
these(unmanned) babies up for six months at a time -- essentially making
them cheap satellites. The $12 million price tag puts it a little out of
reach for me and thee right now, but just wait 'til they get
open-sourced...:-)" The question is, will this help meet my unbound desire for cheap, ubiquitous, unmetered, wireless Internet access?
Re:Typo... (Score:1)
Re:Typo... (Score:1)
No, really they need to work on incorporating a simple spellchecker into the slash code. It would be sooo easy to do, I'm surprised some slash enthusiast hasn't done it for them. Spellcheck not just their posts, but ours too.
Airships (Score:5)
it's probably cheaper than $12M (Score:1)
Power (Score:1)
Oooh looks fun (Score:2)
Re:Airships (Score:1)
Re:Typo... (Score:1)
We don't have any milk (Score:1)
It's things like these that make me hate Microsoft. Such injustices in the world, and they stand by! Watching poor helpless cps (yes, we call it CPS here) eat junk food. Malnourished, it what we are! I say we strike! Fight the power!
No CPS students wre harmed in the creation of this post.
Unmanned? (Score:2)
Really.
Someone BETTER be manning SOMETHING. Otherwise, I'm going to re-evaluate my homeowner's insurance...
-- Chicken Little MIGHT be right...
Re:Airships (Score:1)
What's the point of this thing? (Score:2)
I'm sure the people who've been working on this have good reasons for doing it. Too bad the CNN article doesn't tell us a single useful thing. Why do they bother mentioning space applications? Aren't they aware that solar charged fuel cells have been standard equipment in space since the Apollo program? And there's no air up there for that wing.
Enlighten me, someone.
My Conspiracy Mind... (Score:2)
Having only satellite intelligence and cloud coverage can be such a bitch.
Of course, the government can say that it will be used for collecting atmospheric data and infomation about the weather.
Re:Linux newbie, but willing to learn ;-) (Score:1)
More background info (Score:4)
Oh baby ... (Score:1)
I've always wanted to live in the middle of nowhere. Unfortunatly, I'm unwilling. No electricity? No telephones? I'd be completely out of touch with the world. No more friends, no nothing.
A technology that allows one to become completely independant from the rest of the world is a really good thing. With these solar/hydrogren cell packs, one could live in the middle of nowhere, with all the comforts you'd have in the city(assuming you raise/grow your own food). Technology like this puts that dream within the reach of the masses. No more would you need to live in a city, squished like sardines.
Does anybody know how cheap it is to live on your own, making your own food? DAMNED cheap. Assuming you owned the property and buildings outright, you would only need to work one year in five(assuming minimum wage) to be comfortable.
Ooooh baby. That forest getaway is looking more and more likely
Dave
'Round the firewall,
Out the modem,
Through the router,
Down the wire,
The NSA/CIA/FBI's wet dream. (Score:3)
---
seumas.com
Re:What's the point of this thing? (Score:3)
You can't move a weather balloon. Indeed, it's at the whim of those pesky high-altitude winds ... one of these babies can actually stay in position over a target city, perhaps providing wireless / WAP coverage for the entire area. This makes perfect sense, when you look at the aerial density needed in your typical urban environment : they don't get those roof-top spaces for free, you know. If you could get one of these puppies for $1M to cover Manhattan, you'd save that in the first year alone in wireless basestation leases.
Of course, the math isn't quite that cut and dried, but it still offers tanalising possibilities to wireless service providers. And that's just one possible use with a clear business need.
Weight is irrelevant (Score:1)
My guess is that they didn't use an airship because they wouldn't have gotten research grants or press attention. Airships are a 19th century and early 20th century technology. They're not in fashion these days.
There's really no practical application for these systems other than aerial photography. If there were, there would have been airship-based versions of them long ago.
Good, let the robots do it (Score:3)
Soviet Russia proved that if you want to spy, all you need is a complicent populace to bear the brunt of the spy-work. With these planes doing the work instead of our tenants or landlords doing the work, we don't have to be the ones doing the work. It's ultimately a good thing, comparatively.
Sun/Hydrogen /Fuel Cells (Score:1)
Re:Airships (Score:1)
-------
Re:What's the point of this thing? (Score:2)
Fuel cells cannot be charged with solar power,they run on hydrogen. The solar power is being used to crack water into hydrogen and oxygen. The water must be supplied. I would assume that the wing can 'harvest' water vapor from the atmosphere. For space applications the water would have to be boosted into orbit. Fuels cells are now FAR more reliable than batteries though.
I hope the tech. for the flying wing pans out (Score:1)
Re:Oh baby ... (Score:1)
Also, subsistance farming looks charming, but it's far more labor-intensive than most people realize. That's why agro-businesses developed in the first place. You might make it work if you shared labor with a number of other people in rotation. That's been shown to work - to a degree. They're called communes.
Is this really new? (Score:2)
I don't believe that testing the new technology in this manner is necessary either. Obviously, these things won't be put into orbit and therefore can't cover the range that satellites in a medium to high orbit can. That would mean that you would need more to cover the same area, and it would only last for 6 months. I don't know the exact cost of traditional satellites vs. these things, but since there would be higher maintenance, and a larger quantity, it probably won't be cost effective for at least another decade, maybe two.
Also, there would have to be an outage while the existing wing is brought down, and a new one is positioned. I would also like to see more posted on how they plan on keeping these things stationary for 6 months straight, unless a client site for wireless net access is going to have a positioning system that will move with the wing. Or maybe a new receiver that doesn't require direct line of sight.
Call me pessimistic, but I don't see how this will change anything. I tend to think it's one of those things where the engineer are just trying to see if they can do it, and aren't considering whether any real benefits will be produced from their efforts.
** Disclaimer: I'm not a physicist (probably misspelled) and therefore probably don't know what I'm talking about anyways. I'm just trying to apply logic to the information I read.
Weird unit choices (Score:1)
Why do people always quote power figures like this, instead of saying the roughly equivalent "suck up 4 kW"? This is roughly equivalent to my saying that I live 16 mph-days from San Francisco, rather than 400 miles.
Inability to Maintain Station != Access Point? (Score:2)
It is unlikely that these things could hold geo-static position very well, even in normal weather. The wind speeds at the altitudes they fly at surely require too much energy to counter without draining the cells and plunging onto your house. More likely, they glide wherever the winds take them. Now comes along a bad storm system and your wireless access is completely screwed. They would be good for drifting, but if they don't maintain station, there seems to be little practical use as an access provider.
Perhaps if you lofted enough of them to create a network that circled the earth slowly, you would have something. But that sounds awfully expensive to me. Sounds pretty neat, though. Espeically if you had a continously updated map and could watch them scatter away from storm fronts. Then again, they might fly high enough to escape the main blow of the system, but I imagine major systems must really screw up the atmosphere above them. Any weather experts in the house?
Old News! (Score:2)
http://www.platforms-intl.com/
They are already doing it in Brazil!
They have tested their "plane" system and it worked, now they have gone into stationary blimps. I can't wait until the FCC/FAA allows them to use this tech in the states! (much cheaper that 12 million). Their "arc" system is about 5 million for a city-covered installation. What local government wouldn't want to be the first city with permanent free wireless internet! ($5 million a pop is NOTHING!)
Cd
--
Flying Paranoia (Score:1)
Next thing you know, the RIAA will be looking in the window to see who has Napster running.
Spooky spooky!!
Re:Airships (Score:1)
Re:Airships (Score:1)
The future of enery production (Score:3)
It's clean energy, with only water as a byproduct. Once the systems get into mass production, their prices will drop sharply. The cost of environmental damage isn't quantifiable and we can't keep on relying on fuel and nuclear power forever.
The applications for such concepts are huge ; from depolluting industrialized countries to the equipment of developing countries by diminishing the power grid infrastrucure.
If you combine this system to fast-spinning flywheels (read this excellent artice from Wired Magazine [wired.com]), you get permanent, clean energy with little or no maintenance as long as the components can last. Heavy industry could rely on fewer heavy-duty (polluting) powerplants, thus greatly reducing pollution (I don't think we can eradicate all of it, unfortunately).
To me, it looks like the ideal power source for durable development.
May I turn your attention to the fact some areas of our planet are becomming unfit to life because of complete ozone layer depletion? It's actually the case in Terra del Fuego, at the southern tip of South America. By getting outside unprotected you get third-degree burn in less than seven minutes. Organic life isn't possible without the ozone layer.
If we don't want that to happen to the rest of the planet, it's urgent some serious investments are made in such technologies.
Think about it.
/max
I won't blame Slashdot for this old news (Score:2)
Hell, I think I saw film of it flying about two years ago.
The idea is pretty cool though. The plane can do nearly anything high altitude balloons can do, only it can do it for MONTHS at a time, returning data the entire time, but unlike a balloon it is under human controlled powered flight. Fly it where you want it to be. Fly it in circles for as long as you like, and then fly it somewhere else.
At the end of the mission * fly it home* and land it right where it started from, complete with its instrument package, prep it, and send it off again.
The plane will always cost more than a single balloon, but it can do more useful work than hundreds of balloon, and then do it again, and again, and again.
This is old news, but... (Score:2)
As a builder/flyer of radio controlled model airplanes, I've also heard of such systems employed, albeit on a much smaller scale (literally), on RC planes. One example that comes to mind is a fellow who covered the top surface of the wing on a model plane with solar cells. The resultant power was enough to power the motor and the radio receiver, so his flights of the model are now limited in duration by the batteries in his transmitter, which last for hours. Compare that to the average flight time of about 10 minutes for battery-powered electric model airplanes, and you can see the utility of efficient solar power. No more burning 50 pounds of jet fuel for every mile travelled in an airplane, for example. Of course, NASA has been doing this longer than I've been alive (Fuel cells charged by solar cells, essentially). The trick is to get the price of the technology down into the range of practicality, much like the computer price/performance curve from the 70's-present. I'm sure it can be done if we get Corporate America to realize that "If you make it, they will buy it."
10 gets you 20 on DEA charges (Score:1)
Only later will these be used for beneficial purposes such as migratory pattern research and pr0n w/o borders servers in the sky;)
Cars (Score:1)
Re:The NSA/CIA/FBI's wet dream. (Score:1)
Hmmm... Shouldn't that be:
Long-term, cheap, flying surveillance vehicles. Everyone, everywhere, monitored, doing *nothing*.
I'm sure NSA/CIA/FBI dream of wasting their budget watching the people of America mow their lawn/scratch their ass/drive to work. You people are way too paranoid.
Solar arrays pollute (Score:2)
You're also discounting the macho do-it-yourself ethic that exists out there, especially among male homeowners who cannot bear to let professionals do "their" job for them, because it might reflect poorly on their manhoods. You know whom I'm talking about; the guys who will routinely try to patch their own roofs but always leave them leaking (and occasionally fall through them, trying). They'd be insane to try to maintain an electrically complex one (and would be a hazard to themselves and others).
Re:Oh baby ... (Score:1)
Yeah, but individuals spreading out away from the city centers and living where they want to live is called "sprawl" and that's eeeeeeeeeeeeeeeevil. I can practically hear the Gores and Naders screaming already.
Re:Linux newbie, but willing to learn ;-) (Score:1)
or get pushed.
Re:Airships (Score:4)
Regardless of your pronouncements, airships are actually well suited for this purpose. In fact, there are several projects to fulfill this type of mission with unmanned airships.
At the altitudes involved, there is actually an atmospheric layer where winds are comparatively light.
The large surface area available on a lighter than air vehicle makes it a natural for collecting energy from sunlight. Gas retention is not a problem. Decades ago, comparatively small free balloons were already flown for periods of six months or more. A far cry from a few days, eh?
There is actually currently a renaissance of airships the likes of which has not been seen since World War II. Zeppelin Metallwerken in Germany has developed a unique semirigid design, which will initially be marketed for touring. CargoLifter, also in Germany, has just completed construction of a vast hangar, and is about to begin construction of a ship capable of carrying bulky indivisible items of cargo up to 160 tons for delivery from hover at minimally prepared destinations. Advanced Technologies Group in Britain is flight testing a scale model of a another cargo carrying design which uses an air cushion to make a large advance in ground handling. Lightship, in Britain, is currently conducting successful trials in Kosovo of a land-mine detecting and surveying airship.
References:
http://www.zeppelin-nt.com/ [zeppelin-nt.com]
http://www.cargolifter.com/ [cargolifter.com]
http://www.airship.com/index_frames.htm [airship.com]
http://www.airships.com/ [airships.com]
http://www.mineseeker.com/ [mineseeker.com]
http://spot.colo rad o.edu/~dziadeck/airship/htmls/introduction.htm [colorado.edu]
Re:Airships (Score:4)
Re:The future of enery production (Score:1)
This is so obviously untrue it sounds like the meat of a chain letter. The next line should be "So forward this to your 1700 closest friends, and Microsoft and AOL's email-o-matic collector will automatically submit it to your congressman and the UN."
Solar Cell Degradation (Score:2)
--
Re:Cloudy (Score:1)
--Mike--
Re:What's the point of this thing? (Score:1)
Re:Solar arrays pollute (Score:3)
Re:The NSA/CIA/FBI's wet dream. (Score:2)
Besides, that's the whole point of a system like FACE. It does the scanning for you so that you (a human) only waste your time on relavent concerns that it has detected.
---
seumas.com
Re:What's the point of this thing? (Score:1)
Re:it's probably cheaper than $12M (Score:3)
If you want 24x7x365 coverage for a particular geographical area using a satellite, you either need a bird in geosynchronous orbit (which means higher launch cost and more power needed to transmit) or a constellation of low-earth orbit ones. Until we get a cheap way of putting things in orbit, this is the next best thing.
Re:Good thing for the second amendment (Score:2)
---
seumas.com
Re:What's the point of this thing? (Score:1)
Re:Weird unit choices (Score:1)
Re:Typo... (Score:2)
What irks me the most about Slashdot, especially in the recent past (last year or so) is the amazing number of story reposts. It is as if many of the story editors don't even read this site anymore. How many times have we seen what is essentially the same story reposted to Slashdot within the span on a week? Too many for me to count...
I won't really even get into some of the other minor things that bug me, like the zealot-ish slants many of the stories take (say, stories on mp3, linux, etc), because that could be argued for in a couple of ways (the editors post what interests them...and/or what interests the majority of readers).
Oh yeah, and I also hate Jon Katz, but I won't mention that..I'm already getting the -1; Offtopic, why bother risking the -1; Redundant?
What the hell is wrong with Slashdot?! (Score:2)
Easy does it!
This comment has been submitted already, 270292 hours , 27 minutes ago. No need to try again.
---
seumas.com
Please excuse me, I have a cold. (Score:2)
By the way, look at the fuel for the SR-71. Throw a match at it and it just sits there wondering what the big deal is, and your match goes out. There are many different ways for chemical energy to be harvested. Alkaline batteries contain rather stable chemicals, but they have proven remarkably successful as energy sources in many applications. It doesn't matter how the energy comes out, it just means you might have to ask a Chemical Engineer instead of a Mechanical Engineer or Electrical Engineer how to put it to use.
Re:The future of enery production (Score:1)
Re:What's the point of this thing? (Score:1)
Solar Power on Communications Airships (Score:1)
Re:Weight is irrelevant (Score:3)
Well, you are right, and you are wrong. Imaging (pictures, infared, sidescan radar, etc) is one very good use for this sort of aircraft, and worth the high development costs to both for inteligence gathering and scientific studies (the kind that go into studying the enviornment and wind up helping US agriculture to see paterns that bring more food to your table for example). But that is only the cash cow that is going to get the research done.
The big deal with this sort of system is the ability to selectively "park" it at high altitude over one spot for extended periods of time (the current holy grail is in the two month range), and serve as a communications platform. In simpler terms they want to replace low orbit sateites (*cough* *Iridium* *cough*).
Putting something in orbit cost a lot per pound, and if you make a mistake on something in building the "payload", or something unforseen happens, or if Murphey's Law just rears it fickel head, then you are stuck with what is in orbit. There is just not enough money to go out there and fix satelites in orbit in most cases (Hubbel being a major exception). But if something were to go wrong with a payload on one of these birds all you would have to do is tell it to land, and then fix/replace the payload, and since this costs soo much less than orbiting a satelite, you probably can afford to have a backup waiting on the runway to replace the whole thing.
Now as to the question of baloons/dirigibles, they simply do not have the staying power that this mission calls for. It is hard (impossible) to construct an envelope (the bag that holds the gas) that does not leak, meaning that missions longer than a few days are simply not possible. Add to that the fact that the winds at the altitudes called for in these projects tend to be faster than lighter-than-air-craft have posted in the past, makes them simply the wrong horse to bet on in this race.
It is not about weight, it is about the ability to do the mission at hand.
Re:The future of enery production (Score:3)
Try this instead.
http://apegaia.iro e.f i.cnr.it/news/press_releases/chicago.htm [fi.cnr.it]
Not as dramatic as your "planet's becoming unfit for human life", but a little more realistic.
(yawn)
Reread my post (Score:2)
Re:Is this really new? (Score:1)
There is no need to worry about outages while replacing the wings. Send the second wing up, THEN bring the first wing down.
The wings fly at an altitude such that a dish should not be necessary. As such, line of sight is all that's necessary, and that can be maintained by simply having it circle in place. The small amount of movement it produces will not be a problem; it will only break things if it starts to fly over the horizon.
Re:Oh baby ... (Score:1)
Re:Reread my post (Score:3)
However, modern solar panels are a no-brainer. Moreover, we need some way of distributed power generation because power transmission from massive generators through ultra-high voltage lines to high usage clumps is undesirable (and not just because of cancer clusters). Solar power also produces power at about the right times (as in most power is consumed during the day).
Re:Oh baby ... (Score:1)
Health Insurance: I live in Canada, where almost everything(health-related) is free.
Money for taxes: Well, as far as property taxes goes, it's *real* cheap. There are huge tracts of land in Ontario(and we're talking good land here, not arctic tundra or anything) that are completely tax free - sort of like the Homesteader's Act. School taxes are part of income taxes here, and since I wouldn't be working much, I wouldn't be paying much. Ditto for sales tax.
You've got a good point about taxes going up, though. However, I doubt enough people would do it in large enough numbers to warrant adiscriminating tax law.
As far as sustinance farming, it's not as bad as you might think. I live in an agricultural community/area(my town is "the city", and there's only about 8000 people here), and I grew up with and around farmers. It's hard, yes, but easier than commuting an hour a day and working eight hours. *trust me*. Of course, not everyone could handle being far away from any population centre, but that's a different argument. Oh, back to farming. For a family of six, you can expect to work ~14hrs a day during harvest and sowing seasons, and about ~2-3hrs a day the rest of the year. That's assuming you have animals, and don't just rely on plants(very dangerous to rely solely on plants!).
Now, I'm not going to argue with you on socio-political-religious points, but "communes" are helped North America into cohesive nations, and if for some reason national government broke down communes would be the first things that rose to take its place.
Dave
'Round the firewall,
Out the modem,
Through the router,
Down the wire,
Re:Oh baby ... (Score:1)
Economical: You often have a large population with few places to employ them.
Environmental: Current day sprawl is really bad because you lay down *HUGE* tracts of road for all those people, plus the density is still too high to have real farms in the area.
I'm talking about something completely different. In Canada, there's about a square kilometer of good land per person(not counting tundra, which raises it to about 3 square kilometers/person). I'm not talking about having neighbors within hollaring distance.
Dave
'Round the firewall,
Out the modem,
Through the router,
Down the wire,
Re:What's the point of this thing? (Score:1)
Re:What's the point of this thing? (Score:1)
Re:What's the point of this thing? (Score:1)
In any case, I take it you've never been in a light plane flying through a cloud? How about a CAR driving through a fog?
The vehicle itself is the water collection 'device.' Indeed, you can't help but collect it, and for a light plane such water collection can be so extreme as to seriously reduce performance. The problem is often just how to get RID of the damn stuff.
Re:Solar arrays pollute (Score:1)
What about the cost of building internal combustion engines and the like? Surely these carry at least as much of a penalty as manufacturing solar cells.
www.infobreakfast.com
A little history and some pictures (Score:2)
He was a competitive glider pilot, and won the national championship a few years in a row. After the last time, he showed everybody the little circular slide-rule he had developed to maximize speed and range (the McCready SpeedRing) which pretty much revolutionized the sport.
In the mid 70's, he was in debt to some friends for $50,000 -- and he heard about the Kramer Prize, $50,000 to the first person to fly a human powered aircraft through a 1-mile figure-eight course. McCready was building indoor duration models at the time (unbelieveably fragile creations of wire and film that would fly for 20 minutes on a few twists of a rubber band) and realized that that same technology could be used to make a plane that would win the prize. The result was the Gossamer Condor -- a externally-braced plane to make something as light and large-span as possible. It easily won the prize. Unfortunately, he went through about $100,000 to build it. Later, he won the next Kramer Prize for the first human-powered plane to fly the English Channel, and then build a few early solar powered planes (piloted by a very light young woman).
GM hired McCready to build a car to win a solar-car race across Australia. McCready's astonishing realization was that it was all about aerodynamics -- where other teams were trying to maximize the amount of energy they were getting from the sun, McCready was worried about going really fast. It won the race by several days!
McCready built a flying Pteradon for a Smithsonian movie. It flew, flapped its wings for power, and was successfully filmed for the IMAX film.
And then there are these flying wings. Truly astonishing machines. They currently hold the record for the highest-flying propeller-powered planes, and are just (to me) insanely beautiful. Here is a gallery [nasa.gov] of photos of Helios. This picture in particular [nasa.gov] I find just sublime. What a machine. What a guy.
Thad
Someone asked why. (Score:1)
Low-cost wireless networking, for one thing. And all of the things that are now handled at tremendous expense by geosynchronous satellites, for another.
Re:What's the point of this thing? (Score:2)
DB
CargoLifter will lift 160 tonnes (Score:1)
so weight doesn't come into it.
You're thinking of the goodyear blimp maybe. (Score:1)
Re:Solar arrays pollute (Score:1)
Helium retention simply isn't a problem anymore (Score:2)
Airships are also quite capable of holding station against significant winds. Even the ships of the 1930s were capable of a sustained 80mph.
You may be thinking of the goodyear blimp and other similar advertising blimps.
What's the wind speed at altitude? (Score:1)
Similar proposal for a suborbital "satellite" (Score:2)
Uses a lighter-than-air solar powered helium airship.
----
Re:You're thinking of the goodyear blimp maybe. (Score:1)
70mph is a gentle breeze for higher altitudes, and besides they would be under solar power.
The line is down (and in flames) (Score:1)
Puts the phrase "my internet service crashed" in a different light, huh?
-Peter
Battle ozone layer depletion? (Score:1)
Re:Solar arrays pollute (Score:1)
Solar power @ 1KW / m2 = 5 m2 to start with
Reduce by 50% for night, you're now to 10 m2
Reduce by another 50% (max 25% of total) due to weather (depends on area, it might be more or less), you're now at 20m2
Oops, these suckers are only (let's assume you grabbed the most efficient you could find) 25% efficient - you're now at 80m2.
Assuming you never have bad weather, you're at 40m2, which is double his high estimate - and that's a best case. Assuming his 10% efficiency, and you live in the NW or NE, you probably need 200m2 to power that house. Doable, but what's the cost to manufacture 200m2 of cells? What amount of energy goes into the manufacture? How long do they last (i.e. how often do you need to make new ones)?
And yes, I actually took a course in this in college. Solar cells are wonderful, but they're not the "silver bullet" - same with most things.
In which case, this flying wing is doomed. (Score:1)
With a cruising speed of only 19-25mph.
Doh! Helios flies at 25mph. (Score:1)
Regular airships (goodyear blimp etc) fly at 40-50mph. The rigid airships of the 1930s could cruise at 80mph.
Envelope fabrics have been helium impermeable for so long now that it isn't even funny. Because an airship doesn't have to use any power just keeping itself in the air it can use all the power for thrust and control.
Add to that the lift provided by helium increases with the cube of the size an airship will be able to carry a much larger payload.
Re:What's the point of this thing? (Score:1)
But let's say that those nasty CFCs are really the cause of the ozone depletion as the ozone warriors would have it. The source problem has pretty much cured itself through the banniing of most ozone depleting materials (and at quite a pretty penny too). This leaves us with managing the aftermath. CFCs are quite long-lived chemicals and you have two options, you can create giant collectors to filter all high altitude air on planet Earth or you can create ozone at a high altitude to replace the losses. The collecters aren't here but taking these self supporting flying wings up with tesla coils on board might just be a practical measure. It could be funded by an ecologists version of the "plant a tree in Israel" thing that's popular with many jews. You would probably fly them from the tip of south america and if an ozone hol develops in the northern hemisphere you have a wealth of launch sites. As a bonus, you would also create a great tourist attraction.
Are there any EE or CE folks out there who could share how to calculate the ozone created per kw fed into a Tesla coil?
DB
Re:Weight is irrelevant (Score:2)
huh? has anyone built one? How high could you get it to go?
Re:You're thinking of the goodyear blimp maybe. (Score:2)
Re:it's probably cheaper than $12M (Score:2)
oxidation can be harnessed for power... (Score:2)
Seth
Re:You're thinking of the goodyear blimp maybe. (Score:2)
Re:Weight is irrelevant (Score:2)
You're so ignorant (can't even spell Stirling correctly) that I'm going to assume that your post is a joke.
--
In short, it gets too big. (Score:2)
Your shell has to be big enough to hold all of this gas, even when it's very thin (and doesn't displace a lot of air). The shell still has to sustain its weight, so it doesn't lose mass very fast as the design is scaled to higher and higher maximum altitudes. I don't know how high you can go before modern materials give you a machine that is effectively 100% shell and no payload, but 70,000 feet may be into the region of diminishing returns.
A blimp, or a superpressure balloon with an internal ballonet (to hold its shape during launch and the initial ascent) might be more tractable than a rigid airship. If I were designing this, I'd add a second ballonet inside the helium space to hold hydrogen for rapid ascent, and dump the hydrogen as the machine got up to altitude (and the air ballonet was already empty).
--
Re:A little history and some pictures (Score:2)
They're great! Why so touchy? Paul McCready is a legend, that's all.
Don't worry. (Score:2)
If it's under control, it either lands for repairs or is put down somewhere safe.
If it's out of control, it gets snared by the first tree it hits and turned into wreckage. Remember, this is a gadget designed to fly under the power of sunlight; it can't weigh much. The previous versions have resembled tissue-covered model airplanes. In a fight between the airplane and your house, the house would win handily (besides, the typical cruising speed of this thing near sea level is probably under 20 MPH).
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Re:What's the point of this thing? (Score:2)
Still, you can get a ball-park estimate by guesstimating your efficiency of conversion of O2 into atomic oxygen; atomic oxygen is then available to combine with O2 to form O3. (This is the job normally performed by EUV, extreme ultra-violet. This light can't get through to the ground very well because it's too energetic; it gets absorbed in the process of snapping molecules apart. Lesser ultraviolet is absorbed in the process of breaking O3 up into O2+O, but the O just recombines with O2 to form more O3. And heat. It's the heat released in this process that's largely responsible for the stratosphere warming up with increasing altitude, which keeps it stratified.)
What you are proposing is to replace all the atomic oxygen that's recombined into O2 by chlorine catalysts with fresh. I think you'll find that humanity doesn't generate enough electricity to do this.
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The other issue (Score:2)
And don't forget that Moore's Law is still in effect. You might want to call these birds down every 6 months just for upgrades.
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Re:You're thinking of the goodyear blimp maybe. (Score:2)
That's what I meant about self similarity.