New Shuttle Fuel Tanks Ready 298
confusion writes "NASA has completed the redesigned fuel tanks for the Shuttle scheduled to for launch in May or June of this year.
"On the new tank, NASA has reconfigured the struts and fittings where foam was prone to peeling off, and installed heaters to prevent ice from forming. The new tank has cameras that will allow ground workers to monitor for damage as the shuttle ascends.""
Shuttle (Score:5, Insightful)
Re:Shuttle (Score:2, Funny)
Re:Shuttle (Score:2, Interesting)
Not very wise isn't it? It's just like the modern drugs we see these days that reduces symptoms but doesn't cure the cause.
Re:Shuttle (Score:4, Insightful)
Re:Shuttle (Score:5, Insightful)
The shuttle got its budget slashed in development, so I don't blame them. The original shuttle designs were a lot more "sane" - a smaller craft, no SRBs, a titanium frame (i.e., no extreme difficulty in trying to keep the heat down), mounted near the top of the carrier, etc. The list goes on. The original design was really impressive; with what we know now factored in, I'm sure our next major reusable will be great. But we need to stop using this half-developmentally-funded 1st-generation flying experiment. What's wrong with giving Russia an 8 year contract or whatnot for Soyuz use so that they can ramp up production while we work on our next generation craft?
BTW, before anyone says "Private industry should make it, not NASA!", private industry *does* make spacecraft. Boeing, Lockheed, etc, are prime contractors for NASA, and do most of the work. If you want *small* private industry, well, they first need to actually develop real spacecraft. They're working on it, but they're still far away.
Re:Shuttle (Score:3, Informative)
Aluminum - 660 C
Titanium - 1660 C
Re:Shuttle (Score:3, Interesting)
Titanium isn't as costly as it used to be (and if any of the contiuous-process production methods start to come online
Re:Shuttle (Score:3, Informative)
Titanium is still expensive.
Re:Shuttle (Score:3, Insightful)
Yup. I really wish that shuttle recovery funds would have been spent instead on making sure that the CEV is the best it can be.
BTW, before anyone says "Private industry should make it, not NASA!", private industry *does* make spacecraft. Boeing, Lockheed, etc, are prime contractors for NASA, and do most of the work. If you want *small* private industry, well, they first need to actually develop real spacecraft. T
Re:There will never be a 2nd generation NASA Shutt (Score:3, Informative)
> were well below the rated range for the SRB
Exactly - it's just like that. Except, the NASA engineers making the decision didn't have the data about the effect of cold on O-rings, while Rutan was quite well aware of the windspeed, and as a longtime aviator, should be very well aware of the dangers of wind shear (NASA routinely cancels launches, at big financial loss, if they think wind shear might be too high).
> I am trying to remember when a fully
Re:There will never be a 2nd generation NASA Shutt (Score:3, Informative)
> All their engines are simpler than SSME, RS68, etc
And have the performance of a V2. V2s will never reach orbit, either. The extra complexity in SSMEs, RS68, etc, is not for no purpose. Yes, they're not the be-all, end-all of rocketry, but they a
Re:Shuttle (Score:3, Insightful)
management, not cures & rebuildable not reusab (Score:3, Insightful)
If you could take a vaccine for the common cold once then you'd lose all that money for cold remedies. And if you could cure high blood pressure, cholesterol, diabetes and arthritis instead of managing these conditions then you'd make much less money. It is the opposite of the old saying about teaching someone to fish rather than giving them a fish for dinner. In this case, they'd rather that you were dependent upon them for the rest of your life.
In the same vein, the shuttle is very expensive but this
My last support call at the IBM PC Help Center... (Score:5, Interesting)
The very last call I took at the IBM PC Help Center [which, I gather, is in peril of being relocated from the RTP to the PRC] was with the guy who administered the laptops that the astronauts took on the shuttle. Could only see about 100 of the 300 servers on his network, so we figured it was a networking problem [I was in networking, not laptops], and I spent three hours with him before we finally realized that it was the drivers for the PCMCIA bridge that were killing the ethernet stack. Updated the drivers and la voila - everything worked perfectly.
ANYWAY, this was early 1997, and he told me that the shuttle was filled with 8-bit processors dating from its design in the 1970s, and it was cheaper for them to have the astronauts carry light weight IBM laptops onboard as a form of an upgrade rather than ripping the beast apart at the seams and upgrading all those 8-bit processors to 32-bits [which I suppose nowadays would be 64-bits].
Wonder who they'll use for such sensitive equipment now that Big Blue has jumped in bed with Big Red?
Oops - mighta been token ring... (Score:2)
I spent three hours with him before we finally realized that it was the drivers for the PCMCIA bridge that were killing the ethernet stack.
In retrospect, this was IBM in early 1997, so it might have been that the drivers for the PCMCIA bridge were killing the token ring stack.
Anyway, it was just about eight years ago, so be a pal, and cut me some slack...
Re:My last support call at the IBM PC Help Center. (Score:3, Informative)
Re:My last support call at the IBM PC Help Center. (Score:3, Interesting)
The primary computers on the shuttle were, in the beginning, three "hardened" IBM 360 mainframes. The 360 used 8 bit bytes, and 32 bit "words", the smallest addressable unit. That said, Im sure that some of the auxiliary systems use smaller CPUs. As cool as they are, Thinkpads havent ever been used for critical systems. The reason why they use laptops to do word processing and note taking isnt because they cant upgrade their 1970s era electronic word processors, but because their 1970s word processors were
Re:Shuttle (Score:2, Insightful)
They're still not solving the problem (Score:3, Interesting)
Troy Hurtubise, the Canadian who did the famous bear-proof suit documented in the movie Project grizzly, spent 18 years researching how to make a flameproof material, and finally has it. It's far more heat-resistant than the space shuttle tiles, far more durable, and far cheaper. A friend and I watched him testing it for a military representative last July, and got the whole thing on film (it was so interesting we hope to turn it into a documentary). His material would solve many of the space shuttle safety issues, and do it for cheap (and he has an impact-proof version as well, which provides a cheap way to prevent many of the deaths of soldiers in Iraq; that was the focus of the testing I saw).
Here's his site:
http://projecttroy.com.nexx.com/website/
Not only that.... (Score:5, Funny)
Not only that, but if you apply this bearproofing technology to the shuttle program, you are ready to go for the Ursa Major mission.
Re:Not only that.... (Score:5, Funny)
Wouldn't it be safer to start with an Ursa Minor mission first?
Re:Not only that.... (Score:2)
Re:They're still not solving the problem (Score:2, Interesting)
I ended up actually buying his newest bear-proof suit (newer than the one in the movie). If anybody in the western US is interested in collaborating with me on making it more practical (I'm adding pan/tilt/zoom cameras, linear actuators, etc.), let me know.
It's not relevant to the Space Shuttle, but definitely could be applicable to things like a Mars mission (not to mention a real-life RoboCop, etc.).
Here's some help with the bearproof suit. (Score:3, Funny)
An AK-47 in the hand of the wearer would greatly enhance the ability of the ensemble see that no bear comes anywhere near.
Re:Here's some help with the bearproof suit. (Score:2)
Re:Here's some help with the bearproof suit. (Score:2)
Re:They're still not solving the problem (Score:5, Funny)
It should be mentioned that not only are his new tiles flameproof, but they're bear-proof as well. This is very beneficial for the shuttle during re-entry, where it has to survive not only the intense heat of re-entry, but the occasional high-altitude bear attack as well.
There is a bear in the woods (Score:2)
Re:They're still not solving the problem (Score:2)
Re:They're still not solving the problem (Score:5, Insightful)
those tiles are not "crushable" in your hand. i have one here on my desk and after almost 10 years of abuse it has on my besk it still looks quite nice.
expensiv? yes compared to what is in your oven. Expensive compared to the job they do? nope. they are miuch cheaper than an ablative heat shield.
they also are VERY good, moron... why do you think they use them? because they work.. the guys at nasa are not idiots.
I suggest you actually learn about what you are talking about before you make shit up and try to post it as fact.
Re:They're still not solving the problem (Score:2)
Anyway, as I recall, they were anything but soft. Brittle, maybe---I never dropped one, so I can't say for sure---but hard as hell. If memory serves, they're a particular silicate glass formulation.
One should ask the GP if he can also crush coke bottles w
Re:They're still not solving the problem (Score:2)
Re:They're still not solving the problem (Score:2)
Re:They're still not solving the problem (Score:2, Interesting)
Re:They're still not solving the problem (Score:2)
A couple square meters of leading edges is realistic for a small craft, but a couple square meters of total surface area is just crazy. Building a complete multistage rocket and expending the energy to leave the atmosphere just to launch a small single-person capsule would be a huge economic waste. Not that gigantic rockets are always
Re:They're still not solving the problem (Score:3, Interesting)
But you weren't talking about just a one-person capsule; that's a relief
Re:They're still not solving the problem (Score:4, Informative)
Re:They're still not solving the problem (Score:2)
Re:They're still not solving the problem (Score:5, Informative)
Also gasket (Score:2)
Z
Re:They're still not solving the problem (Score:4, Informative)
Troy's bear suit uses FSA 333 ("Fire Suppression Agent 333"). Which he blames for the FBI harassing him and instigating his divorce (no, I'm not kidding - he claims that it is the secret to making extraction of Canadian tar sands cheap, and the US government is after it). It is a fire retardant, heat resistant material.
This is *NOT* what you want on a reentry craft.
You can't just insulate your way to a safe landing; you have to *dissipate* the heat. That is what the tiles are for; they have a huge surface area, and even non-fibrous ceramics are good at radiating heat. As a consequence, you can stick the titles under a blowtorch for an hour if you wanted, take them out, and a couple second later they'll be completely cool to the touch. They dissipate heat that fast. *That* is what you need for reentry; not some "fire suppression agent".
The other major in-use option is ablatatives (again, not what troy invented). Albatives "ablate" (i.e., steadily erode off) as they heat up. As they do so, they take the heat that they absorbed with them. There are also other theoretical or in-testing options being looked at
Re:They're still not solving the problem (Score:2, Funny)
Re:Apollo had better heat sheilds (Score:5, Insightful)
There's always this wierd assumption around Slashdot that NASA is a bunch of idiots, and that they don't know more than a bunch of random people on the internet when it comes to (insert topic here). The number of different types of heat shielding that have been experimented with by Nasa is huge; it's not something that they take lightly. Depending on the mission, they look at what is avaialble, what they have budget for, and use what is best, just like what any reasonable person on Earth would do.
So ? (Score:2, Interesting)
What are they gonna do about it when it is damaged from the ground?
Re:So ? (Score:2)
Re:So ? (Score:2)
Re:So ? (Score:3, Informative)
Only a few critical tiles on the leading edge have to be there or you're screwed. All you really have to do is carry exact replacements for those. For the others, you have to lose several tiles before there's a significantly increased risk, and eve
Operator, get me Russia! (Score:2, Funny)
monitor for damage as the shuttle ascends... (Score:3, Insightful)
Re:monitor for damage as the shuttle ascends... (Score:2)
Well, in a word, Yes! That is the emergency procedure for when the shuttle is at jetliner type altitudes. For instance, see this page [wikipedia.org] under "Abort Modes", or search on "space shuttle escape pole".
Alternatively, if potentially fatal damage is detected during the ascent stage, the mission can be scrubbed before reentry heating becomes a problem. The shuttle can separate from the boosters and tank early, and touch down at any number of locations around the globe.
No, but they can diagnose and advise... (Score:2)
Re:monitor for damage as the shuttle ascends... (Score:4, Interesting)
That's one scenario.
There are multiple abort scenarios if one or more of the main engines cut out. These scenarios can be modified to deal with significant tile damage. The orbiter will not have orbital velocity if one of these aborts were called, and so the tile system will be much less crucial.
The problem, of course, is that any damage will need to be assessed rapidly. The earlier in the launch an abort can be called, the more options there are.
Some of the abort scenarios have the shuttle gliding over an ocean and bailing out. There's a pole they would slide along to make sure they clear the orbiter. So, in fact, there are scenarios where the crew would be told to jump out.
Far better if the shuttle can land at one of the designated landing sites around the globe. Even there, NASA will have fun returning the orbiter to the United States.
If the abort cannot be called in time, then the shuttle would continue on to the ISS. Docked with the ISS, there would be a chance to a) review how bad the damage is and b) wait until another shuttle or Soyuz could be launched.
If the shuttle does make it to orbit and is damaged, recovery of the shuttle would be problematic. So far, there is no way to repair the shuttle in orbit.
The shuttle still needs a human to activate some landing systems, so the shuttle cannot be sent back on a "hope it makes it back, too bad if it doesn't." If I remember correctly, that little design screwup was actually promoted by the astronauts. Job security.
Re:monitor for damage as the shuttle ascends... (Score:2)
Hey, it's a lot better than what they currently have: study the wreckage and find out when they should've told them to abort.
Re:monitor for damage as the shuttle ascends... (Score:2)
One of the myriad design flaws of the shuttle is that if something goes wrong on liftoff that doesn't result in the total destruction of the shuttle, the crew is supposed to get out of their seats, climb down a ladder, and jump out of the craft while it's moving at a few times the speed of sound a few dozen miles off the ground while accelerating at multiple g's.
Not like the good old days of capsules with escape rockets that could be activated by groun
Re:No silly... (Score:2)
They'll just shut off the rocket engines and jave it come back down.
Re:monitor for damage as the shuttle ascends... (Score:3, Funny)
Cannot visit the ISS unless the mission plans it. (Score:2)
Also, only one of the shuttles has a large enough carbo bay to contain the ISS docking module, assuming it would be launch with the module on a non-ISS-visit mission.
Re:monitor for damage as the shuttle ascends... (Score:2)
The ISS is in a God-awful inconvenient orbit so that a certain spacefaring nation which shall remain nameless can reach it from ther BFE lauch facilities in Baikonur. Easy for them means hard for everybody else. The ill-fated Columbia was doing what it was doing at the time because it flat out could not be used to reach the ISS due to its age/weight. We're not talking about a short
Damage-Cams (Score:5, Funny)
Not much of a reassurance to the crew though, are they?
Ground worker #1: "Looks like she's breakin' apart."
Ground worker #2: "Mm-hmm."
Ground worker #1: "We install brakes?"
Ground worker #2: "Nope."
Ground worker #1: "Ejection seats?"
Ground worker #2: "Nope."
Ground worker #1: "... So, how about them Cubs?"
Re:Damage-Cams (Score:2)
Ground worker #2: "Mm-hmm."
Ground worker #1: "We install brakes?"
Ground worker #2: "Nope."
Ground worker #1: "Ejection seats?"
Ground worker #2: "Nope."
Ground worker #1: "... So, how about them Cubs?"
Ground worker #3: Cubs in '08
Sooo (Score:5, Interesting)
Re:Sooo (Score:2)
Re:Sooo (Score:2, Insightful)
Re:Sooo (Score:3, Informative)
Re:Sooo (Score:3, Informative)
There's rarely any doubt about the trucker's ability to get back into the cab after doing said walkaround. Going EVA is risky enough in the nice enclosed space of the cargo bay, and using an MMU to go much beyond places with easy handholds has been limited mostly to demonstration runs which themselves have been within line-of-sight of the cargo bay. Leaving the cargo bay to inspect other surfaces of the orbiter,
Re:Sooo (Score:2)
There's rarely any doubt about the trucker's ability to get back into the cab after doing said walkaround.
The trucker "check" to which the grandparent was referring is a test of the brakes, while in motion, as they near a large down-grade hillside. They don't always perform a stop-and-walk-around, they just run through each of the brake systems and try them out a little. They can feel the response. If the br
Re:Sooo (Score:3, Insightful)
Real fix, or just bandaid? (Score:5, Insightful)
Perhaps this is just a case of extending the life of aging spacecraft a little longer for the least expense so that more funds can be routed towards newer technology that doesn't have the same inherent problems. (Perhaps different ones. *g*)
Re:Real fix, or just bandaid? (Score:3, Funny)
Re:Real fix, or just bandaid? (Score:2)
I mean, they could replace the foam with ceramic tiles, but that wouldn't actually address the problem of insulation falling off at all.
Another hatchet job from the bean counters? (Score:2)
Wow im pessimistic today...
ABOUT F'ING TIME (Score:2, Interesting)
The new and improved Space Shuttle (Score:2)
Good Ol' Bricks-and-Wings (Score:2)
Cost per Kilogram (Score:2)
Of course you need a serviceable profitable launch facility wherever you decided to launch from and whatever you decide to launch with. That's the real driver. NASA would need to develop a launch facility for Delta IV of the type and in the location that they can maximize their dollars income and minimize dollars per Kilogram cost.
The Russians have a similar problem
installed heaters? (Score:2, Funny)
So your saying they put heaters....on a fuel tank?
Stupid Question (Please don't mod down till Ans'd) (Score:2)
Is there any scientific basis for his suggestion, or is it impossible? Can the shuttle tanks be brought into orbit?
Re:I know how NASA could fix the shuttle (Score:2, Insightful)
Re:I know how NASA could fix the shuttle (Score:5, Informative)
Re:I know how NASA could fix the shuttle (Score:2)
That's the image NASA has to combat and that's only partially why nuclear-powered ascent vehicles aren't as attractive as other available options.
Besides, the amount of nuclear material n
Re:I know how NASA could fix the shuttle (Score:2)
The reactor wouldn't be on until it reached orbit, and even if it did explode it would probably sink to the bottom of the ocean like one of the dozen or so nuclear submarines that have been lost. Once in orbit our atmosphere would protect us from any problems. And if it was a pebble-bed reactor (as I'm sure it would be, since they're mechanically simpler than an activ
Re:I know how NASA could fix the shuttle (Score:2)
As for straw men to beat up, well that's not what I'm interested in. I was only pointing out that nuclear-powered ascent vehicles have some opposition to overcome before they become a reality.
Re:I know how NASA could fix the shuttle (Score:2)
Yes, I know. The Explosion took place on the launch pad or right after. The rocket never made it to orbit. And still no radioactive material was lost/released.
Re:I know how NASA could fix the shuttle (Score:2)
Challenger wasn't nuclear-powered, but if a nuclear-powered craft was to explode shortly after take-off like Challenger did then there is a significant probability that radioactive debris would be strewn over a large area.
Re:I know how NASA could fix the shuttle (Score:3, Informative)
Re:I know how NASA could fix the shuttle (Score:2)
Well that's part of the reason why: public perception as well as practical performance.
However I'd contend that most politicians are just as stupid as the people that elected them. They're just better equipped to screw up.
Re:I know how NASA could fix the shuttle (Score:2)
Cars don't use much if any, radioactive material.
Re:I know how NASA could fix the shuttle (Score:2)
Re:I know how NASA could fix the shuttle (Score:4, Insightful)
Of course, your point is still valid. It may well make more sense to use traditional rockets for lifting, and concentrate our manned efforts on a vehicle designed for human transport only. I'm not sure I agree with that approach, but it's certainly worth evaluating. Of course, we probably all agree that we need a shuttle replacement, just what we should develop is up for debate.
Re:I know how NASA could fix the shuttle (Score:2)
Unless you are talking about a some other kind of nuclear rocket, that wasn't abandoned in the 70s when researchers decided they were too dangerous to build?
Re:I know how NASA could fix the shuttle (Score:2)
Re:I know how NASA could fix the shuttle (Score:2, Interesting)
Ohh and the project your are talking about is NERVA, and that was not canned because they were considered too dangerous. They were canned because of the 1963 ban on nuclear testing in the atmosphere. And the considered the exhaust from the NERVA rockets to be radioactive, which was hardly the case, but nonetheless blame the polit
Re:I know how NASA could fix the shuttle (Score:2)
Except its "use the heavy lift rockets to put the nuclear power into orbit and then use that to go inter-planetary".
For replacing the shuttle you want to look up the CEV as this will be the main vehicle for crewed missions in the future.
The work on the Shuttle is basically to patch up the old car until the shiny new model arrives from the dealership.
You just don't get it (Score:2, Funny)
Re:I know how NASA could fix the shuttle (Score:4, Insightful)
The Shuttle was totally over sold and under budgeted. For some reasons people seemed to think we could go from the "Spirit of St Louis" to a 747 in one step.
What would a shuttle built today look like using the same specs and the with funding?
1. It would use "green" fuels for the apu and RCS.
2. It would be all electric. No hydraulic system
3. It would use cermets or a metal thermal protection system.
4. Liquid flyback boosters instead of SRBs.
5. Have unmanned mode and maybe even some total unmanned versions with a bigger lift.
The failure of the shuttle program is the lack of learning we are doing from it. A shuttle replacement should have been flying by 1990 or 95. What I hate is it seems like everyone wants to take two steps back or a giant leap forward. Lets make small steady steps forward.
Re:I know how NASA could fix the shuttle (Score:4, Insightful)
NASA's tried to make something of the Shuttle. Unfortunately, during the process of constant compromises to get many missions behind the single transport project, the end product is not good at any job. It is a poor transporter of people, a poor platform for satellite launch/recovery, a poor cargo lifter, and finally a poor platform for deep-space missions.
The Shuttle was a nice try. We can give NASA due credit. But a bad idea is still a BAD IDEA. The Shuttle program should be broken into at least 3 major pieces.
Re:Slightly OT but... (Score:2, Interesting)
Considering some of the better designs needed nearly 4billion to be built, 1.2billion was way too little
Re:Slightly OT but... (Score:2)
The right way to get something like this designed and built is to have one engineer with -vision- draw up ideas and have fresh-thinking young engineers working under him.
Unfortunately, the 'design-by-comittee' idea is huge in our culture, and it stifles a lot of innovation.
I think it's cool to read abou tthe histories of the coolest things in technology and computing, almost all were VERY small groups of people laying down the framew
Re:The new tanks are the old tanks (Score:3, Informative)
"...a polyurethane foam applied with CFC-11 chlorofluorocarbon, was used on domes, ramps and areas where the foam is applied by hand." (Columbia Acident Investigation Report, disk version)
It was the hand-applied foam that came off. Also, the procedure for applying the foam was not modified as it should have been when CFC-11 ceased to be used on most of the tank. Had it been changed, there shouldn't have been a problem.
BTW: Freon is the term for "refrigerant." There are multiple freons.
Hi, Dumbass! (Score:2)
Did you click on the links? Even your vague set of dim sensory apparatuses should have perceived I was joking. I am, in fact, a fairly big fan of NASA.
Welcome to 2005, everyone! Just as fucked in the head as any previous year! :-)