NASA's Michael Griffin Interviewed

richvan writes "NASA administrator Michael Griffin was recently interviewed by the Orlando Sentinel about his first nine months on the job. He covers topics such as foam, Challenger, Mars, the budget, the astronaut corps and intelligent design. Describing the reasons for the foam loss, he states 'Cycling of the tanks with cryogenic propellants - in fact, [super-cold] liquid hydrogen, because we don't see this problem with liquid oxygen - causes or exacerbates voids in the bond between the foam insulation and the tank and produces cracks in the foam. If and when those cracks propagate to the surface, with a crack connecting a void to the surface, then you have a mechanism for cryopumping. When the tank is cold, air is ingested. It liquefies and goes into the voids. Then as the tank empties and the [air] warms up and evaporates, the resulting pressure blows the foam off.'"

What the hell is this

[FireballX301]

How, exactly, to you go from discussing the technical aspect of space fuel tank construction, to starting a debate on friggin intelligent design?

Orlando Sentinel = troll.

Re:What the hell is this

[vertinox]

Believe it or not, some people like to talk about God, err, Intelligent Design, whatever you wanna call it.

Apparently, Griffin does not.

FTFA:

Griffin: NASA as an agency and I as its administrator should be mindful of the specific instructions we receive from the president and the Congress. That is what we do. If I obey my instructions from the Congress and follow the law, then I've done my job. When I was very young, I was told that a gentleman never engages in public discussions of politics, sex and religion. And I think I'll stay with that advice and not go beyond where I was, which is: my objective as administrator is to carry out the instructions I'm given by our elected representatives on behalf of the American people. The American people have very diverse views on politics, sex and religion and I believe I should leave them to it.

He says intelligent design is a myth!

...in the case of the shuttle.

Hubble mission still a possiblity!

[alanh]

Orlando Sentinel: Whats the status of a Hubble [Space Telescope] servicing mission on the shuttle?

Griffin: If the shuttle performs as we expect in May, we will have the data that we need to go forward now with completion of the station. And as Ive said, if all that turns out positively, we will do a Hubble mission.

From my perspective, this is possibly the best news here. Hubble actually generates science whereas the ISS seems to do less interesting things.

Re:Hubble mission still a possiblity!

[helioquake]

The ISS cannot do anything until the station is staffed with adequate number of astroengineers and researchers.

To make that happen, it has to have a capacity of evacuating the entire staff in case of emergency.

To make that happen, it has to have a vehicle(s) capable of carrying back 10+ humans to the Earth. Also it requires more ports to hitch vehicles.

Since we have no vehicle capable of doing such in a foreseeable future, you can imagine the fate of the ISS in the next decade or so.

Re:Hubble mission still a possiblity!

[mbrother]

No you don't. We've already got a "replacement" scheduled to go up (although it will be better in some ways, it won't duplicate everything Hubble can do). The thing is, the replacement, the James Webb Telescope, won't go up before 2012, and Hubble is the only available optical space telescope until then. Let it die, you lose optical space-based observations until 2012 at the earliest.

There's zero chance to build and launch a duplicate Hubble on the timescale of a repair mission plus a few years.

Re:Hubble mission still a possiblity!

[alanh]

And even then, the James Webb is optimized for IR observations and doesn't completely overlap the observable spectrum available on the Hubble, which include UV. The two compliment each other.

From the James Web Space Telescope site What kind of detectors will JWST have?
JWST will have two types of detectors: visible and near-infrared arrays with 2,048 x 2,048 pixels, and mid-infrared arrays with about 1,024 x 1,024 pixels

From The Advanced Camera for Surveys site: It consists of three electronic cameras and a complement of filters and dispersers that detect light from the ultraviolet to the near infrared (1200 - 10,000 angstroms).

Now that's hostile

[AKAImBatman]

Q: What about the foam.
A: We'll see how the changes work.
Q: But what if there's more foam.
A: That would be bad and we'll have to figure it out.
Q: But what if the foam destroys the space program!
A: I don't want to talk about it.
Q: But what about THE FOAM?!
A: NNNNgggghhhh....
Q: What if the foam makes another Challenger happen?
A: The Challenger was a sad accident.
Q: How do you think you've changed things? (Like with the foam?)
A: NNNNnnnnnggghhh!
Q: Do you think foam is intelligently designed?

That pretty much sums it up.

Re:Now that's hostile

[AKAImBatman]

Hold still, I think you've got a little foam on you...

Re:Now that's hostile

[CruddyBuddy]

Foam caused the Columbia to become damaged, and subsequently be destroyed on re-rentry.

A bad seal cause the Challenger to explode.

Get your disasters right! (granted we have too many to choose from...)

Re:Now that's hostile

[CruddyBuddy]

Okay, if you want to be really picky...

The external tank violently disassembled causing the orbiter, Challenger, to likewise be disassembled. (The big fireball confused a lot of people.)

While being too close to an IED doesn't mean you exploded, you might as well have, especially if you have been reduced to red mist.

The primary cause of the confusion seems to be that so many (even some folks here at /.) do not differentiate between Challenger, the orbiter, and Challenger, the mission. The entire stack is commonly refered to as Challenger, or just "the shuttle", not the "orbiter, ET and SRB's".

Example: "the shuttle lifted off". What exactly are you calling "the shuttle"? Is it just the orbiter, or is it the entire stack or launch system?

It sort of like pointing to the monitor, and calling it the computer. It is only one component of the system, but a most visible and identifyable component. It's the part everyone can identify. And so, almost everyone I work with points to the monitor, and says "computer". Nevermind that there is a lot more there that they don't want to be confused by.

Tempurpedic Foam?

[dotslashdot]

Maybe they should use Tempurpedic mattress foam. Instead of damaging the shuttle, it would just conform to the shape of the portion it struck, resulting in a night of wonderful sleep for all of Mission Command.

Duct Tape

[Bananaas]

If and when those cracks propagate to the surface, with a crack connecting a void to the surface, then you have a mechanism for cryopumping. When the tank is cold, air is ingested. It liquefies and goes into the voids. Then as the tank empties and the [air] warms up and evaporates, the resulting pressure blows the foam off.

How about this idea... DUCT TAPE! It might also solve that so-called heat tile problem...

Fix foam again? Start anew?

I followed the documentary some time ago as they outlined the new procedures in applying the foam since the Columbia disaster in 2003. I witnessed as they applied new layering techniques for the foam and implemented space walk tile recovery and repair technologies. Quite frankly, I wasn't convinced then and am even more skeptical now with foam separations occurring from recent launches.

Has anyone heard or read of any new technologies to replace the current foam application completely? Does anyone have any percentage or statistical data illustrating the success to failure ratio of past Shuttle deployments to (say) Saturn rockets (or past similar systems)? It would be a nice graph comparing the ~20 years of shuttle incident vs. ~20 years of Saturn incidents (or similar). Surely, those studies have occurred somewhere.

Re:Fix foam again? Start anew?

[kfg]

20 years of Saturn incidents

There were no operational failures. How's that for a quick statistical comparison?

KFG

Re:Fix foam again? Start anew?

[AKAImBatman]

There were no operational failures. How's that for a quick statistical comparison?

There were also only 13 flights. The Space Shuttle also experienced zero operational failures within the first 13 flights. (It was the 25th flight, I believe, when the Challenger was lost.)

I'm not really saying that the Saturn V would have seen as much failure (it certainly wasn't as sophisticated of a design as the Space Shuttle), but it certainly wasn't flown for as long or as often. If you take the Apollo capsules into account as part of the complete space vehicle, it actually has a much poorer track record.

The truth is that the Space Shuttle is a marvel of engineering. The problem is that it was supposed to be a very focused piece of equipment (a shuttle to get people up and down) and ended up having to fill the jack-of-all-trades, master-of-none role. Thanks Nixon.

Re:Fix foam again? Start anew?

[Moofie]

"The truth is that the Space Shuttle is a marvel of engineering"

I think the Space Shuttle is a marvel of Congressional pork barreling, Air Force mission creep, barely held together by the heroic efforts of some sharp engineers, working under hostile management.

Marvel of how not to do engineering if you ask me.

Re:Fix foam again? Start anew?

[cyclone96]

Engineers salaries:management salaries is probably higher on NASA programs than about anywhere.

While working level engineers who work directly for NASA are paid fairly competitively, government rules cap salaries of management. Everything is defined by the federal payscales, available here

An engineer with 10 years of experience is typically a GS-13. In Houston, for example, he's making somewhere around $90,000/year. His immediate manager is probably a GS-14 making around $105k, and that guy's boss is probably a GS-15 who makes around $130k. The numbers vary depending on years in service. Most astronauts are falling into these ranges as well.

Griffin, as the head of NASA, is paid on the SES (Senior Executive Service) scale, which caps out at $162,000. That's here.

Contractor management is a little better (the CEOs of the likes of Boeing and Lockheed can pull in over $10 million annually with bonuses and stock), but it's very unusual to run into a NASA contractor (manager or otherwise) making more than $200,000/year.

Re:Fix foam again? Start anew?

[DerekLyons]

In other words, contrary to popular belief, the difference in reliability between Shuttle and 'more traditional rockets' is insignificant."

The difference is, when a shuttle launch is 'unreliable', you lose an irreplaceable multi-billion dollar spacecraft and kill the crew...

Only in some fantasy world where every 'unreliable' launch ends in complete vehicle failure. Here in the real world, we've already had two launch failures - one destroyed the vehicle, and the other resulted in an Abort-to-Orbit. (The resulting orbit was too low for the payload, so they landed and flew it again later.) Yes, there are scenarios that lead to a complete LOCV or LOV - but there are also many more that lead to a crew and craft standing on Terra Firma making brave statements at the press conference after.

when, say, a Soyuz launch is 'unreliable', you lose a launcher that you were going to throw away anyway, and the crew get an exciting ride.

In a universe where the Soyuz was (unlike everything else) perfect, and everything else imperfect - that would be true. Here in the real world where the Soyuz emergency escape system performed marginally the one time it was used, and where Soyuz seems to have an ongoing problem with automatic sequences... I'd suspect it's not true.

Soyuz has had two launch accidents - in the first (a fire on the pad) the was not engaged, which meant the crew had to beg the ground to activate it - which they finally did with less than a second between activation and the launch vehicle exploding. In the second, the first stage failed to seperate - and again, the automatic system failed, requiring manual intervention, and again - almost too late.

Heck, if I remember correctly one Soyuz even survived entering the atmosphere backwards: try that with a shuttle and see how far you get.

You don't remember correctly.

Let's see - Soyuz re-entry accidents; six that I can think of offhand, two of which were fatal - and the remaining four only missed being so by sheer luck. (Out of 87 flights, and not mentioning at least five landing accidents.) Shuttle - one reentry accident, fatal. (Out of 114 flights, with only one landing accident.)

Which vehicle has the worse record? The bald fact is that Soyuz, in 87 flights, has racked up a worse record in every single category you can name when you compare it to the Shuttle's record in 114 flights.

Old freon based foam was best.

[HornWumpus]

IIRC there were no foam related failures untill they removed freon from the process.

I propose giving the EPA the finger and using the really old un-PC foam process until a suitable replacement has been built and tested.

Re:Old freon based foam was best.

[ferrety]

You could not be more wrong.

The foam had been causing problems since mid eighties.

The NASA was given exempt on the freon ban (of 1997?), and even thought they did change the formula, the pieces of foam believed to have caused the Columbia disaster were using the old formula (with freon).

Thermal Cycling of Liquified Air

[CruddyBuddy]

Let me see if I have this right...

A micro crack occurs.
Atmosphere fills the voids.
The atmosphere liquifies inside the voids.
When the LH is removed, the liquified atmospheric gases are returned to gaseous form.
The change in pressure blows out the foam from the inside, because the liquid air is gasified within the foam crack and has nowhere to go.

Result: sporatic delamination.

Where I come from we have to deal with this all the time. They are called pot-holes!

New Foam Idea

[Billy+the+Mountain]

Hey, I know, put the foam insulation on the inside.

BTM

Re:New Foam Idea

[microarray]

Good one, but someone beat you to it.
http://www.cnn.com/2003/TECH/space/11/25/sprj.colu .shuttle.fix.ap/

Re:New Foam Idea

[Syberghost]

Insulation on the inside means you have to make the tank larger to hold more fuel.

Larger tank means more metal. More metal means more weight. More weight means more fuel. More fuel means more cold. Tricky balance there. Remember, this is the tank where they stopped painting the foam because the paint added too much weight.

Also, it'll be hard to find a porous material that doesn't absorb hydrogen, the smallest atoms in existence.

What about Propellant Cycling ?

[DumbSwede]

It wasn't mentioned, but does the cycling of propellants due to aborted launch attempts add significant additional strain to the foam?

Were there any launch aborts before the final Columbia mission?

Look at his credentials

[chickenmonger]

http://www.nasa.gov/about/highlights/griffin_bio.h tml

He's not only the author of the book I'm currently using for my undergraduate Spacecraft Systems course, but he's also got way more degrees than anyone should have. From the bio:

"Griffin received a bachelor's degree in Physics from Johns Hopkins University; a master's degree in Aerospace Science from Catholic University of America; a Ph.D. in Aerospace Engineering from the University of Maryland; a master's degree in Electrical Engineering from the University of Southern California; a master's degree in Applied Physics from Johns Hopkins University; a master's degree in Business Administration from Loyola College; and a master's degree in Civil Engineering from George Washington University."

I still wouldn't say he's overqualified for the job. The NASA admin -should- be one of the country's smart people.

Re:Look at his credentials

[diegocgteleline.es]

Shame that you don't require the same for presidents and congressmen! (Patriot Act, DRM, software patents, Iraq, Lewinsky)

Re:Look at his credentials

The NASA admin -should- be one of the country's smart people

Just because someone received a bachelor's degree in Physics from Johns Hopkins University; a master's degree in Aerospace Science from Catholic University of America; a Ph.D. in Aerospace Engineering from the University of Maryland; a master's degree in Electrical Engineering from the University of Southern California; a master's degree in Applied Physics from Johns Hopkins University; a master's degree in Business Administration from Loyola College; and a master's degree in Civil Engineering from George Washington University, doesn't mean they're smart.

Re:Look at his credentials

[crawling_chaos]

What posesses a guy to get that many degrees and certifications?

He realized that staying in school beats the hell out of the "real world?" Which definitely makes him smarter than you or me!

Now back to those damn TPS reports...

No shit.

[s20451]

Recently, he said that the shuttle and ISS were mistakes, and that the trick will be to re-make the space program without causing too much damage (like irritating the ISS partner nations).

13 Years to go the Moon?!?

[iamlucky13]

It really bugs me when people complain about how the first time we went to the moon it took less than 10 years from Kennedy's speech and now it takes us 13 years, or worse, that it's taking us half a century to return to the moon. Well read his answer and shutup!

People keep asking me 'Why are you taking until 2018 or whatever it takes us to get back to the moon when we did it in eight years the first time?' The reason is that we're not being given the kind of money necessary to do that in eight years, but we are being given the kind of money necessary to do that in 12, 13, 14 years.

What about using a net?

[ChrisA90278]

Seems to me one wway to prevent the foam from faling off in chunks is to embed a net over the foam. Make a fishnet out of Kevlar or Spectra fiber. Put the net over the foam. These fibers are strong. in the worst case the foam still comes off but not after being forced through the holes in the net and in the process being cut into many very small pieces. These fibers are stronger then stainless steel of the same size and much lighter. Of couse the other option is to re-design the tank so that the insilation is _inside_ the aluminum skin but then that adds weight

Re:Lets translate some of this

[Rei]

If you didn't understand that, you need to go back to middle school. What word in there didn't you understand? Exacerbates? Propagates? Cryopumping (if you know what "cryo" means, you know what cryopumping means)?

It's not like he said something like "The K5NA on the ET is an effective TPS, but near the aft IEAs and the PIC it has a tendancy to experience explosive gassification..."

Re:Michael Griffin lies through his teeth

[Savantissimo]

"Griffin may have an engineering degree..."

Three, actually, plus Physics, Applied Physics, Aerospace Science and an MBA, just for the hell of it.

"...but he's a cold-hearted politician."

And if he weren't, and didn't deal with the organizational and political situation as it is and triage NASA priorities, NASA would actually achieve less. If he were king and could do anything he wanted and had an unlimited budget, then yeah, you'd be right, but the fact is NASA does not turn on a dime, in fact it is a deeply screwed up organization.

Technically, he needs to be more cold-hearted and admit that manned space exploration demands expecting and bugeting for astronaut deaths and not trying to make everything perfectly safe. Treat astronauts as hundred-million dollar pieces of equipment for purposes of deciding how much to spend in paperwork and engineering on extra safety. The politics is totally on the soft-hearted side on this issue. Over 5,000 miners died in China last year -- how many of those to feed factories that make stuff we buy but don't even need? Big projects that push the limits of the species always cost lives, and not that many by conparison.

Another issue on which M.G. could do some good is: costing out the opportunity costs of not having rapid development cycles in launch vehicles and associated systems. This is where the waste is. The failure to take risks, to have multiple production craft, to have a development pipeline of craft that will have a good chance of actually getting built, to change the insanely expensive way things are currently done in contracting and to set rapidly improving $/kg/reliability targets are the reasons why NASA has made essentially no progress in Earth to orbit capability in forty years.

For the $600,000,000+ that it costs to lauch the Shuttle once, a lean private firm could create a fully realized new launch vehicle, and with a few iterations it would be intrinsically safer than anything built with the traditional approach of attempting to manage rather than engineer risks away. Once the price to orbit comes down, the payloads become much cheaper, too, the demand goes up, expanding the industry, thus leading to far more science payloads.

The problem is, with limited resources and with the Shuttle still eating cash, to achieve long-term goals some stuff has to go now and that is going to be painful for the people affected, butiven the situation as it is, I don't think anyone else could do more than Michael Griffin to get maximum NASA improvement.

Major NASA cock up

[Oldsmobile]

My impression on the text is, that the shuttle (and thus the ISS) is bleeding NASA dry. They should logically cut and run as far as the shuttle goes, but then they lose the ISS which they have spent alot of money on.

This could of course happen anyway, if the economy crashes and there is more war and NASA gets slashed, but even so, science and the other stuff that is really very good and cost-effective, like space probes, hubble and satellites will get less money.

I still think exploring other ways of saving the ISS should be explored, though I'm not sure its possible. The Russians do have a heavy lift rocket, it might be possible to use that and would save money, for sure.

I say NASA has painted itself into a corner with the shuttle, the reason being lack of vision and the inability to stop using the shuttle when they should have.

Translation

[hey!]

Sentinel: Care to piss on the third rail?

Griffin: No thank you.