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Science Technology

Second Hypersonic X43 Scramjet Ready for Testing 434

Dan writes "I am sure most of you remember how NASA was forced destroy their first hypersonic X43 seconds in it's maiden flight, which was a big setback for the american hypersonic scramjet program. Well NASA just finished one of the final tests and is preparing to launch it as early as February 21! I wish them the best."
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Second Hypersonic X43 Scramjet Ready for Testing

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  • by account_deleted ( 4530225 ) on Sunday February 01, 2004 @09:53PM (#8155368)
    Comment removed based on user account deletion
  • by erick99 ( 743982 ) <homerun@gmail.com> on Sunday February 01, 2004 @09:56PM (#8155381)
    I have read many times, in many magazines, that scramjet technology is integral to getting something into space without the traditional rocket engine technology. This is a nice development in that direction. I hope the funding for this stays in place. Funny how some truly exciting developments in air/space don't get much mainstream exposure such as CNN, MSNBC, etc.

    Happy Trails,

    Erick

    • ...as a scramjet takes in the oxygen it needs for combustion (whereas solid rocket boosters hold the oxygen as part of their solid fuel). Would they use the scramjet to get to such a high speed (at altitudes where there is still oxygen available) that you break free from the earths gravitational pull?
      • by Johnno74 ( 252399 ) on Sunday February 01, 2004 @10:25PM (#8155536)
        Basically, yes.

        The thing about getting to orbit isn't so much the vertical velocity required, its your horizontal velocity. Rockets going to orbit don't go straight up; if they did they would end up coming straight back down... The trick is getting enough horizontal velocity so that as gravity pulls you down towards the earth you are moving fowards fast enough that you are continually "falling over the edge" of the horizon.

        With a scramjet you only need half the fuel of a traditional rocket, as you burn oxygen from the atmosphere instead of carrying it all with you. Yes, a traditional rocket IS needed to get you out of the atmosphere, but using a scramjet for the initial acceleration would end up saving a lot of fuel, and hence weight.
        • Less than half (Score:5, Insightful)

          by fredmosby ( 545378 ) on Sunday February 01, 2004 @10:38PM (#8155596)
          The liquid fueled rockets that nasa uses today use liquid hydrogen and liquid oxygen in the reaction:

          2 H2 + O2 -> 2 H2O

          Which means that by mass modern rockets use about 8 times as much oxygen as they use hydrogen.
          • Caveat (Score:5, Informative)

            by Anonymous Coward on Sunday February 01, 2004 @11:36PM (#8155921)
            This is only relevant for scramjets that use hydrogen as a fuel. If there were a scramjet which used jet fuel B, then that type of savings would be much smaller.

            However, the X-43A vehicle does indeed use hydrogen for its fuel. (Perhaps for that very reason?)
            • Re:Caveat (Score:4, Informative)

              by tony_gardner ( 533494 ) on Monday February 02, 2004 @05:28AM (#8157025) Homepage
              Not entirely true. Jet fuel b is a hydrocarbon mix of 4-16 carbon atom molecules. For a hydrocarbon with N carbon and 2N+2 Hydrogen, the oxygen required for full combustion is between N and 2N for the carbon and N+1 for the Hydrogen. The ratio of fuel to oxygen mass is between 1:2 and 1:3. Therefore by switching to airbreathing you'll save 60% to 75% on your takeoff weight (on the scramjet stage only of course).
          • by WolfWithoutAClause ( 162946 ) on Monday February 02, 2004 @11:48AM (#8159556) Homepage
            The liquid fueled rockets that nasa uses today use liquid hydrogen and liquid oxygen in the reaction: 2 H2 + O2 -> 2 H2O

            Nope. That's the stochiometric ratio, nothing like that is ever used. Actually it's more like:

            4 H2 + O2 -> 2H20 + 2 H2

            (Actually, it's much messier than that, you really get a bunch of HO's O's H's H2O2's but that's the gist of it).

            The point is rockets run very fuel rich, because that gives a much higher exhaust velocity (the hydrogen has less places to hide energy than complex molecules- you want as much energy as possible to be in kinetic form), the scramjet would do the same thing. So your fuel/oxidiser ratio is way off.

        • by Latent Heat ( 558884 ) on Sunday February 01, 2004 @11:08PM (#8155764)
          There is a great attraction to airbreathing propulsion. Using LH2 and LO2 as fuel and oxidizer, it takes about 85-90 percent of the vehicle mass as fuel to reach orbit on one stage, or a comparable number of stages to fake that mass ratio. This is a consequence of the rocket equation and that the exhaust velocity of a hydrogen-oxygen rocket is small compared to orbital velocity.

          So, why carry the oxygen, why not get oxygen from the air? For LH2-LO2, that eliminates most of the mass and solves the mass fraction problem right away. The 1960's Aerospaceplane project originally considered liquifying the O2 from the air -- careful tweaking can be enriched on LO2 over LN2 on account of boiling point differences. You used (boiled off) some of your LH2 to get the coolant.

          The trouble with LACE (liquid air cycle engine) is that you have to slow down the air rushing into the inlet (or speed it up to your rushing vehicle). If you are going fast enough relative to orbital velocity, slowing the O2 down in the inlet will heat it so much that you cannot burn it with H2 and get any energy -- the stagnation temperature of the shock front gets higher than your flame temperature. Hey, if this were not the case, orbital velocity would be low compared to rocket exhaust velocity and mass fraction would not be a problem.

          Ah, the scramjet, and scramjet was also considered for Aerospaceplane. It is literally the taking a drink from a fire hose. You only slow down the inlet air stream a little bit so you get some compression, and burn H2 in that hypersonic air blast and 1) hope that the flame doesn't blow out and 2) hope that you get any positive net thrust out of the works.

          If you could get any single-stage-to-orbit vehicle built that had reasonable engineering margins, you could fly it like an airplane, and even if it had a very small payload, you could fly it often enough to make a profit. NASA blew a wad in the late 80's, early 90's with National Aero Space Plane (NASP) and pulled the plug. But forget the scramjet -- if you could build a rocket out of composite materials, you could get the mass fraction. NASA blew a wad in the late 90's on the X-33 and then pulled the plug.

          Jerry Pournelle states that the Strategic Defense Office (which needed a way to loft Star Wars into orbit) could have done the job -- the DC-X demonstrated the control of vertical-takeoff vertical-landing (lands tail first on rocket flames just like in Buck Rogers -- maybe not so wasteful of fuel because reentry is mainly aerobraking and landing is to last applying the brakes on a mainly empty vehicle), and he talks about a program called Have Region (don't know the source of Air Force code names, although NASA these days seems to have projects code named Have Boner) that proved that the mass fraction target was achievable and one didn't need scramjets.

        • by nfabl ( 748199 ) on Sunday February 01, 2004 @11:11PM (#8155780)
          ... because scramjets don't work at subsonic speeds, you'd need something BEFORE the scramjets to get to mach, what, 7.

          I'm sorry, i'm not seeing this as a solution to the cost of space travel at all.
          • by tony_gardner ( 533494 ) on Monday February 02, 2004 @05:49AM (#8157068) Homepage
            The current thinking is so:
            Use turbojet stage for takeoff.
            Bring in Ramjet stage at transsonic speeds, transitioning to full ramjet about Mach 1.5 to Mach 2.
            Bring in Scramjet stage from Mach 3-4, transitioning to full scramjet at Mach 5-7.
            Bring in Rocket stage at mach 10-12, transitioning to full rocket at Mach 14-16.

            You see, that it's rare that any single stage is purely one thing or the other. Scramjets are not the solution to space travel. They're one piece of the puzzle. Reducing the cost of flight to space by 5% is something which would still be worthwhile, and airbreathing flight certainly has great promise to do far more than that.

            The problem is that at the moment it's only that: promise. These tests are to see if we can turn promise into reality.
        • "With a scramjet you only need half the fuel of a traditional rocket, as you burn oxygen from the atmosphere instead of carrying it all with you. Yes, a traditional rocket IS needed to get you out of the atmosphere, but using a scramjet for the initial acceleration would end up saving a lot of fuel, and hence weight."

          ....but who cares? Look at the newsgroup sci.space.tech to realise that the weight of the oxidizer (not fuel!) is largely irrelavent. If you put enough crap in to make a engine that can run

          • ....but who cares? Look at the newsgroup sci.space.tech to realise that the weight of the oxidizer (not fuel!) is largely irrelavent. If you put enough crap in to make a engine that can run from the air from a small amount of time (and rockets try to get out of the atmosphere as quickly as possible) then you've just spent a large part of your weight/complexity/management budget on not much.

            That's not entirely correct. The O2 is a third of the mass. Keep in mind that in addition to eliminating the weight of the 02, scramjets push such an amazing amount of air out the back that they are far more efficient than rocket engines.

            The main problem with space launches is the initial climb and acceleration, when you are pushing forward all of the craft's stages and fuel. By eliminating the 02, it translates into vastly, vastly smaller requirements.

            Better to simply make the fuel and oxidizer tanks bigger (because fuel and oxidizer is -so- much a -tiny- part of a launch cost) and stick bigger engines on it.

            Scramjets are far simpler than rocket engines. It would be much cheaper to build boosters that use a scramjet as a first stage as opposed to a rocket engine. The fuel savings, the increased payload, and the cheaper cost all make the scramjet a superior option.
      • here you go....scramjet takes ship up..when the jet ceases combustion, rocket goes off and takes it into orbit.

        the rocket can be small in this case since the scram jet is going fast enough that it could get enough oxygen from the atmosphere at very high altitudes to burn.
  • I'm Glad (Score:5, Funny)

    by rasafras ( 637995 ) <tamas.pha@jhu@edu> on Sunday February 01, 2004 @09:59PM (#8155392) Homepage
    I think scramjets are really the solution to low cost travel, including to low-earth orbit and space. I only hope that travel with scramjets will not end up going the way of the Concorde...

    ...though I bet Bush will fund it so he can land one on an aircraft carrier!! *rimshot*
    • I think scramjets are really the solution to low cost travel, including to low-earth orbit and space. I only hope that travel with scramjets will not end up going the way of the Concorde...

      I saw a thing on the history channel about the development of the jet engine. It took 20 years before jet engine technology was really usable. (The nazis developed the first jet engine.. and it wasn't until the 60s when jet engines started being really used)

      So I'd say the scramjet has room for a few failures.
      • Re:I'm Glad (Score:3, Informative)

        by NixLuver ( 693391 )

        "It took 20 years before jet engine technology was really usable."

        I'm not sure whether you're high, or the History channel. The Messerschmitt 262 [channel4.com] was the first warbird with jet engines, and had it entered the fray just a few months earlier, it might have changed the course of history. The jet engine was eminently useful in that application at that time.

        • Re:I'm Glad (Score:3, Informative)

          by Detritus ( 11846 )
          The Junkers Jumo 004 jet engine used in the Me-262 had an engine life of little more than 10 hours. The main problem was the low quality of the steel that was available to the manufacturer. See here [stormbirds.com] for more details. The engine was marginally acceptable for wartime use.
      • Re:I'm Glad (Score:4, Informative)

        by AJWM ( 19027 ) on Monday February 02, 2004 @12:59AM (#8156303) Homepage
        So what were all those jets flying in the 50s? UFOs?

        Both military and civilian jet aircraft were doing well in the 1950s.

        And as for the Nazis developing the first jet engine, Sir Frank Whittle might have an argument with that. (Although the Germans may have had a jet -powered aircraft in the air first.)
        • And as for the Nazis developing the first jet engine, Sir Frank Whittle might have an argument with that. (Although the Germans may have had a jet -powered aircraft in the air first.)
          IIRC, according to "Inventions that changed the world", Whittle patented his jet engine quite early on (I think before he'd built a working version) which meant that it became public knowledge.
          It's quite possible that the Nazis saw this patent and, of course, probably didn't feel the need to pay any licencing fees for their d
  • Excellent (Score:5, Insightful)

    by Saeed al-Sahaf ( 665390 ) on Sunday February 01, 2004 @09:59PM (#8155393) Homepage
    This is great technology, but remember, it's not for *us*, it's for the military. Faster jets, bigger killing radius, when will this benefit freedom and peace?
    • Re:Excellent (Score:3, Interesting)

      by LWATCDR ( 28044 )
      You are so right just like all the other stuff for the millitary like, jets, helicopters, antibiotics, and high speed computers this will do nothing for us.
      As far as freedom and peace. There are different opinons on that one. While Bush might have acted without just cause in Iraq. I bet that a few Thousand people in Iraq feel a little more free and a little safer with Sadam in prison.
      Say what you like he was a sick and twisted mass murder.
      • Re:Excellent (Score:5, Interesting)

        by Saeed al-Sahaf ( 665390 ) on Sunday February 01, 2004 @10:16PM (#8155492) Homepage
        You are so right just like all the other stuff for the millitary like, jets, helicopters, antibiotics, and high speed computers this will do nothing for us.

        You miss my point. I think it is a great advance. I just wish such advances could be made without the need for a military factor.

        • I just wish such advances could be made without the need for a military factor.

          All the money would be diverted to social programs if there weren't military threats driving the advancement of technology.

          • Re:Excellent (Score:5, Insightful)

            by be-fan ( 61476 ) on Sunday February 01, 2004 @11:43PM (#8155963)
            And therein lies the fundemental weakness of democracy. You can't get people to do whats good for them. The fact that military spending is a big boon for technology is for the precise reason that peoples' irrational fears make it easy to control them. By controlling them, you take the "mob rule" factor out of the equation, and can spend money how you want. Military spending, while a very inefficient way to invest in the future, is one of the few ways to do that within the confines of a democratic framework.
        • Re:Excellent (Score:2, Informative)

          by TykeClone ( 668449 )
          The two biggest drivers for innovation and invention are the military and religion.

          Look at all of the effort people have used to build pyramids and cathedrals - really wonders of their ages - and all in the name of religion.

          Same with the military - People just don't put forth the effort required to make breakthroughs like this without some greater need (national protection or God).
          • Mod parent up. Wish I had said it. Exactly my point.
          • Re:Excellent (Score:5, Informative)

            by Selecter ( 677480 ) on Sunday February 01, 2004 @11:12PM (#8155790)
            Horseshit. Religion in general is the biggest cause of social and mental retardation in history, and more wars and death and killing have been it's result, directly contradicting it's stated goals.

            Humans will not be free until they have stopped being afraid of death and the scare tactics used to control the weak religious minded, such as belief in heaven, hell, judgement day, etc. nothing good will happen. All are used as tools by the Leaders and Pontiffs to keep the masses in line.

            Until the substitution of reason and thought for blind faith happens nothing will ever change.

            But honor the 2 biggest killers of mankind - the military class and religion as advancers of society? Fuck, no. They are the biggest millstones around the human condition.

            • Re:Excellent (Score:5, Insightful)

              by bucky0 ( 229117 ) on Monday February 02, 2004 @12:17AM (#8156123)
              Horseshit. Religion in general is the biggest cause of social and mental retardation in history, and more wars and death and killing have been it's result, directly contradicting it's stated goals.
              I'll give you that Religion has been bastardized by many people to serve their own purposes, but:
              1)It doesn't make 'religion in general' a bad thing. Having a few, or even a majority of people that claim to adhere to a creed screwing up doesn't automagically make the creed stupid.(not believing in religion is, of course something that's too much for a ./ converstation...I'm just stating that people's actions don't invalidate an idea)

              2)It's hardly fair to say that religion has been the largest cause of death and misery across the world for all time. The estimated 72 million executed under Mao Ze Dong's rule, or the > 10 million under Stalin's rule far eclipses the misled people's mistakes during the crusades, etc...(not that it marginalises the stupidity of those actions)

              Humans will not be free until they have stopped being afraid of death and the scare tactics used to control the weak religious minded, such as belief in heaven, hell, judgement day, etc. nothing good will happen. All are used as tools by the Leaders and Pontiffs to keep the masses in line.

              Until the substitution of reason and thought for blind faith happens nothing will ever change.


              There are plenty of normal people who believe in a religion of some form or another who aren't sheep. I happen to follow Christianity, but it doesn't mean when the Pope decrees that condoms are bad I follow along with it. Additionally, what won't change? Regardless of whether there is religion or not, people are still going to starve and be killed. Same goes for whether or not capitalism/communism/dictatorships/democracies/etc ... exists, there are going to be less fortunate people in this world, blaming a belief in a higher power is a bit odd.

              Which leads us to...
              But honor the 2 biggest killers of mankind - the military class and religion as advancers of society? Fuck, no. They are the biggest millstones around the human condition.

              While they may or may not have been the _greatest_ advancers of society, a few technological innovations have sprung out of millitarism, and there are people who have done good things in the name of religion. I would argue that greed is the single largest stumbling point for the human race. It's people's inherant greed which causes them to use anything within their grasp to crush the people around them.

              Maybe it's just me though...
              • Re:Excellent (Score:3, Informative)

                by Catskul ( 323619 ) *
                A few?

                In earlier history, virually the only reason for engineering was for military purposes.

                Military:
                Bronse processes
                Iron processes
                Steal processes
                Basic Physics
                Boats
                Radio Communication advances
                Planes
                Atomic Physics
                Rockets/Space vehicles
                Satalites
                Computers
                The Internet

                Religion:
                Architecture
                Printing Press
                Mathematics
      • Re:Excellent (Score:5, Insightful)

        by Ween ( 13381 ) on Sunday February 01, 2004 @11:01PM (#8155731)
        Wasn't the Internet developed for military use with funding from DARPA (Defense Advanced Research Projects Agency).. hmm yes, I believe it was.
      • Re:Excellent (Score:2, Insightful)

        by magores ( 208594 )
        Say what you like he was a sick and twisted mass murder.

        Sorry to point out your error in "tense", but Bush it STILL a sick and twisted mass murder(er).

    • Re:Excellent (Score:5, Insightful)

      by ImTwoSlick ( 723185 ) on Sunday February 01, 2004 @10:16PM (#8155491)
      This is great technology, but remember, it's not for *us*, it's for the military. Faster jets, bigger killing radius, when will this benefit freedom and peace?

      Oh.... For a second I thought you were talking about airplanes, ships, computers, combustion engines, or encryption. You know, all those things benefiting you that were developed for the evil military.

      Don't forget. That freedom you enjoy wasn't given to you for nothing. Military people are the ones who earned it for you. That's why this new technology IS for us, freedom, and peace.

      • Re:Excellent (Score:3, Insightful)

        by ImTwoSlick ( 723185 )
        Ahem... I think you meant enjoyed. Did you ever hear of the PATRIOT act? The US is losing the "war on terrorism" in 2 ways... you got beaten up on September 11th, and now Ashcroft and company fuck you over some more...

        You know. I'd wager that about 98% of posters that complain about the Patriot Act never bothered to read it themselves. Do yourself a favor, and read it before ranting. You might even learn something.

    • it's not for *us*, it's for the military

      Who exactly do you think "us" is? Perhaps you come from some poor and enslaved country where soldiers are not free citizens, but around here the military is us. Thanks to technology like this we keep our peace, and secure our freedom.
      • And exactly what freedom is that?

        When I lived in Maryland the government there refused to allow me to register as a member of the Libertarian Party for over 20 years. I could not declare what I was politically. That's not the mark of a free country. In a free country, you woulds be able to declare yourself to be what you are.

        In West Virginia, only registered Republicans and Democrats can be poll workers to over see the voting process. Anyone else need not apply. These poeple will soon have electronic vo

      • In the US soldiers forgo the bill of rights.

        In the US soldiers are used in civil matters, e.g. Waco.

        Keeping our peace seems to entail invading other countries.

        Freedom is only measured in the size of your cage.
    • Let's say this allows us to explore more of the universe. If we find a cleaner energy source elsewhere in the universe (like Helium-3, previously mentioned on Slashdot [slashdot.org]), and we can reasonably transport this back to Earth.

      Is that helping us?

      I think so.

    • My Story (Score:5, Interesting)

      by Saeed al-Sahaf ( 665390 ) on Sunday February 01, 2004 @11:02PM (#8155735) Homepage
      I work for the Air Force, everything I do goes into this mad, mad machine. It pays my bills, but in a way it is like a drug. I work with the best technology, but as much as I love the toys, I hate the end. I guess that makes me a whore. I accept it, but I don't like it.
  • Slashdotted (Score:5, Funny)

    by Anonymous Coward on Sunday February 01, 2004 @09:59PM (#8155397)
    Looks like they were forced to destroy their server on its maiden Slashdot voyage.
  • ...as to other's thoughts on a nuclear powered RamJet/ScramJet. Project Pluto wasn't exactly something you'd want flying, but then again it was 1950's technology. What sort of problems do you see with something like GCNR converted for air breathing?

    • the term "nuclear powered RamJet/ScramJet" doesn't really make sense.

      A normal jet engine sucks in air, compresses it with several large turbines, adds fuel and ignites it. In a ramjet the air is compressed by the motion of the engine through the air, think basically a tube that tapers inwards. There are no moving parts, the fowards motion of the unit itself generates the compression.

      Problem is, this doesn't work at supersonic speeds. A scramjet is ramjet shaped to work with supersonic air flowing throu
  • by Rosco P. Coltrane ( 209368 ) on Sunday February 01, 2004 @10:06PM (#8155435)
    I don't know for you, but I find manned high speed flights (X1, X15) much more exciting to witness from a human perspective than those remote-controlled ones. I realize the objective is to test an engine and that there's no need to put a human being in danger to achieve that anymore, but it doesn't produce heroic stories and certainly doesn't make children dream like it used to.

    I find the old crappy 1969 b/w pictures of the first man on the moon much more appealing than the Spirit panoramas, yet the probe went much further than Armstrong, and probably did a lot more science. But still, it's not the same thing, and NASA should send actually people up-diddly-up instead of drones, just because (1) there would be volunteers and (2) they would strike the public's imagination and generate sympathy for that kind of research, which in turn would turn into funding...
    • ...until something goes wrong and we have body parts all over the countryside, coverage of the event by the press, and comments by pundits that say the accident coud have been easily avoided with a drone.
      • by smack_attack ( 171144 ) on Sunday February 01, 2004 @10:25PM (#8155537) Homepage
        Man them with pundits. They we are overstocked here on terra firma anyways.
      • Indeed. A partial solution to that problem is to stop sending school teachers in this sort of high-risk mission. They used to send seasoned high-ranking military officers who volunteered to do that sort of thing before, When one crashed, sure it was a human disaster, but at the same time people understood the guy made the choice of living dangerously as a career.

        Since NASA invented the astronauts, as a group of flyers somewhat distinct from USAF personel, and especially since they started sending civilians
    • I realize the objective is to test an engine and that there's no need to put a human being in danger to achieve that anymore, but it doesn't produce heroic stories and certainly doesn't make children dream like it used to

      I dissagree. Perhaps it doesn't make the uninteligent kids dream like it "used to" but that's of little consequence. I think the smart kids DO get it and are inspired to go into science by those panoramas from Mars. They're the ones who'll go on to develop the next generation of missions
    • by argStyopa ( 232550 ) on Sunday February 01, 2004 @10:31PM (#8155567) Journal
      NASA should send actually people up-diddly-up instead of drones, just because (1) there would be volunteers and (2) they would strike the public's imagination and generate sympathy for that kind of research, which in turn would turn into funding...
      ...until someone inevitably gets blown to smithereens, and then millions of people for whom life itself is too much of a challenge will post on popular internet technology sites about how dangerous it is, how unnecessary the risk, and how that money would be better spent on feeding the hungry here on Planet Earth.
      • It is quite an interesting social characteristic that we have the clarity now more than ever of seeing. I find that our culture is more than willing to throw lives at a problem - whether it be the war on terrorism, drugs, or even war - but not able to comprehend the lose of a few truly brave souls who died for just as worthy a cause.

        Perhaps when enough people have died (sadly), whatever that number is, they will realize the importance.
        Then, maybe then, we'll be able to declare a war on space... :-(
    • by Waffle Iron ( 339739 ) on Sunday February 01, 2004 @10:43PM (#8155624)
      I don't know for you, but I find manned high speed flights (X1, X15) much more exciting to witness from a human perspective than those remote-controlled ones.

      The X-15 pilots were needed mainly because they didn't have good enough automatic control systems. Now that we have them, there's no reason to risk human lives just to tinker with high-speed rocket planes.

      The X-15 had such favorable PR that most people forget that one pilot lost his life when his X-15 spun out of control and disintegrated. IIRC, another barely escaped an explosion of the rocket engine during a ground test, and a third was lucky to survive the last high-speed speed mach-6 test that melted off a good chunk of the plane's tail fins.

      If the failed first X-43 test had been manned, we may have had yet another fallen hero in the quest for knowledge. Luckily, all the incident cost was some time and money. It's nice to have celebrity astronauts and pilots to cheer on, but for these bleeding edge tests it's just not worth the risk if we can accomplish the goals without a pilot.

      IMHO, the bigger letdown is that the space budget is so sapped from needlessly sending people into orbit to float on their butts in a tin can that most other development has slowed to a crawl. For example, hasn't it literally taken them years to put together this second test? Back at the height of the cold war, they would have tried a new flight within a few weeks or months. The same goes for developing a shuttle replacement. 10 years? It didn't take that long from before we had even launched a satellite to having the perfectly capable manned Gemini capsules in orbit. Ironically, NASA's need to devote huge resources to keeping faces on the news today continues to delay the date that space travel will be commonplace.

      • The X-15 pilots were needed mainly because they didn't have good enough automatic control systems. Now that we have them, there's no reason to risk human lives just to tinker with high-speed rocket planes.

        I think this automatic control system [nasa.gov] is very close to being perfect AI. It's doing a great job of impersonating a pilot that's had a 3 beer lunch.
    • by Honor ( 695145 ) on Sunday February 01, 2004 @10:43PM (#8155634)
      While your points are very true, there is a flaw in your outlook on this. The point of remote testing the scramjet is to ensure it is safe for humans to take it up and out - would you really risk someone's life just to "strike the public's imagination and generate sympathy"?

      I can see where a human flight would create these things. But i personally consider it worth even a single person's life to remote test these things for safety. Once they are tested by remote, then humans can fly them too! and no one will die.

      The same results (getting public attention and getting money) would be achieved by a successful man(or woman)-powered flight. While a death on a maiden flight often provokes sympathy, it is short lived. A successful flight, one achieved after the testing, createds longer lasting funding and interest. For instance, you recall the "old crappy 1969 b/w pictures of the first man on the moon". when asked about spaceflight this is what most people will recall - not the challenger blowing up. the man on the moon is our inspiration.

      Therefore, to get to the point, if we can use a scramjet to do something awe-inspiring, like going higher cheaper than ever before and perhaps leading the way to cheap earth-to-space travel. sometimes safe isn't always exciting at first, but the end results are always the most spectacular.

  • by AJWM ( 19027 ) on Sunday February 01, 2004 @10:12PM (#8155459) Homepage
    For the several earlier posters who seem to think that this is the Holy Grail of Earth-to-orbit transportation -- well, maybe they're right in that it's about equally unattainable. Rockets work a hell of a lot better - as has been demonstrated by almost 47 years of orbital flight.

    Any airbreathing technology suffers a couple of fundamental flaws when it comes to suborbital, let alone orbital, transport. Most obvious, the air is mighty thin up there -- so you've got to stay where the air is thicker to support combustion. (Which basically means you can't make orbit with out at least some kind of apogee kick rocket).

    Secondly, pushing through all that air creates drag. Now, you either aggravate the problem by slowing the relative airspeed enough to support combustion -- meaning increasing the drag on that air (supersonic combustion alleviates this somewhat), or you don't slow it down (relatively, actually you're speeding the air up), have a harder time maintaining combustion, and more significantly, have a much lower momentum delta in the exhaust -- meaning less push to the vehicle.

    Scramjets have some limited use for high speed short range flight but rockets are far more efficient and the only practical way to get to orbit.

    (And while I may not be a rocket scientist, I've had long talks about just this with some very expert rocket scientists, such as Max Hunter.)

    • by fnord123 ( 748158 ) on Sunday February 01, 2004 @10:22PM (#8155521)
      A very large portion of the overall mass (and price) of current space transport is just the fuel to get out of the atmosphere. A scramjet could be used as part of a reusable ground -> high atmosphere lift system, where a separable high atmoshphere -> orbit/the moon/whatever system could detach and proceed from there.
      • Do the math.

        Fuel is cheap. With a rocket, all the energy you put into lifting and accelerating that fuel you gain back when you burn it.

        Burning air (as a scramjet) means (a) you're handling 400% more mass than you need to (the nitrogen) and (b) unless you add energy to it to accelerate it, you don't get as much momentum kick when you burn it.

        You'll note that they accelerate the damn test article with a rocket.
        • Fuel is cheap. With a rocket, all the energy you put into lifting and accelerating that fuel you gain back when you burn it.

          Sure, the fuel has a positive ROI on its energy budget--but that's not the whole story. You also have to lift the tanks, insulation, and pumps.

          You'll note that they accelerate the damn test article with a rocket.

          Why is this a strike against scramjets? By definition, they only operate at supersonic speeds. If you're trying to prove the concept there's only a limited number of w

    • But they will get you through the most energy demanding part of the trip without having to carry the oxygen. It is as you observed though, to get "into orbit" a hypersonic space plane will need one final kick from a rocket carrying it's own oxygen. This is a far cry from the massive quantities of oxidizers currently carried to launch the shuttles, both in thier liquid fuel and mixed as a solid in the external boosters.
    • by DynaSoar ( 714234 ) on Sunday February 01, 2004 @10:38PM (#8155597) Journal
      AJWM (19027) sez: "For the several earlier posters who seem to think that this is the Holy Grail of Earth-to-orbit transportation -- well, maybe they're right in that it's about equally unattainable. Rockets work a hell of a lot better - as has been demonstrated by almost 47 years of orbital flight."

      Rockets only work better if you consider the mechanical efficiency. If you throw cost into the deal, rockets fall apart. They're disposable for the most part.

      A hypersonic air breathing first stage could carry a self-contained second stage to a speed and altitude that would make reaching orbit much easier, and do it far cheaper than can be done now.

      The cheapest single disposable booster space shot so far was the Pegasus XL, for $13.5M. The estimate for the (cancelled) X-34 was $4M.

      Interesting reading on the subject; Buzz Aldrin's patent for vertical launch flyback booster with orbital second stage: http://tinyurl.com/394qq

      • You went through all the trouble to get a tinyurl, why not just make a damn clickable link [uspto.gov]?
      • Rockets only work better if you consider the mechanical efficiency.

        Thank you, at least somebody recognizes that.

        If you throw cost into the deal, rockets fall apart. They're disposable for the most part.

        They don't have to be disposable. The X-15 was a fine example of a reusable rocket -- 199 flights for the 3 vehicles, several of them high enough to earn the pilots their astronaut wings. That was 40-50 year old technology. The DC-X was a great example of a reusable rocket that could take off from t
    • Secondly, pushing through all that air creates drag.

      Scramjets don't push through the air. They suck it in for combustion.

      Scramjets have some limited use for high speed short range flight but rockets are far more efficient and the only practical way to get to orbit.

      Horses were still the only practical means of getting around when the first steam engines were being developed. Times change. Technology improves. Chemical fuel rockets will one day be considered as archaic as steam engines.

      • Scramjets don't push through the air. They suck it in for combustion.

        ROFL!

        That is just wrong on so many levels. You do realize, don't you, that it is impossible to suck air to a speed greater than Mach 1? (Well, unless you're sucking it into a huge vacuum chamber through a DeLaval nozzle, but only until the pressures equalize, and then only in the divergent section of the nozzle.)

        Chemical fuel rockets will one day be considered as archaic as steam engines.

        We all look forward to that day -- but air-
    • by m00nun1t ( 588082 ) on Sunday February 01, 2004 @11:52PM (#8156011) Homepage
      Other things scientists said were unattainable/impossible:

      - Proving the earth wasn't the centre of the universe
      - Moving faster than a horse
      - Flying
      - Man landing on the moon
      - Most likely, rub sticks together to start fire

      If people listened to every expert who said something is impossible we'd still be in caves.
  • maybe one day (Score:5, Insightful)

    by plnrtrvlr ( 557800 ) on Sunday February 01, 2004 @10:12PM (#8155463)
    this will be THE means to get to a station in Earth orbit, and from there, nuclear rockets out into the farther reaches of the solar system. I'd love to see colonies on Mars as much as the next geek, but until we get it through our heads that we need to have stepping stones along the way, we aren't going to be successful. It is simply too damn expensive to develop an entirely new system for every "space objective". We need a new way into Earth orbit... and a space station whose primary objective is to be a way station where deep space nuclear propulsion systems can launch for the rest of the solar system without contaminating the environment here on earth. Maybe someday materials science will make possible the space elevator (and it may be closer than I think, but until they're spinning line, I'm not counting on it....) but until then, we need a different solution beyond out brute force approach. This could be the technology that opens up just these sorts of possibilities.
    • Personally, I am in hopes that they delay the nuclear rockets for quite some time and decide that return trips are not going to happen for sime time. We just need to make it a one-way trip for a few crews and then develop the nuclear rockets.
  • Is it worth it? (Score:5, Insightful)

    by El Volio ( 40489 ) on Sunday February 01, 2004 @10:14PM (#8155476) Homepage
    Scramjets combust the air at supersonic velocities rather than diffusing it prior to combustion the way most other engines in supersonic vehicles do. There's a lot of promise here. But in a society that can't make the Concorde profitable, will it be worth it in the end? I'd love to be able to fly to the other side of the world in something less than 24 hours. The economics of the situation seem to be against us, though.
    • Re:Is it worth it? (Score:3, Insightful)

      by interiot ( 50685 )
      It's hard to talk economics regarding space at the moment. With the Concode, there were many existing competing alternatives, and air travel is much closer to a commidty than space travel is.

      Wheras with space vehicles... if someone wants to get something into space or do something in space, they have anywhere from zero to two options. Also, we don't yet know how economical space travel will eventually become because we haven't had as much time to develop it. And in the meantime, we have mainly governm

    • This isn't about passenger travel. Or about space travel. It's about being able to put large bombs anywhere in the world in a short amount of time.
  • by odeee ( 741339 ) on Sunday February 01, 2004 @10:19PM (#8155504)
    Been there done that. [newscientist.com]
    • from that article:

      The US Defense Advanced Research Projects Agency performed the first successful ignition of a scramjet engine during a ground-based test in September 2001. This involved using a gun to fire the engine to a speed above Mach 5.

  • red rocket, Red Rocket, RED ROCKET, Red Rocket!!!
  • Do the brits have hypersonic buses???

    When you do a google search about "X43" [google.com], although you get a page in the "Science > Technology > Space > Launch Vehicles" category [google.com], the first result is about the bus service between Calne and Marlborough [carlberry.co.uk].

  • Star Wars.. (Score:4, Funny)

    by euxneks ( 516538 ) on Sunday February 01, 2004 @11:34PM (#8155915)
    Does anyone else think that the X43 looks like a death star? Am I going crazy or have I been hanging around the Comp Sci labs too much?
  • scramjet ignition (Score:4, Informative)

    by tdwebste ( 747947 ) on Monday February 02, 2004 @12:55AM (#8156285) Journal

    Scramjet technology began around the 1950's. It has been since the 1970's research in to plasma torches in supersonic flows. The plasma torch servers as an igniter and combustion enhancer. Plasma torches offer a couple of advanrages. The plasma torch servers as an ignition source for the fuel and combustion enhancing radicals produced by the plasma torch.

    Scramjets also use the hypersonic shock wave for compression. A high compression "point" is where the forebody and engine fence shock waves cross. One of the problems faced it is how to design the inlets to maximise the compression. To keep things simple many scramjet engines are designed as 2D engines.

    Designs my attempt to use air stream swirl to enhance fuel and oxidizing air mixing.

    For more details please see http://citeseer.nj.nec.com/cache/papers/cs/3623/ft p:zSzzSztechreports.larc.nasa.govzSzpubzSztechrepo rtszSzlarczSz1998zSzaiaazSzNASA-aiaa-98-2506.pdf/r ogers98experimental.pdf

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