Re: Ares vs DIRECT
- From: kT <cosmic@xxxxxxxxxxxx>
- Date: Sun, 09 Dec 2007 18:58:17 -0600
Einar wrote:
On Dec 9, 6:56 pm, kT <cos...@xxxxxxxxxxxx> wrote:Einar wrote:On Dec 8, 8:11 pm, kT <cos...@xxxxxxxxxxxx> wrote:I think of it more as a challenge. The harder part is designing them toEinar wrote:Personally have nothing against LOX and liquid hydrogen combinations.On Dec 8, 7:29 pm, kT <cos...@xxxxxxxxxxxx> wrote:In other words, you want me to debate applied mathematics, engineeringEinar wrote:What has size anything to do with it? Complexity I think actually isOn Dec 8, 5:39 pm, kT <cos...@xxxxxxxxxxxx> wrote:Systems of this size and complexity cannot be incrementally engineered,Einar wrote:That is an overstatement. What people do is that they create a newOn Dec 8, 5:13 pm, kT <cos...@xxxxxxxxxxxx> wrote:If we follow your logic to its inevitable conclusion, we'd be flying theEinar wrote:<material not relevant to the point I´m discussing snipped>The idea you people are pushing appears to the standpoint of a pureIt uses SRBs, and it uses engines that are already in use on launchers
know very litle to be very sensible, if it´s really true that all this
extant infrastructure can be reused. Building a new one, and really
two new ones must alone cost a bundle and then some.
that already exist and have been flying for some time now. That makes
the Direct proposals distinctly irrational.
Eeer...now I´m not an engineer or anything engineer related at all,
but even so that sounds bit weird. I would have expected the exact
opposite argument, i.e. that flying with existing hardware is a good
thing, as after all it´s tried and tested, which in other areas of
endevour, say involving earoplanes, is seen as a good thing.
shuttle and the EELVs. Hey, we are flying the shuttle and the EELVs!
veicle, which contains a number of old systems, yet also contains
enough new things to be an advance on the previous veicle. This kind
of incremental development was very common within the aeroindustry
during the interwar years, i.e. between WW1 and WW2.
A very logical move, as it sounds to me knowing mostly about how theThe rule of a thumb being, the less new stuff you are using whenThe ET (more precisely, the foam insulation) and the SRBs are the bad
developing a new veicle of any kind, whicever what kind, it costs less
money to develope and the risks of costs overrun are minimized. Now,
this is a rule of a thumb I have read about from quite a varied
sources, to name an example the US army was once developing a super
duper heavy tank in cooperation with what was then called V-Germany.
After series of cost overruns, the whole thing was cancelled by the US
Congress and the M1 Abrahams developed instead, as a less complex and
less risky alternative, using fewer new expensive to develope new
technologies.
parts of the shuttle, those are the parts we want to get rid of.
Direct proposes not only to get rid of them, but to build an entirely
new heavy lift launcher that uses them. It's Ares I and V regurgitated.
aeroindustry used to do things, during older times. Incremental
development, meant f.e. that a new airframe often used systems and
technologies from the previous airframe. Then, incremental development
continued, next time over some of the systems were replased yet the
same airframe kept.
except for the easy stuff, like the avionics and engines, for instance.
That was what the shuttle upgrade program was all about. Direct is just
more of the same only different, and we have plenty of the same already.
an argument for incremental change, as it´s very complex and expensive
to fully engineer a wholly new very complex systems from nothing, not
using any part of the old.
Greater complexity means the risks in designing a wholly new system
are even greater, because the numbers of unknowns are larger.
and physics with the confessed uninformed.
Hence my design : the Delta V. Size really doesn't matter, because weA smaller veicle, I understand. Moreoever, it doesn´t utilize theI suggest something similar. Direct essentially appears to me to beThe Direct ET is an entirely new system, there is nothing old about it.
comparable to making a new airframe, while using as many of the old
systems as practical. A comparable philosophy. Then, gradually the old
systems can be replased over time. Then perhaps, some day, another
veicle will be built using many of those systems and then so on.
We have a vehicle that flying the RS-68 just fine - the Delta IV Medium.
engineering facilities I´m sure that are a political necessity to
continue to use, if political support is to be found for the program.
can ill afford another Apollo style moon program, and people are finally
realizing what we've knows all along, even the VSE destination is wrong.
It's the liquids that count. Liquid fuels, get it? Cryogenic fuels, ok?
Different fuels offer different combinations of compromizes in the
design.
Isn´t that a rather more difficul task, i.e. to design a single stageRemember, we are also dealing here with the precense of pork/barrel.No, physics is the operational circumstance.
That´s part of the operational circumstances.
The proposal may be the least bad thing it´s possible to do with theIf it involves inline SRBs, and upper stages that don't reach orbit,
reources of Nasa given the current political reality within the USA.
it's the most bad thing.
So in your world, the upper stages don't reach orbit, right?Actually, the third stage is grudging acceptance, only over time doesThere isn't much to comment about on these kinds of papers I write.Well, more knowledgeable people about engineering, feel free toSo I must respectfully disagree.Thus, the problem remains. The only part of the shuttle worth saving,
the premier component of the shuttles, with hundreds of equivalent
engine flights remaining, are the space shuttle main engines - SSMEs.
http://webpages.charter.net/tsiolkovsky/proposal/IPO.doc
You could try to educate yourself.
comment.
This is the point at which these things become self evident.
All truth passes through three stages. First, it is ridiculed. Second,
it is violently opposed. Third, it is accepted as being self-evident.
Arthur Schopenhauer (1788 - 1860)
an accepted theory come to be seen to be self evidently true as
additional support continues to be found.
Today plate tectonics are very much generally accepted, yet it took a
long time of painstaking research to find all the evidence which today
makes that theory appear self evidently true.
In my world, even the first stages reach orbit.
capable of going the whole way to orbit?
be immediately useful once they get to orbit. Getting to orbit is just a
six minute flight, and from then until apogee it's an entirely different
regime.
My understanding has so far been that nossle efficiency is a problem,There are no physical barriers to SSTO flight. We can do it now in
for something which is supposed to operate well enough right from
surface over to space. To many compromizes. You get a nossle which is
neither very efficient, where the athmosphere is thick nor very
efficient where the athmosphere is very thin.
friction stir welded aluminum lithium alloys, and we could have done it
back in the sixties. Like I said, you could take the time to educate
yourself on the basics :
http://en.wikipedia.org/wiki/Single-stage-to-orbit
With a multistage rocker, each stage can be better optimized, thusAnd thus, expendable, and thus, the problem remains. Right now, SSTO
more efficient.
engines are not a problem, we have them ready to go - the SSMEs.
The problem more precisely is the foam insulation on the tanks.
I think it´s better to go the incremental route of improvement.
That SSTO may be possible, does not mean that it´s desierable to
attempt it now. To put it simply, a SSTO is to expensive and risky a
project at this time.
If you had actually read the proposal through, and read my links, and the links that are out there, you will see that SSTO is a trivial exercise with the SSME. The SSME is as good as it gets.
The risk of expensive failure is to great.
For simple SSTO? If you fail that bad, you need to go back and completely rethink your analytics. Engine failures don't count.
We expect engine failures, the challenge is in the tank and nosecone.
The whole project is incremental, every launch is a new design.
About the foam insulation. What´s the problem? I know it´s been a
hasard for the shuttle, but when you have got everything stacked on
top of each other falling foam has nothing to harm on the way down.
The foam is friable in orbit. It's a challenge, do away with the foam entirely. Clearly any fill insulation can be left on the ground. The challenge again is the analytical model for tank and fuel heating during the six minute boost phase. These analytical models are fundamental to all space flight, if we can't get a handle on this we should give it up.
.
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