Quote from: Analyst on 07/27/2009 05:33 pmThis has been discussed before. The connection between mass and cost is not as you think. A HLV won't be of help for SMD. Not in the real world with very limited budgets.Its not that Black and White.It really boils down to this: Any mission currently considering a launcher in the cost range of Delta-IV Heavy, could fly on a Jupiter-130 instead with fewer weight & size restrictions.
This has been discussed before. The connection between mass and cost is not as you think. A HLV won't be of help for SMD. Not in the real world with very limited budgets.
The reason I said look at LOR-LOR and EML1/2 is that I believe that John Shannon's "Not Shuttle - C" LOR architecture is not a coincidence. I think that post Griffin NASA is looking at the whole EOR thing. Why else would you go with a hypergolic lander and lose even more performance.Having a time pressure on the launch crew is just not a good idea IMO. Again Please correct me if I am wrong.
Quote from: kraisee on 07/27/2009 06:13 pmQuote from: Analyst on 07/27/2009 05:33 pmThis has been discussed before. The connection between mass and cost is not as you think. A HLV won't be of help for SMD. Not in the real world with very limited budgets.Its not that Black and White.It really boils down to this: Any mission currently considering a launcher in the cost range of Delta-IV Heavy, could fly on a Jupiter-130 instead with fewer weight & size restrictions.Any mission currently considering a launcher in the cost range of a Delta-IV Heavy and heading to a non-polar low earth orbit could fly on a Jupiter-130. You can't reach sun-sync out of KSC, the inability to restart the upper stage keeps perigees low, and the large upper stage cuts into payload quickly as orbital energies increase. I'd be very surprised if the Jupiter-130 has a non-zero payload to GTO; if it has a non-zero payload to Earth escape I'll eat my shoe.It's the same issue as Saturn IB vs. Titan III.And yes, you could theoretically make a Jupiter-131. The non-recurring development, integration, and ground facilities modifications costs will be very significant and probably outweigh the advantages.
Its a figure straight from CxP Documentation, dated October 2008, detailing the annual costs for operating the Lunar Program and the effect of adding or removing missions from the manifest.Ross.
Quote from: agman25 on 07/28/2009 01:27 amI'd just like to make a couple of suggestions for the DIRECT guysSpeaking as an NSF reader, since I'm not on the DIRECT team, but here are my observations:2. NASA will claim (justifiably I think) that a lot of money and time has been spend on the Ares I upper stage, J-2X and the 5 segment solid and individually they seem to work.Sunk cost in a broken architecture should have no relevance on plans going forward. What matters is cost/performance going forward, and DIRECT excels in that regard.Mark S.
I'd just like to make a couple of suggestions for the DIRECT guysSpeaking as an NSF reader, since I'm not on the DIRECT team, but here are my observations:2. NASA will claim (justifiably I think) that a lot of money and time has been spend on the Ares I upper stage, J-2X and the 5 segment solid and individually they seem to work.
Quote from: kraisee on 07/27/2009 06:13 pmIt really boils down to this: Any mission currently considering a launcher in the cost range of Delta-IV Heavy, could fly on a Jupiter-130 instead with fewer weight & size restrictions.No.Any mission currently considering a launcher in the cost range of a Delta-IV Heavy and heading to a non-polar low earth orbit could fly on a Jupiter-130. You can't reach sun-sync out of KSC, the inability to restart the upper stage keeps perigees low, and the large upper stage cuts into payload quickly as orbital energies increase. I'd be very surprised if the Jupiter-130 has a non-zero payload to GTO; if it has a non-zero payload to Earth escape I'll eat my shoe.It's the same issue as Saturn IB vs. Titan III.And yes, you could theoretically make a Jupiter-131. The non-recurring development, integration, and ground facilities modifications costs will be very significant and probably outweigh the advantages.
It really boils down to this: Any mission currently considering a launcher in the cost range of Delta-IV Heavy, could fly on a Jupiter-130 instead with fewer weight & size restrictions.
And yes, you could theoretically make a Jupiter-131. The non-recurring development, integration, and ground facilities modifications costs will be very significant and probably outweigh the advantages.
Quote from: kraisee on 07/27/2009 06:13 pm...It really boils down to this: Any mission currently considering a launcher in the cost range of Delta-IV Heavy, could fly on a Jupiter-130 instead with fewer weight & size restrictions. That *IS* of interest to many people within the science community -- more than a few have contacted us to say so!Now, the number of missions considering such a cost is very low -- typically only the flagship missions can afford to even consider it. But they *DO* exist.We think there might be two, perhaps three, a decade. You just highlighted one of the reasons against DIRECT/Ares IV: The incredibly small number of foreseeable science missions such a vehicle would cater to. Almost all currently planned missions can fit in available heavy launch systems and as technology progresses, even more will fit.The purpose of a super-heavy launch system is to add capability to what won't be shrinking as technology progresses - humans. If two or three science missions come along per decade (like Hubble) that don't fit in available vehicles, they could easily buy space on a launch of a vehicle specifically designed for human infrastructure like the Ares V.
...It really boils down to this: Any mission currently considering a launcher in the cost range of Delta-IV Heavy, could fly on a Jupiter-130 instead with fewer weight & size restrictions. That *IS* of interest to many people within the science community -- more than a few have contacted us to say so!Now, the number of missions considering such a cost is very low -- typically only the flagship missions can afford to even consider it. But they *DO* exist.We think there might be two, perhaps three, a decade.
Quote from: yinzer on 07/28/2009 02:27 amAnd yes, you could theoretically make a Jupiter-131. .Very good point.
And yes, you could theoretically make a Jupiter-131. .
Quote from: Analyst on 07/28/2009 06:37 amQuote from: yinzer on 07/28/2009 02:27 amAnd yes, you could theoretically make a Jupiter-131. .Very good point.Meaning a J-231?
DIRECT has gone to great lengths to fit into the existing CxP framework, with the exception of the "1.5 launch" architecture. All other aspects (EOR-LOR, Altair performing LOI, etc) have been left in place to cause as little disruption as possible. Even though other options are possible and maybe even better/safer, such as having the EDS perform the LOI burn.
But then you don't have a J-130 any more.(...)Then, at the end of the day you have all of the expensive parts of a Delta IV-H (upper stage, avionics, 3 RS-68s plus assorted support hardware), PLUS the two SRBs, PLUS the manpower-intensive and payload-unfriendly LC-39. It's going to cost way, way more than a Delta-IV Heavy.
The BB cards have it as J-130+DIVHUS.
Chris has finally spilt the beans on shuttle extension in the Live Space Flight News Feed section of the forum.
Quote from: fotoguzzi on 07/28/2009 07:39 amChris has finally spilt the beans on shuttle extension in the Live Space Flight News Feed section of the forum.And has hinted in his new article that the SD-HLLV Not-Shuttle C concept is the current favorite alternative to Ares I / Ares V.
Everything completely horizontal, like any aircraft. Lockheed Martin actually has a pretty good concept. (If anyone here has the link, please post it.) If you're familiar with the old TV show Space 1999, take a look at the "Eagle Lander". Something along that concept.
Lowering the dynamic pressure doesn't help a lot in aborting off of an SRB. Even a LAS that weighs 22,600 pounds still has problems.