Interesting - your AIAA 2007 paper talks about using depot to overfuel the EDS for a 10% margin on the TLI.I guess later analysis has shown more benefit in reducing stresses on the TLI engines by keeping the burn as short as possible?
How does the SRB failure issue effect the idea of the manned Jupiter using the 5 segment SRB. Seems that the 5 segment SBR would move the failure closer to the capsule, and cause a 20 percent increase in the power of the failure.
I have read that part of the Direct plan is to allow ATK to continue to develop the 5 segment SRB.
Could this kill Ares I, a man rated Ares V (which some are talking about now) with it's 5.5 segment SRB, and Jupiter heavy manned with the 5 segment SRB?
Quote from: MP99 on 07/19/2009 11:37 amInteresting - your AIAA 2007 paper talks about using depot to overfuel the EDS for a 10% margin on the TLI.I guess later analysis has shown more benefit in reducing stresses on the TLI engines by keeping the burn as short as possible?Its more about maximizing performance.When no depot is used, you maximize performance by dumping any excess mass overboard prior to TLI.But if a Depot is involved, you can still meet all your performance targets *AND* still be able to add an additional margin as well. That's a nice feature of that architecture.Ross.
I think the question which really needs to be answered regarding exploding SRB's, is exactly *how* they come apart.An SRB has a lot more area on the sidewalls than on the top/bottom. My question is that in the event of a severe over-pressurization, do those 'sides' blow out sideways, or all around?That report seems to suggest they make a large 'ball', but they also say that's just an assumption and that the camera angle doesn't really allow a precise analysis.But I think we really need to see some real analysis before relying upon that assumption though.If 80-90% of the structures is actually blown "sideways" instead of up/downwards, that will alter the danger levels.Ross.
I thought the report concluded that it was *radiative* heating that destroyed the chutes. If so, being ahead of the debris cloud doesn't necessarily bring you to safety. A large and hot debris cloud can radiate a lot of heat.Better make sure the chutes are white.
Ross-A while back you mentioned a "showstopper" for Ares I, and as I recall, you stated the abort scenario was not the issue, but rather, something else.I was curious when this other showstopper will be discussed, and where it will be posted. Will it go on the Ares I development thread?Thanks.
Quote from: brihath on 07/19/2009 04:36 pmI think you're actually referring to the Showstopper for Not-Shuttle-C -- which was the Abort motor always rupturing the LOX Tank above, and in close proximity to, the Orion.With this latest SRB report, I'm actually even more concerned about the Not-Shuttle-C placing the Orion so much closer to the SRB's too, but that's a side issue (excuse the pun).The only real 'showstoppers' which I'm aware of with Ares-I is that it a) has not been an affordable proposition at any time of its existence, b) a crewed Ares-I will never actually fly until at least 7 years after Shuttle has retired -- even if CxP cuts the test program down to nothing and increases risks at every level by doing so, and c) it has such p*ss-poor performance that its margins are nothing but a very bad joke.But, other than that, its fine... Ross.
Made a typo in the last post I made , changed it...What makes something into a lunar capsule, I mean they both don't touch the surface of the moon, is it just based on how many supplies can be carried?
What makes something into a lunar capsule, I mean they both don't touch the surface of the moon, is it just based on how many supplies can be carried?
Quote from: MP99 on 07/19/2009 05:27 pmQuote from: kraisee on 07/19/2009 04:13 pmQuote from: MP99 on 07/19/2009 11:37 amInteresting - your AIAA 2007 paper talks about using depot to overfuel the EDS for a 10% margin on the TLI.I guess later analysis has shown more benefit in reducing stresses on the TLI engines by keeping the burn as short as possible?Its more about maximizing performance.When no depot is used, you maximize performance by dumping any excess mass overboard prior to TLI.But if a Depot is involved, you can still meet all your performance targets *AND* still be able to add an additional margin as well. That's a nice feature of that architecture.Ross.It seem strange to me that 10% additional fuel from a depot is margin, but 2.9% additional fuel which was unused ascent FPR is a burden.More fuel for the same burnout mass will give you more delta-V, and therefore margin. Whilst I can understand concerns that a longer burn puts more strain on the engine, depot architecture can handle much higher payloads, which would increase burn times substantially.I thought the "Pre-TLI Overboard Mass" was boiloff (the figure listed on the J-246 EDS sheet would give you nearly 8 days of loiter @ 0.35% per day)?cheers, Martin
Quote from: kraisee on 07/19/2009 04:13 pmQuote from: MP99 on 07/19/2009 11:37 amInteresting - your AIAA 2007 paper talks about using depot to overfuel the EDS for a 10% margin on the TLI.I guess later analysis has shown more benefit in reducing stresses on the TLI engines by keeping the burn as short as possible?Its more about maximizing performance.When no depot is used, you maximize performance by dumping any excess mass overboard prior to TLI.But if a Depot is involved, you can still meet all your performance targets *AND* still be able to add an additional margin as well. That's a nice feature of that architecture.Ross.It seem strange to me that 10% additional fuel from a depot is margin, but 2.9% additional fuel which was unused ascent FPR is a burden.More fuel for the same burnout mass will give you more delta-V, and therefore margin. Whilst I can understand concerns that a longer burn puts more strain on the engine, depot architecture can handle much higher payloads, which would increase burn times substantially.I thought the "Pre-TLI Overboard Mass" was boiloff (the figure listed on the J-246 EDS sheet would give you nearly 8 days of loiter @ 0.35% per day)?cheers, Martin
A question for anyone who wishes to answer.If "we" are able to carry with us additional fuel supply to the moon, might we have enough that on the return to Earth that the mission not need to immediately enter the atmosphere, but rather reenters Earth orbit, and then lands when and where it wants?hopefully that makes some degree of sense??? Thank you!By the way - Ross, great job on NPR - as everyone else has stated!
Quote from: winkhomewinkhome on 07/19/2009 07:20 pmA question for anyone who wishes to answer.If "we" are able to carry with us additional fuel supply to the moon, might we have enough that on the return to Earth that the mission not need to immediately enter the atmosphere, but rather reenters Earth orbit, and then lands when and where it wants?hopefully that makes some degree of sense??? Thank you!By the way - Ross, great job on NPR - as everyone else has stated!Others will probably answer with more details, but the velocity change needed to enter earth orbit on a Lunar return would require a velocity change similar to a TLI burn on the outbound leg. In Apollo, that velocity change was handled during atmospheric reentry. Depending on mass it could be a substantial amount of fuel.
