I don't think President Obama will wait until 2059 for a manned Mars flight. Around 2030 is Buzz Aldrin's goal. However, Buzz realizes the importance of manned missions to the Martian Moons Phobos & Deimos. Thoses will occur in the 2020's. Finally if any form of life is discovered through our unmanned Mars exploration program, all of these timetables will be accelerated.
Quote from: kkattula on 07/27/2009 04:29 am Falcon 9 is well down the road to Human Rated certification. EELV Heavy has not even started down that path. On the other hand, Delta IV, Delta IV heavy, and Atlas V have actually flown.
Falcon 9 is well down the road to Human Rated certification. EELV Heavy has not even started down that path.
I'm predicting a switch to:Shuttle extension/slow down into 2012.Something like Direct or NSC aimed at 2014/15 IOC.Plus Orion on an EELV heavy.Plus about $1B (over 3 or 4 years) thrown at a new version of COTS-D . Pretty much SpaceX Dragon and whatever ULA come up with. (Orion Lite, Dreamchaser?)If any US manned laucher flies in 2012, 2013 & 2014, then, officially, "there is no Gap".
Quote from: Drapper23 on 07/27/2009 02:39 amThe recent statements by NASA Administrator Charles Bolden about his desire for a manned Mars Progarm are very important.My document to the Augustine Commission. Please, give some comments and tips...When is the last day to send a document to the Commission?
The recent statements by NASA Administrator Charles Bolden about his desire for a manned Mars Progarm are very important.
Here's a fantastic savings for NASA to accomplish exciting goals. Hear me out.... Cancel the Altair lunar lander....... for now ! Focus on sending crews to the asteroids, Mars,Venus to orbit and document using the Direct 3.0 /Orion vehicle. Do you know how much cash would be saved ? In this way Nasa would accrue data on how to send the crews to these destinations. You don't have to land right now. When the economy gets better you would have all the information you would need to build bases and landers ! Remember Apollo 8 ? Man,they didn't land,but it was AWESOME !
1. Note: Orion + EELV Heavy = Falcon 9 Heavy + Dragon + $$$$$$$$$. 2. (Elon has already started eating Lockheed's and Boeing's lunch. Slowly for now, but that snowball is going to GROW!) There is just no valid reason to throw *limited* money down that many parallel paths. 3. Falcon 9 is well down the road to Human Rated certification. 4. EELV Heavy has not even started down that path. 5. Dragon is scheduled to fly next year, Orion is not. COTS is already funded, Orion is already funded, EELV Heavy for Orion is not. 6. EELV for Orion just really seems silly. 7. Since Dragon uses the common docking adapter,?
2) Whatever happened to the **Really Slick** mobile-VAB they were going to use for Shuttle Launches from Vandenburg? That was pure genius!
I think Elon has started munching the crumbs that Lockheed and Boeing are ignoring.
A thought on stretching the Shuttle programme to close the gap with J-130.Jupiter is founded on the idea of retaining the expertise on the ground necessary to fly reliably. This is stuff that's locked away in people's heads, and once they're gone, that knowledge is gone with them. How many of these are the famous grey-beards that won't be around forever anyway?If the remaining Shuttle flights are stretched out, does that mean that the staff on the ground would be less busy day-to-day - at least until they start planning ops processes for Jupiter?Would this give NASA the time to start a documentation programme - get a lot of that knowledge written down?* The ops unique to Shuttle would be nice to have for historical purposes, but not critical.* Document the Jupiter-relevant stuff as it exists now, and keep it updated as part of the development process for the new Jupiter ops.The fixed costs for stretching the Shuttle programme are high. Would this be a way to demonstrate getting extra value out of those costs?cheers, Martin
Quote from: rsp1202 on 07/25/2009 03:47 amDo you recognize this concept? I've had it saved for a while and forgot about it.The first option has 4 SRB's. The added weight of those definitely requires a new Crawlerway & Crawler Transporters, probably also requires new Concrete Hardstands at both Pads and may even require the VAB's floor to be reinforced. Costs the Earth. Never gonna happen.Ross.
Do you recognize this concept? I've had it saved for a while and forgot about it.
So Long, and Thanks for All the Fish.
Quote from: simon-th on 07/26/2009 09:55 amQuote from: rklaehn on 07/26/2009 09:13 amSo a HLV could significantly reduce the cost of flagship missions. Costs for the launcher are just a fraction of a flagship mission. And that is exactly why spending more on a launcher to reduce all the other costs might make sense. QuoteMost costs are incurred for development, management and planning and operations. An HLV instead of an Delta-IV H or an Atlas 551 won't decrease those costs.Operations can be simplified and shortened by using direct trajectories instead of complex trajectories with gravity assists. Avoiding a gravity assist means two years less you have to keep the team together. Surely that is worth a lot of money. QuoteIt's not going to be cheaper to design and build a 50mt spacecraft compared to a 7mt spacecraft, no matter what you do and which approach you take.Nobody says that you have to use the full payload capacity. There are various scenarios where building a 10mt spacecraft will be cheaper than building a 7mt spacecraft. Especially if 7mt is the upper limit for your launcher, and due to some unforeseen weight growth the spacecraft ends up with a weight of 7.5mt.
Quote from: rklaehn on 07/26/2009 09:13 amSo a HLV could significantly reduce the cost of flagship missions. Costs for the launcher are just a fraction of a flagship mission.
So a HLV could significantly reduce the cost of flagship missions.
Most costs are incurred for development, management and planning and operations. An HLV instead of an Delta-IV H or an Atlas 551 won't decrease those costs.
It's not going to be cheaper to design and build a 50mt spacecraft compared to a 7mt spacecraft, no matter what you do and which approach you take.
Could Zenit-style (American made) kerolox boosters be possible to put in place of those extra two SRB's without all of the added expense you mentioned here? Wouldn't have the same thrust as the SRB's, but would have more thrust than J-246, and thus more loft capability?
Quote from: rklaehn on 07/26/2009 10:56 amQuote from: simon-th on 07/26/2009 09:55 amQuote from: rklaehn on 07/26/2009 09:13 amSo a HLV could significantly reduce the cost of flagship missions. Costs for the launcher are just a fraction of a flagship mission. And that is exactly why spending more on a launcher to reduce all the other costs might make sense. QuoteMost costs are incurred for development, management and planning and operations. An HLV instead of an Delta-IV H or an Atlas 551 won't decrease those costs.Operations can be simplified and shortened by using direct trajectories instead of complex trajectories with gravity assists. Avoiding a gravity assist means two years less you have to keep the team together. Surely that is worth a lot of money. QuoteIt's not going to be cheaper to design and build a 50mt spacecraft compared to a 7mt spacecraft, no matter what you do and which approach you take.Nobody says that you have to use the full payload capacity. There are various scenarios where building a 10mt spacecraft will be cheaper than building a 7mt spacecraft. Especially if 7mt is the upper limit for your launcher, and due to some unforeseen weight growth the spacecraft ends up with a weight of 7.5mt.Here’s the thing. Yea, most of the cost is in the mission and hardware complexity, not the launcher per se.However, that totally ignores how the capability of the launcher drives the complexity of the mission.JWT is a great example. They are having to come up with this incredibly complex way to fold that large mirror to fit into a small PLF, and then have it deployed remotely, and reliably, because if just one joint or motor doesn’t work just right, you have a billion dollar piece of space junk out there.Having a large LV with a larger PLF and more lift capacity could have reduced the complexity of JWT my may fold, and thus reduced the cost by many fold.A Jupiter could launch JWT with a larger, non folding mirror, with far fewer complexities and variables. Your costs would be significantly less than JWT is adding up to now.Another example is the lunar missions. Before the Saturn V, they were thinking of ways to do it with the smaller boosters available at the time. All required multiple launches and complex docking and redezvous at a time when none of that had ever even been done yet. So they developed the Saturn V to –reduce- the complexity of the lunar mission to acceptable levels to risk humans doing.So, the capabilities of the launchers available (both lift ability and volume capacity) are very closely tied to mission expense/complexity/reliability. That’s just a fact. If for no other reason, than you can just launch more fuel, which will get the mission to it’s destination faster, so yea, you don’t have to keep the team together for as long, and don’t have to design as much “deep sleep” capability into a probe, and fly a much more simple trajectory.