i seem to recall that. Here it is:https://forum.nasaspaceflight.com/index.php?topic=47352.msg2503801#msg2503801
Quote from: DigitalMan on 07/23/2023 01:04 ami seem to recall that. Here it is:https://forum.nasaspaceflight.com/index.php?topic=47352.msg2503801#msg2503801This link does not answer to the question
Quote from: MarkBogdani on 07/23/2023 01:28 amQuote from: DigitalMan on 07/23/2023 01:04 ami seem to recall that. Here it is:https://forum.nasaspaceflight.com/index.php?topic=47352.msg2503801#msg2503801This link does not answer to the questionI was answering the question that catdlr posted, asking where you saw that. He seems to have deleted his post.
Quote from: DigitalMan on 07/23/2023 04:05 amQuote from: MarkBogdani on 07/23/2023 01:28 amQuote from: DigitalMan on 07/23/2023 01:04 ami seem to recall that. Here it is:https://forum.nasaspaceflight.com/index.php?topic=47352.msg2503801#msg2503801This link does not answer to the questionI was answering the question that catdlr posted, asking where you saw that. He seems to have deleted his post.Boy, I'll ask the question again. to MarkBogdani: Please provide a source for your statement.(the initial sentence, not the question you posed) (Digital Man provided an answer) (I deleted my post to clean the thread).
I suspect that if it seems necessary to expend rockets, Elon will quickly start on a bigger, reusable rocket.
Quote from: aero on 07/27/2023 12:00 amI suspect that if it seems necessary to expend rockets, Elon will quickly start on a bigger, reusable rocket.Remains to be seen.Because of the very long roundtrip time, the financial benefits of reusability don't only get reduced, they get deferred.Unlike a tanker, a Mars ship will only be used 10 times or so, and the financial benefit deferred by 20 years.Also, faster trips reduce payload and increase fuel requirements, resulting in more tanker flights.Since stainless ships are so cheap, it really may make sense to not bother returning them. The unequivocal statements about reuse and super-fast return trajectories predate the transition to stainless IIRC.
Seems like Mark is asking a very good question, and one that users, particularly government agencies, are going to ask. Even is a Starship/booster costs $100 million to build, that's chicken feed to anyone thinking of putting a 300 ton payload up. Time is probably more important than money for SpaceX. In the early days, they might not want to sacrifice ships if it's going to set their schedule back. They may not design the ship to handle more than fully recoverable payload, and render the question moot.
It is all about what makes economic sense. Once production rates climb up for SS. The cost of manufacture for a Cargo SS can get as low as just above $50M each. For going to LEO an expendable SS usage would be a very rare exception because each flight costs would be down in the ~$20M or less values. Making the cost of using an expendable per kg to be more expensive. But that is not so for Lunar or Mars. That is because the launch costs to Lunar or Mars can be >$180M per delivery of cargo. Such that the value of the vehicle itself at those locations is worth more or very close to the value of usable material when using the cost of sending per kg similar material. The "expended" SS at those locations makes useful pre made pressure vessels for use to store many different liquids and gasses. They can also be used as habitat space with some conversion by adding equipment into them. So that it would make sense for doing many one way cargo flights to the Moon or Mars from an economic standpoint. But we are talking about when both Moon and Mars has the infrastructure to make use of the vehicles. The exceptions in the short term right now and into the near future (next almost a decade) to the basic economic considerations is for an integral cargo that is so heavy without prohibitively sending it in pieces that it makes sense to do an expendable SS flight to the destination.
Aside from propellent and water, what payloads are people thinking are dense enough to consume 250-300 ton lift capacity without hitting volume constraints
Quote from: Blackjax on 07/27/2023 01:55 pmAside from propellent and water, what payloads are people thinking are dense enough to consume 250-300 ton lift capacity without hitting volume constraintsMy guess it that any such heavy payload will be some sort of expensive one-off. If you can afford to pay for it, you can also afford to pay SpaceX for a custom SS to launch it. That custom SS would be stretched, or have a hammerhead, or both, or the exotic custom payload would replace the payload section of the SS.
Quote from: DanClemmensen on 07/27/2023 02:04 pmQuote from: Blackjax on 07/27/2023 01:55 pmAside from propellent and water, what payloads are people thinking are dense enough to consume 250-300 ton lift capacity without hitting volume constraintsMy guess it that any such heavy payload will be some sort of expensive one-off. If you can afford to pay for it, you can also afford to pay SpaceX for a custom SS to launch it. That custom SS would be stretched, or have a hammerhead, or both, or the exotic custom payload would replace the payload section of the SS.Both points above are very good. Some space based telescopes may bump up against the volume constraints of SS, but will be just fine for mass. The very few payloads that bump up against the +200ton lift capacity will very likely be very expensive bespoke payloads.I do very much like the idea of SpaceX bidding version of SS itself as an orbiting space station. I do think a space station is intended to stay in space, not consistently be going back & forth from the surface, so all the instruments one may want to jam into a Starship based space station would maybe bump into the mass limit if you had to launch it all in one launch. The other case i think of for +200ton is to build a space station where basically the payload capacity is maximized to launch the largest possible habitable volume. I've recently been going through old threads on XL fairings ( hammerhead, or conventional) and see that much research has been done on this. https://forum.nasaspaceflight.com/index.php?topic=25103.0and here...https://forum.nasaspaceflight.com/index.php?topic=42664.0I went to these old threads while contemplating what would be possible for SpaceX to bid as a space station concept. if you intend to keep it in orbit, it may make sense to launch the largest possible habitable volume, as well as a volume with plenty of room for equipment delivered on subsequent flights. The general consensus of literature on the subject it that a fairing should not exceed 1.7X the core diameter. Exception would be for some of the hammerhead designs done for the ATLAS V. Attached below here is a quick render of a SS-XL mounted to a SH core. The SS remains a 9 meter core for the first 10 meters so it can mate cleanly to SH & existing launch mount equipment, but then transition to a 15 meter diameter with a 10 meter stretch on the length. When I calculated the mass this structure would add if made of 4mm steel, it came out to around 90tons. That still leaves plenty of margin to put lots of equipment inside, as well as more margin for strengthening the structure. That would push it to the max payload mass quite easily.