SpaceX has a contract with NASA to demonstrate cryofluid transfer. The contract is separate from Artemis, I think, and transfer from tank to tank on a single ship satisfies the contract. I think that S26 will be used for this. It flies as a very simple SS as part of the early Starship test campaign, EDL is not required, and SapceX collects the $50 M as a side benefit. It probably needs to actually achieve a stable orbit to do a sufficiently long test, so it must be able to do a controlled de-orbit. This disqualified it from being the IFT SS, since the IFT calls for a well-targeted deorbit even if the SS engines fail.
SpaceX has a contract with NASA to demonstrate cryo-fluid transfer. The contract is separate from Artemis, I think, and transfer from tank to tank on a single ship satisfies the contract. I think that S26 will be used for this. It flies as a very simple SS as part of the early Starship test campaign, EDL is not required, and SpaceX collects the $50M as a side benefit. It probably needs to actually achieve a stable orbit to do a sufficiently long test, so it must be able to do a controlled de-orbit. This disqualified it from being the IFT SS, since the IFT calls for a well-targeted deorbit even if the SS engines fail.
Didn't ship 26 get a Pez dispenser and working payload door?
Not discounting potential on-orbit uses for S26, but I want to point out that S26 will be the first time they get any aerodynamic data on expendable / flapless ships above 10 km. They're gonna want that data before they launch any customer missions with flapless ships. Also data on re-entry of expendable ships (with no control surfaces) for safe disposal.
In addition to all of the above they might want to explore longer term on-orbit behavior with tankers in mind. It would probably take some sort of radiator and additional electrical source such as Dragon Trunk style solar cells, an APU or maybe a fuel cell. Not real likely I suspect but doable with more or less existing technologies.
Quote from: Okie_Steve on 09/09/2023 03:42 amIn addition to all of the above they might want to explore longer term on-orbit behavior with tankers in mind. It would probably take some sort of radiator and additional electrical source such as Dragon Trunk style solar cells, an APU or maybe a fuel cell. Not real likely I suspect but doable with more or less existing technologies.My guess: no, S26 will not try for anything fancy. It serves as a cheap SS for reaching orbit, cryotransfer test, controlled reentry, and nothing else. It's obsolete and we have no evidence of any additional fancy features.
I suspect that S26 is a backup in case S25 fails during the ascent. Being stripped of reentry equipment made it fast to manufacture, so that they would be able to return to flight and test ascent issues sooner than later. Of course, the pad failure on the first flight probably delayed things far enough that S26 is no longer relevant, but such is life.If S25 reaches orbit successfully, I would expect S26 to be scrapped.
I suspect that S26 is a backup in case S25 fails during the ascent.
Quote from: Keldor on 09/11/2023 04:38 pmI suspect that S26 is a backup in case S25 fails during the ascent.Is "backup" appropriate for rapid prototyping and testing?
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