Recent Starlink flight on a brand new booster may be a sign that customers now prefer flight proven boosters?
Quote from: bulkmail on 07/17/2022 11:47 amRecent Starlink flight on a brand new booster may be a sign that customers now prefer flight proven boosters?SpaceX seem to try to use Starlinks for the riskier flights, as the impact of losing it is less than for customer payloads.It wouldn't surprise me if flight #1 of a booster is one of the riskier ones, so the first flight of any new booster will be Starlink from now on, unless a customer specifically requests a brand new one.Once they've proven the new booster with a Starlink launch they'll be willing to put a customer payload on it.
Are there any customers left that explicitly demand a new booster?
Quote from: oldAtlas_Eguy on 07/17/2022 08:33 pmAre there any customers left that explicitly demand a new booster?The number of Heavy side boosters built recently, for what's still a fairly thin manifest, suggests that at least some USSF-n launches are contracted for new ones? Some of those date back a few years though.
Now that 3 boosters have all achieved 13 successful flights and recovery, I知 struggling to see why any customer would now refuse a reused booster with a low number of flights.For the FH flights I知 not clear the extent to which new side boosters are due to customer request (may be a while ago when flight was ordered?), or SpaceX deciding to build new ones to guarantee side booster availability/avoid the need to convert an F9 booster.
For the FH flights I知 not clear the extent to which new side boosters are due to customer request (may be a while ago when flight was ordered?), or SpaceX deciding to build new ones to guarantee side booster availability/avoid the need to convert an F9 booster.
Note that none of the four FH launches with assigned boosters appear to be even trying to recover the core.
Quote from: AmigaClone on 08/06/2022 11:15 amNote that none of the four FH launches with assigned boosters appear to be even trying to recover the core.Most likely because US staging is at too high a velocity to recover booster. That's price you pay for high performance missions and why ULA didn't go for booster recovery with Vulcan.
Quote from: TrevorMonty on 08/06/2022 05:07 pmMost likely because US staging is at too high a velocity to recover booster. That's price you pay for high performance missions and why ULA didn't go for booster recovery with Vulcan. That might be the case of 1 of those 4 missions (Psyche). I suspect that SpaceX's current launch cadence and the detail that they are 0 for 3 in recovering the core boosters might have influenced the decision not to attempt a recovery, even if that was possible.
Most likely because US staging is at too high a velocity to recover booster. That's price you pay for high performance missions and why ULA didn't go for booster recovery with Vulcan.
That might be the case of 1 of those 4 missions (Psyche). I suspect that SpaceX's current launch cadence and the detail that they are 0 for 3 in recovering the core boosters might have influenced the decision not to attempt a recovery, even if that was possible.
Quote from: TrevorMonty on 08/06/2022 05:07 pmQuote from: AmigaClone on 08/06/2022 11:15 amNote that none of the four FH launches with assigned boosters appear to be even trying to recover the core.Most likely because US staging is at too high a velocity to recover booster. That's price you pay for high performance missions and why ULA didn't go for booster recovery with Vulcan. It could still be recovered, but would potentially need additional consideration for TPS, beyond the TPS they already use for boosters. This is true for ULA, too.
Quote from: Robotbeat on 08/09/2022 12:45 amQuote from: TrevorMonty on 08/06/2022 05:07 pmQuote from: AmigaClone on 08/06/2022 11:15 amNote that none of the four FH launches with assigned boosters appear to be even trying to recover the core.Most likely because US staging is at too high a velocity to recover booster. That's price you pay for high performance missions and why ULA didn't go for booster recovery with Vulcan. It could still be recovered, but would potentially need additional consideration for TPS, beyond the TPS they already use for boosters. This is true for ULA, too.Actually, for those missions, the need for more TPS (or more likely a longer re-entry burn) might be the least important factor in deciding to not recover those cores.For at least the USSF launches which will be placing a satellite directly into geostationary orbit, SpaceX would need a third autonomous drone ship off the coast of Florida to consider making the attempt to land the core. While potentially SpaceX could relocate the drone ship on the West coast to Fl, that would likely mean that drone ship would be unavailable for several launches out of Vandenberg.The Commercial FH mission is also to launch a satellite to geostationary orbit. so it's flight profile might be similar to the two USSF ones.In the case of Psyche, the propellant that otherwise would be used for the reentry and landing burns might be needed for the primary mission. That potentially could also play a factor in the decision to not attempting to recover the core booster in the other three stages.
Makes sense. Nobody buys or leases an airliner that hasn't had a test flight (or two or three).