Quote from: Lee Jay on 12/08/2022 03:41 amQuote from: InterestedEngineer on 12/08/2022 12:38 amA mechanism sitting on the top of its normally used staging system is reasonably simple (plus or minus hypergolic explosions). They still fail. And they fail when not needed as well as when needed.When was the last time that happened operationally?Probably https://spaceflightnow.com/2022/02/10/research-satellites-destroyed-in-astra-rocket-failure/In the very early days SpaceX commissioned Futron to study causes of rocket failures (to help design Falcon). In their sample 28% of all launch failures were due to separation systems.
Quote from: InterestedEngineer on 12/08/2022 12:38 amA mechanism sitting on the top of its normally used staging system is reasonably simple (plus or minus hypergolic explosions). They still fail. And they fail when not needed as well as when needed.When was the last time that happened operationally?
A mechanism sitting on the top of its normally used staging system is reasonably simple (plus or minus hypergolic explosions). They still fail. And they fail when not needed as well as when needed.
A mechanism sitting on the top of its normally used staging system is reasonably simple (plus or minus hypergolic explosions). They still fail. And they fail when not needed as well as when needed. The former increases probability of LOC.
One that has to eject out of a Starship, not so simple.
Yeah - SS is a bad architecture for humans.
The problem is that you haven't made a compelling case for why it's unnecessary, other than to wait for a bunch of missions to have flown and everything'll be fine.
<list of things to solve>
A couple of these probably have no solution and you have to live with them. But you also have to get to 1:1000 for pad to orbit, 1:1000 for orbit to landing, and 1:270 for a six(ish)-month mission.
1) On-pad -iterate 200 launches.
Airplanes don't have low altitude aborts either. Airliners do.Quote4) Max-q.has a falcon 9 or STS ever failed here? Yes.Quote11) Post-landing.has this happened to STS of falcon 9? Yes.
4) Max-q.has a falcon 9 or STS ever failed here? Yes.Quote11) Post-landing.has this happened to STS of falcon 9? Yes.
11) Post-landing.has this happened to STS of falcon 9? Yes.
Quote from: TheRadicalModerate on 12/08/2022 05:05 amThe problem is that you haven't made a compelling case for why it's unnecessary, other than to wait for a bunch of missions to have flown and everything'll be fine.You clearly don't believe in iteration, which defies all modern software practices and what SpaceX, Tesla, and many other modern hardware companies have been intentionally1 doing for over a dozen years.The word is "iterate", not "wait". Which means, try, fail, improve, try again. Repeatedly. Mathematically it's equivalent to annealing. Simulated annealing is one of the ways we converge high variable count systems like neural nets.You also have the burden of proof backwards. "Best part is no part" means the burden of proof is on the side of need the part. The burden of proof is not on "remove the part" side.1 disclaimer: I hate the word "intentional" but I'm using it anyways.
Quote from: Lee Jay on 12/08/2022 03:41 amYeah - SS is a bad architecture for humans.So were airplanes circa 1920
Quote from: InterestedEngineer on 12/08/2022 05:31 amQuote from: Lee Jay on 12/08/2022 03:41 amYeah - SS is a bad architecture for humans.So were airplanes circa 1920And they had to fundamentally change to become safe for the public to fly. Are you accepting that SS is the rocket equivalent of a 1920s airplane, and thus needs to fundamentally change to become safe for people?
multi-engine out capability.
Quote from: Lee Jay on 12/08/2022 09:14 amQuote from: InterestedEngineer on 12/08/2022 05:31 amQuote from: Lee Jay on 12/08/2022 03:41 amYeah - SS is a bad architecture for humans.So were airplanes circa 1920And they had to fundamentally change to become safe for the public to fly. Are you accepting that SS is the rocket equivalent of a 1920s airplane, and thus needs to fundamentally change to become safe for people?These statistics did not stop people from flying. Why are we so scared now?https://en.wikipedia.org/wiki/Aviation_accidents_and_incidents#/media/File:ACRO_incidents.svg
Quote from: RamsesBic on 12/08/2022 11:54 amQuote from: Lee Jay on 12/08/2022 09:14 amQuote from: InterestedEngineer on 12/08/2022 05:31 amQuote from: Lee Jay on 12/08/2022 03:41 amYeah - SS is a bad architecture for humans.So were airplanes circa 1920And they had to fundamentally change to become safe for the public to fly. Are you accepting that SS is the rocket equivalent of a 1920s airplane, and thus needs to fundamentally change to become safe for people?These statistics did not stop people from flying. Why are we so scared now?https://en.wikipedia.org/wiki/Aviation_accidents_and_incidents#/media/File:ACRO_incidents.svgThe statistics of flying were never as bad as the statistics of rocketry are right now, plus we probably place a higher value on human life now than we did 100 years ago when lots of people were dying of (by today's standards) minor diseases, industrial accidents and pollution.
With this in mind my opinion is that a likely escape system incorporates possibly modified versions of commercially available systems such as those attached together with additional Raptors, redundant actuators, structural reinforcements and possibly redundant header tanks
Quote from: InterestedEngineer on 12/08/2022 06:21 ammulti-engine out capability.You better hope that they never have any tankage issues, like ullage collapse which takes out all engines..See SN10(or any other event that could take out all or most of the engines at once)
Quote from: Lee Jay on 12/08/2022 02:44 pmQuote from: RamsesBic on 12/08/2022 11:54 amQuote from: Lee Jay on 12/08/2022 09:14 amQuote from: InterestedEngineer on 12/08/2022 05:31 amQuote from: Lee Jay on 12/08/2022 03:41 amYeah - SS is a bad architecture for humans.So were airplanes circa 1920And they had to fundamentally change to become safe for the public to fly. Are you accepting that SS is the rocket equivalent of a 1920s airplane, and thus needs to fundamentally change to become safe for people?These statistics did not stop people from flying. Why are we so scared now?https://en.wikipedia.org/wiki/Aviation_accidents_and_incidents#/media/File:ACRO_incidents.svgThe statistics of flying were never as bad as the statistics of rocketry are right now, plus we probably place a higher value on human life now than we did 100 years ago when lots of people were dying of (by today's standards) minor diseases, industrial accidents and pollution.I'm curious, when you make such assertions about flying, do you do any research at all, even a 30 second Google search, that finds things like this?https://www.kaggle.com/code/garydee/who-not-to-fly-with(scroll way down to get deaths per year). I note this isn't per-departure or flight hour.
Quote from: InterestedEngineer on 12/08/2022 04:33 pmQuote from: Lee Jay on 12/08/2022 02:44 pmQuote from: RamsesBic on 12/08/2022 11:54 amQuote from: Lee Jay on 12/08/2022 09:14 amQuote from: InterestedEngineer on 12/08/2022 05:31 amQuote from: Lee Jay on 12/08/2022 03:41 amYeah - SS is a bad architecture for humans.So were airplanes circa 1920And they had to fundamentally change to become safe for the public to fly. Are you accepting that SS is the rocket equivalent of a 1920s airplane, and thus needs to fundamentally change to become safe for people?These statistics did not stop people from flying. Why are we so scared now?https://en.wikipedia.org/wiki/Aviation_accidents_and_incidents#/media/File:ACRO_incidents.svgThe statistics of flying were never as bad as the statistics of rocketry are right now, plus we probably place a higher value on human life now than we did 100 years ago when lots of people were dying of (by today's standards) minor diseases, industrial accidents and pollution.I'm curious, when you make such assertions about flying, do you do any research at all, even a 30 second Google search, that finds things like this?https://www.kaggle.com/code/garydee/who-not-to-fly-with(scroll way down to get deaths per year). I note this isn't per-departure or flight hour.Rocket failures are in the 1% to 5% range. Where on that page does it give a failure *rate* (fatal crashes per flight) for airplanes?Today, it's about 1 in 10,000,000 for commercial airliners. I think it's safe to say it wasn't 1 in 100 in 1920.
Today, it's about 1 in 10,000,000 for commercial airliners. I think it's safe to say it wasn't 1 in 100 in 1920.