Successful ascent, switchover to header tanks & precise flap control to landing point!
Fuel header tank pressure was low during landing burn, causing touchdown velocity to be high & RUD, but we got all the data we needed! Congrats SpaceX team hell yeah!!
It seems that the Raptor engines didn't failed due to defects at the end of the landing. The fuel pressure from the header tank wasn't high enough and the engines became fuel starved. It is obvious in the video as the engine exhaust became bright green at the end, a sign that the engine was restarting by TEB.
> It is obvious in the video as the engine exhaust became bright green at the end, a sign that the engine was restarting by TEB.
They wouldn't carry enough TEA/TEB to make that much flame - it's likely the engine itself burning. Also I don't think Raptor uses TEA/TEB as that would put a cap on the number of restarts - not something you want for an interplanetary mission!
I've been following SpaceX for years, and this is exactly my reaction today! Watching the belly flop and the (relatively) slow descent, it felt completely alien, surreal. I'm in utter awe. Congrats to the teams involved, can't wait for SN9 and the rest of Starship!
Are you seriously comparing the Lunar Lander to this?
The Lunar Lander was piloted since the computers couldn't do everything, but at the same time a human was good enough at piloting to be able to take over for what the computer couldn't do.
This is the result of modern day CFD that that would take humans millions of years to do by hand
Aside: the book Digital Apollo[0] gave me the impression that the computer might well have been able to land, but we'll never know since the astronauts didn't trust it enough to find out.
Not much different from early work on Falcon 9 landings -- the Grasshopper test rig and F9R-dev-1 prototype both did a bunch of land-to-land hops (the last being the crash that destroyed F9R-dev-1 after an engine failure) before they transitioned to attempted water landings from orbital flights
The F9 water landing attempts were just because it was so far downrange though right? Not because a water landing would have been somehow better for the vehicle?
If they'd decided for a water "landing" with SN8, I'd have assumed it was because they wanted any failures to happen further away from their test infrastructure, not necessarily because it was easier.
Why I love me some DC-X footage, and bemoan what we lost when NASA killed the project for their own boondoggle that failed, talk about missing the point.
• 45,000 feet is a lot farther that 450 feet.
• Falling and using movable aerodynamic surfaces to descend in reentry position, then rotating into landing position is kind of hard.
• Running rocket engines for over four minutes straight is hard, BO has barely run their engines more than 4 minutes total in years of ground tests, without the realism of actual flight and its associated vibrations and accelerations.
Retractable leg failed to extend and it tipped over when the engines were throttled down.
The real issue is why did it have retractable legs in the first place, esp on a test vehicle. Sounds like a great to start writing a post mortem is in the design phase.
It was a super cheap program as well. The post mortem should have been let’s build a bigger, better version with a similar budget, but instead NASA killed it to go all in on the 10X+ more expensive X-33 and killed that well before first flight.
> With liquid propellants (but not gaseous), failure to ignite within milliseconds usually causes too much liquid propellant to be inside the chamber, and if/when ignition occurs the amount of hot gas created can exceed the maximum design pressure of the chamber, causing a catastrophic failure of the pressure vessel. This is sometimes called a hard start or a rapid unscheduled disassembly (RUD).
copper gets used because it conducts heat very well and so assists in cooling. In one of the first test stand videos of a raptor run you can see a little bit of green and I think Musk even tweeted it was running "a little engine rich". the first time I watched a night flight of a falcon9 there was a green glow right at ignition which caused me to hold my breath but that was the hypergolic ignition fluids which also burn green. Raptor uses a torch ignition so any green from a Raptor is very bad news.
That's my suspicion as well. If it's methane rich then the exhaust would have a lot of soot due to incomplete combustion. If it's oxygen rich then the burn temperature would be much higher than designed, and every internal metal surface would get oxidize in a hurry.
Once you hit a propellant bubble, the combustion temperatures are the least of your worries. The turbines are designed to ramp up gently, work fully loaded and transfer the energy from the hot side to the liquid propellants; the power density is enormous, 100.000 horsepower in the space of a truck engine 100 less powerful. Without an energy sink this immense power is directed at the turbine itself, which spins out of control and will dismantle or shatter when hitting liquid again.
Your engine is now full of solid projectiles that take out other parts, fuel lines and injectors, damage film cooling nozzles and coolant canals, and in general transform your precision machine into a smoldering pile of gunk.
Well, half a second is quite gentle compared to ramming a fluid with a speed in the tens of m/s into a surging turbopump, especially one that is designed to minimize mass and exactly handle normal operating load and not more.
Why would oxygen rich combustion be hotter than stoichiometric combustion?
I know very little about rocket engines, but I would imagine that the fuel pre-burner, which appears to be intended to run extremely fuel rich, might have some serious problems if it didn’t have enough fuel coming in. Aside from just generally not working, it could internally burn much less fuel rich and therefore much hotter than intended, resulting in any number of failure modes.
This is the answer that the GP was looking for, but it's phrased funny.
sitharus means that the excess oxygen will oxidize (burn) things other than methane if there is enough oxygen present at the temperatures and pressures found in a rocket engine combustion chamber. It will oxidize (burn) things that you wouldn't normally think of as "fuel", such as the copper in the metal alloys.
This line of thought is very reasonable for normal engines, but I wonder if it’s not quite right for the raptor.
I’m not 100% on this, but I think the raptor actually runs really oxygen rich. According to Elon’s tweet and Wikipedia, it runs 3.5-1 O2-CH4. It runs so lean that the unburnt o2 cools things.
If it were running closer to 1-1 (low ch4) then it would run much hotter and burn things like we saw.
Edit: reading more I’m not positive they run O2 rich anymore
Minor correction: 4.0 lox/methane is stoichiometric. 3.8 is rich. 3.55 is very rich. It runs fuel rich to keep cool and possibly increase specific impulse.
To clarify this point. The Raptor uses two turbopumps. One turbopump hangs off the side and runs fuel rich, and this fuel-rich exhaust is the fuel input for the combustion chamber.
The second turbopump, to which tdy721 is referring, sits right above the injectors and runs oxygen rich. This oxygen rich exhaust is the oxidizer input for the combustion chamber.
I think once the aerodynamics are tried a little bit more, it can be refined to a lifting body. Strakes and deltaish wing, something a bit like the space shuttle or X-37.
Having completely cylindrical body and two sets wings now for the prototype phase makes control authority good and iterating changes very easy (you can change either wing shape easily), even if it's not optimal mass wise.
Centrifugal forces of doing the belly flop maneuver. Ever try to flip a spinning object sepaofrom the axis it’s spinning on? Imagine a fuel pump or turbine full of liquid oxygen. The engineering to get this to work is astounding.
Not sure, but they might be talking about this: fill a bucket with water and swing it upside down over your head. The water stays in the bucket because centrifugal forces apparently push the water outwards.
The same may have happened for the fuel, I guess lowering the pressure? I know nothing about rockets.
Aside from what a sibling comment mentioned about fuel sloshing from the flip maneuver, Raptor/Starship use autogenous pressurization (i.e. some of the gas produced by the engines is tapped off to pressurize the tanks), so there could have been an issue with that, too.
I believe some were. The plan was to switch over to two engines on ascent, and use two engines during the rapid deceleration. The full shut down was intentional. It looks like they might have briefly went to one engine during ascent but it wasn't entirely clear. The flame out of the first shut off was probably not intentional as well. It's really hard to tell.
None of that information was official though so take it with a grain of salt, it's all come from personal knowledge and analysis by some people watching.
This test of lossless convexification showed good results with the stochastic control problem, but the fluid dynamics model could use some work before:
They had to get a lot of things right on the first try for a successful landing. They got a lot of them right, but had trouble with fuel pressure at the end and landed too hard because there wasn't enough thrust.
As problems go, that's a relatively simple one that they ought to be able to address. The ascent appears to have been successful (though for a few moments it looked like something caught on fire and I'm not sure if that was planned or expected). The glide worked. The rocket was able to navigate to the landing pad.
Next time they'll be working with a lot more information. This seems like overall it was a success, even though they're down one rocket and three engines. A failure would have been the rocket blowing up on the pad during launch or other similar mishap from which they wouldn't have learned much aside from "make sure that doesn't happen again".
No, I'm commenting on Elon Musk's comment. I would have taken a humble: "Sorry, we blew up this (literally), but we're gonna get better after learning from our mistake." You blow things up, you fail. No excuses, sorry! Don't start a test knowing it most certainly will fail! Start a test when you're a lot more confident!
The purpose of a test is to gather the data you need to improve. Scientists and engineers constantly start tests knowing it will most likely "fail". Actual failure would be a test that didn't produce any data.
No, an explosion and destruction of equipment is a failure. Why do you keep dancing around this truth? It is a failure everywhere else in the world! You should've listened to the commentary of foreign anchors! They don't look at it as a success!
I'm very confused by your take here... SpaceX made it clear beforehand that the primary objectives of this test were the ascent and descent, not the landing. The "belly flop" horizontal descent is entirely new, and something they have only modeled so far.
The primary objectives of the test were completed without any issues. If that doesn't meet your definition of success, I don't know what to tell you...
They are currently building like 10 other Starship prototypes.
Even if this model had worked perfectly, it's unlikely they ever would've flown it again. Remember, SpaceX's goal is to mass produce these.
Much better to fail hard now and in many different ways, as the more problems you can find with your expendable prototypes the better (before your manufacturing process starts to ossify).
Things are successfully tested to destruction every day. That is the truth. Some of the most successful tests involve explosions and loss of equipment; it's the only way to be sure where the limits are.
News anchors? They're often pretty clueless about technical things, so their mistakes don't mean much.
Landing may not have been one of the primary objectives, but it clearly was an objective, since they didn't just let it crash at will after having completed the flight maneuvers.
Nah engines are able to turn off after ignition. Thats what the Raptor safety is. Usually the blow or moment is when it lifts off the tower with one notable exception that I know of.
So you’re saying that if the engines had been off the starship wouldn’t have exploded? Try again bud. That’s still an object full of compressed methane and liquid oxygen falling at terminal velocity.
You're right that the destruction of equipment and loss of material resources in general is a failure that could have been prevented with a more cautious approach, but that's not the entire picture. Another resource, one that Mr. Musk cares more about, is time. He both affords to and is willing to throw material resources at the technology development problem, even at a loss (i.e. the stated "1/3 chance of success"), just so he could "move fast and break things" (from time to time, if it comes to that). In this context, even with that prodigious blow at the end, having at least some of the testing goals met can be a genuine success in Musk's own eyes, not just a sell for the rest of us. The political actors, on the other hand, had to play the perception image game because that's the world they reside in. The politicians' primary objective in that space program has always been the prestige that comes attached from bearing it to fruits. Sure, in a race they went on in a similar fashion and threw copious amounts of material resources, but for them the cost of technical failures were not so much about loosing material as were about loosing face, hence the propaganda that had to handle/mitigate that. Same rocket science development game, different rules for the actors involved.
No, I'd say it was an almost-complete success. The point of this was to test several things which they've never tested before and gather data to drive design improvements. They successfully tested: ascent under three engines, flap-controlled aerodynamic descent to the landing site, the landing flip maneuver - including drawing propellant from the header tanks - and final landing burn.
They didn't stick the landing, but it looks like they got test data from all the planned test activities. The explosion will prevent gathering some data from post-flight inspection, but other than that I doubt it has much affect on future development.
To look back on SN5/SN6 testing, they stuck the landings with those prototypes, but the prototypes themselves are now obsoleted by the new prototypes in production (up to SN16?!)
It sounds like they've got SN9 just about ready to go, too, so they should be able to put the data that they gathered to good use quite soon.
Seems to be a great benefit of this method that SpaceX is following with Starship: if you build hardware fast and cheap enough, you can afford some partial failures since you just put the lessons learned into the next flight in a few weeks.
Yes, but if it explodes during launch you learn only a little(you don't have any data for flight and landing)
Here it went almost perfect because they have the data for everything to be able to fix issues
The thing that is most interesting to me is that this is a major R&D program being done literally out in the open. These prototypes are being put together basically in an open field or under a tent with SpaceX sharing loads of information on the technology, price targets, mission profiles and so on. And yet nobody is coming close to matching them.
Even if another company decides to try to replicate what SpaceX is doing, they're now at least a decade behind.
Nobody has the present institutional knowledge that they have.
> Even if another company decides to try to replicate what SpaceX is doing, they're now at least a decade behind.
There is one entity that can and will rapidly close that gap. In fact, they're the only one that can: China. Everyone else will continue on their slow path, more or less adopting everything SpaceX figures out a decade after the fact. The other competition operates permanently by hand-me-downs. China will invest huge sums of money and labor into doing the same thing and the difference between them and eg the Europeans, is the Chinese will and can move with ridiculous speed by comparison. The other competition won't adjust their speed, so they'll generally continue to lag SpaceX perpetually, whereas China can move at a far greater pace (aerospace, as with a few other big segments like semiconductors, is of course a core logical focus point for China, which means they will catch up no matter the cost; they'll borrow from SpaceX better than anyone else and faster than anyone else, right up to the point of copying everything). And to be clear, I don't fault China at all for that approach, it will work very well; they can leapfrog everyone not named SpaceX that way.
Easy to claim. So far China human space program has been very slow. And they have not gone full power into even a Falcon 9 clone. China is in the same space as everybody else outside of the US, with a slow moving bureaucracy leading it, wanting to switch into more commercial companies.
China has not yet itself produced an engine anywhere close to a Raptor and they have been trying for quite a while.
China can not spend gigantic amounts of money on everything at once, and even if they do, it by far doesn't work all of the time.
When you are copying SpaceX you are always cooping something that is already outdated and SpaceX will not stop innovating.
China launches a bunch of obsolete rockets with relatively small capacities. Long march 3 has half the capacity of a Falcon 9, Long March 2 is about one seventh the payload capacity.
They should be justly proud of their robotic lunar missions though.
And SpaceX has another 3 launches planned for December (SXM-7, NROL-108 & Turksat 5A). Although the last one is on Dec 31, so could easily slip into next year.
Because the statistics are based on the nationality of company/agency that designs and builds the launch vehicle, not the launch site. So even though Soyuz launches from Kazakhstan and French Guiana, it is counted as a Russian launch since a Russian company (Energia) designed and built the rocket. Similarly, even though a lot of Electron launches are from New Zealand, the company that builds Electron is ultimately US-headquartered/US-controlled. (Rocket Lab was originally founded in New Zealand, but they moved their HQ and parent company to the US so are now considered a US company rather than a New Zealand one.)
It’s pretty damn hard to copy something that you never get to see. China can clone tech because they force companies that build products in China to essentially give away their IP. Can’t do that if the rocket is built exclusively in Hawthorne, CA and Boca China, TX with no outside contractors. They’re decades behind even the Europeans and Japanese. Chang’e5 is cool and all but Europe and Japan landed their spacecraft this year and last year on ASTEROIDS which is actually pushing the boundaries of space accomplishments and science. Hyabusa2 flew literally billions of miles (5.4bn to be exact)[0] during its mission to collect and return asteroid samples. The Chinese mission was a repeat of the 50’s just to say that they did it too. They’re not leapfrogging ANYONE, at least not until they do something novel.
I tend to agree with you that China's space technology is not that developed -- their manned rocket and capsule is a scaled up Russian Soyuz design -- and I have doubts about their ability to catchup without major technology transfer (whether through acquisition or theft). But we should still recognize that their previous moon mission (Chang'e-4) did do something no other nation has yet done: land on the far side of the moon. That is pushing the boundaries and just repeating the accomplishments of decades ago.
Is that really so impressive? The technical challenges remain the same as a near side landing except you’re in a communication blackout so signals have to bounce off a satellite in orbit. Even then that’s not novel because the Americans and Russians did the same thing, using their orbiting spacecraft to relay messages back to earth.
The Chinese literally haven’t done anything novel in their space program. Even the words they said upon landing on that mission were a copy of the Americans. ‘"It's a small step for the rover, but one giant leap for the Chinese nation," Wu Weiren, the chief designer of the Lunar Exploration Project, told state broadcaster CCTV.’ The Chinese literally can’t do anything but copy and it’s embarrassing.
Well I think landing a rover on the far side of the moon is impressive. It's definitely a first for humanity and the scientists and engineers behind that mission deserve praise for that, even if in the achievement isn't pushing forward space technology at all.
It would be nice for the environment and the Chinese people if they pursued reuse more. Landing the 1st stage is a lot better than dropping it on top of a village and exploding... as part of a normal and successful launch.
SpaceX has a huge lead, no doubt. But there's a handful of smaller companies which are very promising. Rocket Lab's Electron vehicle has had 13 successful launches (3 failures) to LEO. Firefly and Relativity (which are founded by former SpaceX/Blue Origin employees) are making a lot of progress as well.
While the Electron is cool, the comparison is pretty far off.
The Electron can put 600kg into low Earth orbit.
Falcon 9 can handle 15,000 kg. Starship is expected to handle 100,000 kg.
The Falcon 1 is a good comparison to the Electron. If it had been fully developed it was expected to lift 600kg to leo by 2010 or 2011. 10 years ago, basically.
The original claim was that competitors are a decade behind spaceX and Electron's capabilities are comparable to the technology spaceX had a decade ago. The Falcon 9 comparisons are to highlight the decade delta.
Really sad to see f.ex. Arianespace still launching with the nearly 30 year old Ariane 5. Soon EOL now, but I don't think the Ariane 6 is even close to what SpaceX is doing at the moment. And I think ESA have started muttering about both capabilities of the rocket, launch price and the slow development.
I don't think anybody knows how far Blue Origin really is. They are much more secretive and seem to do a lot less testing. New Glenn is somewhat comparable to a Falcon 9 scaled up to the size of Starship and is supposed to happen in 2021, but I don't think there's any good indication how far they are along and whether they will be able to deliver.
My gut says that if they don't test they can't deliver, and that Elon's rapid prototyping will keep SpaceX far in the lead for the foreseeable future. But only time will tell.
Payload-wise New Glenn is better comparable to Falcon Heavy than to Starship. New Glenn actually sits more or less in the middle between Falcon 9 and Falcon Heavy.
If you ignore payload capacity, I'd say New Glenn is much closer to Starship than it is to Falcon 9 in terms of technical development, mostly because of its novel engine, the BE-4. Like the Starship's Raptors, they are powered by a fuel that can be produced in-situ at the intended destination. Though in the case of the Raptors it's Methalox from Martian atmosphere (via Sabatier), whereas BE-4 engines are Hydrolox that they hope to get from ice on the moon.
Is the BE-4 design really that new? The choice of fuel is of course novel. But apart from that, it seems to be an oxygen-rich staged combustion design, which was invented by the soviets... somewhere in the 60's?
Not even close. SpaceX has been launching commercial payloads for nearly a decade now, is on track to a hundred reusable rocket flights, is on the 11th or so generation, and Starship is far beyond anything BO has in their roadmap - if they manage to launch commercially one day.
For what it's worth Blue Origin's New Armstrong rocket hasn't yet been revealed (John Sheppard -> John Glenn -> Neil Armstrong) but Jeff Bezos has mentioned it. It's widely assumed to be a Saturn V class Super Heavy Lift vehicle.
It's tough to tell what they're doing, as they're way less open about things than SpaceX and some of the other new commercial launchers (e.g. Rocket Lab).
Seems to me that they may be trying to pivot away from having orbital rockets being their main product with the sale of BE-4 engines to ULA for Vulcan and all of their work on lunar projects. But that could also be them trying to get more friendly with NASA or get development of the BE-4 paid for or any number of other things. They certainly are lacking in terms of actual hardware being seen.
I wasn't sure if the ascent looked OK - no idea if it was supposed to be running on two, then one engine. But that was a moment that I'll remember for the rest of my life. Amazing stuff, even with what obviously meant the complete demise of SN8.
I'm sure they'll learn an immense amount from it, and it was amazing to see it nearly pull off the landing. Given the way that Falcon 9 early landing attempts went, it'll go the same way with Starship, and it'll be landing soon.
Even in normal operation it might have been useful to throttle down the engines in order to ascend a bit slower (less drag). If you have multiple engines, shutting some of them down is a convinient way to throttle.
It was a wonderfully designed test. I'd love to hear a presentation on test design, the mission profile and what data they were looking at with each one.
I assume SpaceX has the same video feed with superimposed telemetry. I'd love to know turbo pump pressure and rpm during landing.
The merlin engine uses TEA-TEB which causes the green flame seen on Falcon 9. The raptor uses electric spark ignition, which is harder but doesn't require any awfully poisonous chemicals and you can't run out.
I also wasn't entirely sure whether the engine shutoffs were fully intended... at least the sideways acceleration of the Raptors at shutoff looked scary.
As engines shut off, the remaining ones that were still going had to rapidly re-center to keep the direction of thrust aligned with the center of mass of the vehicle, and the ones that had shut off had to move out of their way to make room.
I laughed loudly at that ending. The explosion seems so comical.
The test was great, it proved the concepts in principle do work in practice, and proved that the design fundamentally works. Launch, high altitude, belly flop and flip and burn landing. I'm excited to see the coming tests, design improvements, and to watch the thing land without blowing up.
Next one should have heat shields for them to try for a real re-entry attempt but the terminal velocity was surprisingly slow with that geometry so I’m not sure it’s really going to change much.
I remember Musk giving a big presentation showing off the model of this rocket when he announced the Mars plan, and I laughed because it was obviously a very rough, ugly aluminum grain silo that was vaguely rocket-shaped and not any sort of real rocket.
Well...that thing looks exactly the same. Shows what I know.
To be fair to you, that prototype (called MK1) indeed was extremely shoddy and could never have survived today s flight. It probably only existed for the presentation and as a production pathfinder, and indeed failed shortly after during a simple pressurisation test.
Their welding technique has come a long way since then!
Crash landing not withstanding but as any other rocket launch provider or space-faring nation, I'd be scared shitless now. SpaceX is in a league by itself.
>as any other rocket launch provider or space-faring nation, I'd be scared shitless now.
Russian Space agency "Roskosmos" strikes back - it plans to produce alcohol, perfume, clothes, etc. under the trade mark "Poehali" ("let's go") - the word famously uttered by Gagarin when the rocket started to ascent.
Also comes to mind the "Souz vs. Crew Dragon" tweet couple months back by a Russian cosmonaut which brought the Roskosmos CEO and the other top bureaucrats there into boiling publicly with rage https://twitter.com/Msuraev/status/1313945340039528448/photo...
Russian space program is in a pretty low state these days. It will take significant changes in Russia to come back to space exploration comparable to peers.
>It will take significant changes in Russia to come back
As Russian joke about road building and everything else that requires any concerted effort goes - "There are 2 possible alternatives, a realistic one and a fantasy one. The realistic one is when aliens come to Earth and accomplish it for us. The fantasy one is when we accomplish it ourselves."
For example Russia has been for several years trying to build a new spaceport in the Far East. After the first years of tremendous corruption discovered and prosecuted, the total control, audit and surveillance there have been unparalleled, yet despite it there have already changed several waves of the top/mid management - they get assigned there, steal a lot, get arrested, and new people get assigned, ...
> they get assigned there, steal a lot, get arrested, and new people get assigned, ...
This is just an illustration of what the state of things currently is around Russian space efforts. To change that requires changes above that in government operations.
There are still a lot of capable engineers and even managers in space industry. But being capital and material heavy, space industry can't hide from corruption, which isn't going anywhere while Kremlin is as it is today.
Soyuz spacecraft is a wonderful machine, but lately it more and more served as largely a cash cow and political facade. With Crew Dragon flying, that role diminishes. Given that Proton doesn't provide either, Russian space is left with just a few venues for development. It's hard to see bright sides there until incentives would change.
Furthermore, fast iteration that isn't averse to failure. While they do what they can to make each test a success, they don't let it turn into a black hole of time, money, and manpower. They're willing to say, "yeah, that's good enough", test, and make the most of every aspect of the test.
Where a more traditional aerospace company would go out of their way to avoid failures at any step, SpaceX embraces them so long as nobody is endangered in the process.
The test flight of Falcon Heavy (when they sent the Tesla Roadster to space) is still the most memorable launch for me. Watching those 2 boosters land side-by-side simultaneously looked like magic.
Yes. The whole office broke what they were doing and watched that launch and landing together, on one of our big displays. A cheer went up when they landed, side by side--a moment I'll remember for the rest of my life. Goosebumps then, and goosebumps now. Felt like the most significant thing for manned space since maybe Apollo (well, definitely since early days of the Shuttle!)
Honestly, I'd have been a little disappointed if it hadn't ended the way it did. SpaceX seems to be all about an iterative process of showing us cool new capabilities ending in awesome explosions.
Eventually we're gonna run out of funny three letter acronyms to describe the different explosion types. We've already got RUD for rapid unscheduled disassembly and SRD for scheduled rapid disassembly (Crew Dragon In-Flight Abort test).
Incredible test! The "bellyflop" maneuver was the main test objective I think, and it appeared to work. They need to figure out the causes of the engine failures now.
They were attempting to switch to a separate set of tanks, ultimately meant to sequester fuel used for landing. It was pressure in the landing-fuel tanks that was low after the switch.
> As early as Wednesday, December 9, the SpaceX team will attempt a high-altitude suborbital flight test of Starship serial number 8 (SN8) from our site in Cameron County, Texas. The schedule is dynamic and likely to change, as is the case with all development testing.
> This suborbital flight is designed to test a number of objectives, from how the vehicle’s three Raptor engines perform to the overall aerodynamic entry capabilities of the vehicle (including its body flaps) to how the vehicle manages propellant transition. SN8 will also attempt to perform a landing flip maneuver, which would be a first for a vehicle of this size.
> With a test such as this, success is not measured by completion of specific objectives but rather how much we can learn, which will inform and improve the probability of success in the future as SpaceX rapidly advances development of Starship.
> This past year alone, SpaceX has completed two low-altitude flight tests with Starship SN5 and SN6 and accumulated over 16,000 seconds of run time during 330 ground engine starts, including multiple Starship static fires and four flight tests of the reusable methalox full-flow staged combustion Raptor engine. Additionally, with production accelerating and fidelity increasing, SpaceX has built 10 Starship prototypes. SN9 is almost ready to move to the pad, which now has two active stands for rapid development testing.
> SN8’s flight test is an exciting next step in the development of a fully reusable transportation system capable of carrying both crew and cargo to Earth orbit, the Moon, Mars, and beyond. As we venture into new territory, we continue to appreciate all of the support and encouragement we have received.
> There will be a live feed of the flight test available here that will start a few minutes prior to liftoff. Given the uncertainty of the schedule, stay tuned to our social media channels for updates as we move toward our first high-altitude flight test of Starship!
At around 1:49:46 (https://youtu.be/ap-BkkrRg-o?t=6586) (T+1:34) one of the engines shuts off, and things seems to move a bunch. Some equipment covered in some kind of tarp really close to the engines ends up burning up. What is behind these loose coverings? Why are these things so close to the engines?
They have tanks for nitrogen thrusters there and maybe some other things. These will eventually be removed and replaced with hot methane gas thrusters that are feed directly from the main fuel tank.
1: Successful ascent, switchover to header tanks & precise flap control to landing point!
2: Fuel header tank pressure was low during landing burn, causing touchdown velocity to be high & RUD, but we got all the data we needed! Congrats SpaceX team hell yeah!!
At around 1:54:50, upon full landing thrust, the exhaust flames turn green. I know colored flames from chemistry classes, but I always assumed that was caused by certain salts.
Rocket fuel, to my knowledge, does not contain any of those ingredients. Can someone explain what happened there? Was this planned?
Copper burns green, and the engine contains a lot of copper, so I think we saw a malfunctioning Raptor burning itself up.
Other answers mention TEB starter fluid but I don't think that's right, because as far as I know Raptor has spark ignition only.
edit: Elon Musk just tweeted that the immediate cause of the crash was low pressure in the fuel tank, so that would make sense, as running oxygen-rich would overheat and melt the engines.
I'm aware, the picture was to show what the liner looks like (approximately), the engines are of similar design. I apologize if anyone thought that was literally the liner in question.
Ah yeah, lots of confusion re: TEB in other comments. Seems like a lot of people have the Raptor and Merlin mixed up so at least in this context probably have to be explicit.
You know, we're hiring software engineers over here! :)
If that was your (or anyone else's) reaction and you'd be interested in learning more about what we're doing and how you might fit it, I'd be happy to chat! I'm a manager for one of the software teams here - we're always looking for great engineers who care about the mission!
Being born on the 4th July 1969, I always had a fondness for Apollo and rocketry in general. Always wanted to move to the USA as well, but my life's route took me elsewhere :) (although I /did/ once launch a rocket with the MARS team in Black Rock desert in 2001 in an attempt to break the UK amateur rocketry record! [http://www.mars.org.uk/phoboseav.html])
That SN8 flight was beautiful. The Belly Flop manoeuvre... wowsers!
I'm content now at 51 to watch you and the rest of the SpaceX team make history.
That was about as awesome as a failed attempt could be. I assume that there were real engine failures on ascent, but it still all seemed to work like it was supposed to until the landing. And the scariest part, the belly flop maneuver looked like it worked just as it should.
The first may have been unintentional on ascent but the second wasn’t. On the descent however both active engines failed due to fuel pressure, sadly, though it was awesome to watch.
I just posted a gif of the landing on reddit and people are convinced it's edited and fake because they switch the camera almost exactly on impact. I kinda see their point!
I think my brain was screaming that it was fake because rockets simply don’t do this. Absolutely mindbending to watch, I can totally understand if anyone’s gut reaction that if it looks unreal, it might just be unreal.
(To be explicit; I don't believe it was faked. There was far too many people watching. But I can understand why the gut reaction may not agree.)
But in all seriousness, I suspect they were prepared for it to hit the ground. Once it left the ground, that part was guaranteed.
I know it might be a stupid idea, but would it be possible to have liquid propellant/oxidizer tanks perform double duty and serve as living space while underway?
The fuel here is methane and oxygen, nothing problematic. I know the shell is very thin and only maintains integrity due to pressure but it would still have to be pressurized to 1 atm for the trip and wouldn't be subjected to forces once in space..
That's the main thing to remember: the main thrust of their iteration and innovation is to build the machine that makes the machine. To pump out Starships (and Raptors and Super Heavies) very rapidly, repeatably and cheaply.
In a sense the RUD might make it easier - now they just sweep up the debris and test SN9. If it hadn't RUDed, they would have to somehow dispose of SN8.
That was awesome. I really thought it was going to blow when it started going sideways...then realized that was all part of the plan. Even the landing explosion was a fitting end to a first flight.
When I saw the flaps bent at the seam, not twisting, I knew immediately that I've played too much KSP. It reminded me of a parachutist using their arms and legs to manage their decent.
At about T+1:40, the three engine bells appeared to shake and diverge away from each other slightly, and one appeared to flame out, spewing flame around the compartment, with one side of the chamber (and maybe craft) catching fire. https://i.imgur.com/KER9nqc.png
Is that what happened, or was it perfectly normal?
From Everyday Astronaut's slow-mo replay, it looks like two engines both relit properly, and then one shut down (intentionally), and then the final engine throttled down and turned green.
Flame looked very green very late, looks like they might have burned through quite a lot of TEA-TEB trying to get that candle lighted but it didn't react as expected...
I watched this with my kids, and it really was surreal. My 11 yo said “it looks like something from Star Wars”. Exciting times for space. Hope we can keep this momentum
With three raptor engines, probably not very many. Though if I remember right from the Starship user manual posted here a couple days ago, a launch could experience up to about six Gs (and about 2 Gs or so sideways or backwards). That would be with the super-heavy booster. I'm not sure if the landing and belly-flop maneuver were included in those figures.
How will the flaps handle the heat from re-entry speeds? Especially from the Moon or Mars.
Those crevices between the flaps, seems like great places for the atmospheric re-entry heat to punch through and destroy the Starship.
I would assume that during the initial re-entrant speed, the flaps would be locked, to minimize errant heat from entering the inner mechanisms. Then after it’s bled off most of its speed, at the last few kilometers off the ground, would the flaps begin to actuate and adjust to the air speed of terminal velocity.
I wonder if atmospheric re-entry is the bigger test, should they succeed with SN9.
They're working on heat tiles and how to attach them now - and I agree, somewhere around SN12 (my guess) we're going to start seeing tests of the heat tiles and more energetic reentries.
I wondered about that too. After watching a couple of times, I think what happened is that they used some sort of tarp or plastic to cover a bunch of things, and part of it caught fire and burned. So, it was probably unplanned, but if everything else in the vicinity of the engine is fireproof, probably not a big deal.
It's not a question of being smart, it's a question of reading about these things, reading what people have previously said, thinking hard, asking questions, and getting engaged and involved.
Some of this stuff is hard,and you're not expected to understand it without work. So don't just flip it off and say "I'm not smart enough" ... recognise that with work you can understand it, and if you choose not to put in the effort, that's your choice.
That's a great reaction ... I was hoping you'd take it as positive and encouraging, that's certainly how it's intended.
There's a lot in this world that takes time to work on, and time to come up to speed with. If you have seventeen lifetimes then you can do a lot, but otherwise you need to make choices. There's a lot you can appreciate from the sidelines, and agree is amazing, without necessarily understanding it all.
But other things you will want to get stuck into and get your hands dirty with, and it takes time and effort.
Smart isn't where it's at ... persistence and resilience are the critical components, combined with a desire to make progress. Absolutely you can look at something and choose not to engage with it, but if you're interested,have a go! Be methodical, be persistent, read around, ask questions, and go for it.
By the way ... I certainly don't know everything ... far from it ... very, very far from it, but if ever there's something you think I might be able to help with, just let me know. If I can't help, I'll say so. If I can, I'd be happy to do so.
Thank you Colin! I think what spurred my comment was that I feel like I have hit a brick wall and just feel exhausted. I am not getting younger, got a wife, two kids and a demanding career as a principal engineer. I want to desperately build my own start up again and learn something new. As you said, persistence and resilience are the critical components to getting through that barrier. Like many others here I assume, it can be exhausting wanting to learn about everything :).
Successful ascent, switchover to header tanks & precise flap control to landing point!
Fuel header tank pressure was low during landing burn, causing touchdown velocity to be high & RUD, but we got all the data we needed! Congrats SpaceX team hell yeah!!
It seems that the Raptor engines didn't failed due to defects at the end of the landing. The fuel pressure from the header tank wasn't high enough and the engines became fuel starved. It is obvious in the video as the engine exhaust became bright green at the end, a sign that the engine was restarting by TEB.
Edit:
https://twitter.com/elonmusk/status/1336810077555019779
Mars, here we come!!
Indeed