Here is the official word from SpaceX on the cause of the failure last weekend:
On August 2 nd, Falcon 1 executed a picture perfect first stage flight, ultimately reaching an altitude of 217 km, but encountered a problem just after stage separation that prevented the second stage from reaching orbit. At this point, we are certain as to the origin of the problem. Four methods of analysis – vehicle inertial measurement, chamber pressure, onboard video and a simple physics free body calculation – all give the same answer.
The problem arose due to the longer thrust decay transient of our new Merlin 1C regeneratively cooled engine, as compared to the prior flight that used our old Merlin 1A ablatively cooled engine. Unlike the ablative engine, the regen engine had unburned fuel in the cooling channels and manifold that combined with a small amount of residual oxygen to produce a small thrust that was just enough to overcome the stage separation pusher impulse.
We were aware of and had allowed for a thrust transient, but did not expect it to last that long. As it turned out, a very small increase in the time between commanding main engine shutdown and stage separation would have been enough to save the mission.
The question then is why didn’t we catch this issue? Unfortunately, the engine chamber pressure is so low for this transient thrust — only about 10 psi — that it barely registered on our ground test stand in Texas where ambient pressure is 14.5 psi. However, in vacuum that 10 psi chamber pressure produced enough thrust to cause the first stage to recontact the second stage.
It looks like we may have flight four on the launch pad as soon as next month. The long gap between flight two and three was mainly due to the Merlin 1C regen engine development, but there are no technology upgrades between flight three and four.
Good Things About This Flight
* Merlin 1C and overall first stage performance was excellent
* The stage separation system worked properly, in that all bolts fired and the pneumatic pushers delivered the correct impulse
* Second stage ignited and achieved nominal chamber pressure
* Fairing separated correctly
* We discovered this transient problem on Falcon 1 rather than Falcon 9
* Rocket stages were integrated, rolled out and launched in seven days
* Neither the near miss potential failures of flight two nor any new ones were present
* The only untested portion of flight is whether or not we have solved the main problem of flight two, where the control system coupled with the slosh modes of the liquid oxygen tank. Given the addition of slosh baffles and significant improvements to the control logic, I feel confident that this will not be an issue for the upcoming flight four.”
So it looks like I may have to stay up all night for you again in September!
It sounds as though they did not have a procedure in place capable picking up issues related to differences in atmospheric pressure. Is that fair, and what would the implications be?
Simon
(who is not a rocket scientist)
It is easy enough to see how they missed it as it was down in the weeds of their data. My guess is this is an institutional learning thing. At big aerospace there is probably some semi-retired guy who would comment about the data ’cause he saw something like that at Aerojet in the fifties, the last time there was much in the way of engine development going on.
The are not just building an engine and rocket structures, they are building the instutional knowledge base as well. And through the wonders of the internet we are all getting to take part.
What most impresses me is Musk’s complete transparency and lack of guile. SpaceX missed something and made a mistake; they now see what that was and are correcting it; they make no excuses, assign no blame and offer no apologies. Complete candor and honesty are so refreshing.
Elon Musk is my new hero. He is truly an amazing man; I wish we had a few hundred more like him.