Some longer takeaways:
- Simplify. We went to the moon 50+ years ago, but we are reinventing the wheel in some significant ways in Artemis. Why? We are supposedly going to the moon in two years, but we have never attempted a cryogenic refuel in orbit (this seems like a biggie).
- Communicate a lot. Why aren't people talking about the seemingly giant increase in complexity to accomplish the same mission we had in the 60s (land on the moon)? People need to have safe/comfortable way to raise questions and concerns.
- Have many layers of redundancy. Apollo had 6-7 backup procedures for what to do if they couldn't launch the lander off the moon.
- Test. small tests, big tests, real tests, skin-in-the-game tests. Some tests can be eliminated by simplifying or, in the case of big systems/tests, doing small tests on the riskiest components.
- Humans have ingrained biases. Will be situations astronauts haven't experienced where their instincts may be wrong.
He’s being directly critical of Artemis and Orion/SLS, which is not at all built that way, was basically architected by politics, and will probably not end up actually going to the moon unless there’s a major change.
Talking about methane, in situ refueling (not just spacex, but they've been the most vocal): 41:25
Complexity/redundancy: 46:28 (looong pause and laughter)
Comments on engine design: ~48:00 (you have to be aware of Raptor/SS booster design to get the criticism)
He clearly argued against flashy technology demonstrations like orbital refueling, which if you have paid attention, doesn't apply to the SLS but Starship. Orbital refueling adds an insane amount of uncertainty to the entire mission due to the boiling off of cryogenic fuels. He clearly pointed out that despite the plan of sending six Starships to LEO, nobody actually knows how many rocket flights are necessary. Fancy technology has been put on a pedestal, while the actual mission is being neglected. This is a common theme I have seen on HN and Reddit. SpaceX enthusiasts think the moon mission is some irrelevant symbolic political boondoggle to keep NASA facilities open. They all want to go on the promised 100 people trip to mars.
>will probably not end up actually going to the moon unless there’s a major change.
I don't know if you have paid attention lately, but currently Starship is significantly behind schedule. I'm not sure what to call this interpretation except "biased". Maybe this will refresh your memory: The Starship "Propellant Transfer Test" was supposed to happen in 2022 Q4.
EDIT: https://www.reddit.com/r/SpaceXLounge/comments/qujnsi/propos...
Isn't this a consequence of having Sen. Richard Shelby in de facto control of cosmic spending for decades?
AFAIK Shelby was notorious for vetoing any project that included refueling in orbit. Fortunately, he finally retired at the ripe old age of 89.
(If longevity research pays off, we may never get rid of such entrenched people... or in 100 years or so.)
Because if we do it the same way we did 50+ years ago, we learn absolutely nothing and the whole thing is a pointless waste of money.
In order to progress and learn and improve you must do things you've never done before. You must be ambitious and you must attempt things that are difficult and will probably take many attempts to master.
This logic is exactly the same as saying "we've been burning toxic liquids for generations to get around. Why are we making things complicated with all these batteries and electric motors".
The whole point is improvement.
I find that a lot of people myself included like to argue against an imagined version of something they hear second hand often not going to the source material to realize they're standing on the same side
I would argue that if we did it exactly as we did back then that we would actually learn something because we forgot how to do so much. Literally can’t build an F-1 engine. It would take a ton of work just to recreate it.
However, the benefit is that we would then have plans (diagrams, specs, etc) to build it and one built we can iterate.
But building what we had is already a tremendous challenge because of the lost knowledge. Were it not for that, I would agree with you.
> We are supposedly going to the moon in two years, but we have never attempted a cryogenic refuel in orbit (this seems like a biggie).
The 2024 date was always politics and its an open secret that it won happen. Everybody who has followed this topic kind of knows this.
> - Have many layers of redundancy. Apollo had 6-7 backup procedures for what to do if they couldn't launch the lander off the moon.
While true, its also the case that Apollo lander had 1 ascent engine that couldn't be tested and wasn't redundant.
> - Test. small tests, big tests, real tests, skin-in-the-game tests.
I think its strange that he points this out but then doesn't point out that this is exactly the testing Starship proposed to prove out the rocket and things like the Cryo transfer.
You can read an autobiography book of Michael Collins, it answers your question to a some extent. He cannot say for every astronaut and I wouldn't risk to give here an answer in a short form as I understand it, because I'm not sure I understand it right. But I urge you to read and to answer your question yourself.
"What made Apollo A Success?"
https://ntrs.nasa.gov/api/citations/19720005243/downloads/19...
I wonder if NASA people are more prickly, less, or the same in terms of taking negative feedback as compared to programmers and hackers.
I suspect since we spend all day with compilers telling us we made silly errors, we're a bit more inured to criticism than the general public.
The complexity and safety concerns have been pointed out multiple times. I stopped paying attention because this program appears to be on bureaucratic autopilot. Government contractors deliver parts, without control or accountability about the performance of the entire system. The complexity indicates that Artemis will get cancelled once it fails to achieve goals. I hope nobody dies.
The top engineering talent of the U.S. is not in this program. Poor engineering leadership is inevitable. Artemis looks like a jobs program.
SLS and Orion have survived many changes in program, their survival is independent.
The HLS program is fixed-price, and once award can't really be changed canceled. They can only not renew the contract for more missions.
If NASA engineering talent is so shit, why has Commercial Crew and Cargo program been some of the most successful NASA programs since Apollo? The same people selected the HLS program.
HLS (Starship) is anything but a Jobs program for NASA or SpaceX. Its literally the future SpaceX (pretty good engineering company) is banking on.
Artemis is a complex program with a complex history of sub-parts and lots of political constraints. The programs most like it have been successful. This is a larger version of those ideas, but those ideas were clearly more successful then what NASA has been doing for the last 40 years.
(Look at the countless failed projects)
> Government contractors deliver parts, without control or accountability about the performance of the entire system.
Contractors didn't have this during Apollo.
15 rockets!
- Apollo simple, Apollo success.
- Artemis very complex, many unknowns.
- Stated reasons for doing things are clearly not the real reasons.
- Providing honest negative feedback seems to be the the key to success.
- Artemis engineers might fear talking honestly.
---
Personal comment: The timeline was fubar from the beginning. Remember when VP Mike Pence made a surprise announcement that NASA goes to the Moon 2024 surprising NASA director. Then NASA committed to it and scrambled to adjust everything.
I guess I summarize things different than others, but at the 32:00 minute mark, he talks about what he was actually scared about:
NASA is essentially, a business (my addition) -- that does not know how to communicate. The left hand very much does not know what the right hand is doing. He brings up a fantastic example of how many rockets are required for a particular phase of a mission and showed how multiple people gave different answers without even realizing their launch date is set in stone.
In essence, issues abound.
Click on see more, to see 5 minute wise summaries.
"Focus on the mission"
What's the mission? We're "returning to the Moon" - what does it mean? Boots on the regolith? I somehow doubt that. USA did that half a century ago, we're supposed to go farther. What's the mission this time?
We're going to the Moon for a more serious, longer exploration this time, right? That's the mission, right? So, we want more people at the same time on the Moon, we want more payloads, we want longer duration stays on the surface - in fact, we state that we want to establish a permanent "outpost", to use it for exploration and future uses and as a basis of something - some Moon-based station even bigger and better. Right?
What options do we have now? Especially - do we have good options to do that now given that we plan to land in about 2 years?
It's kind of a hard technical question, and many would be tempted - with pretty good arguments - to answer negatively to that. Apollo program didn't have this as a good option - it actually turned out to have a tragedy of Apollo-1 and "successful failure" of Apollo-13 to have man on the Moon within 1960-s, with 6 landings. Should we say today "no, we don't have that kind of the urgency today, and we do have much more elevated safety requirements, so we should do things differently than what we can accomplish in 2 years"?
Maybe it's a good idea to still try to work as if we have some urgency. That is, we don't know when to land - we choose the time ourselves - and, frankly, this time the mission isn't just land and come back, as it was before - so we could justify a schedule slip. But how big? How long we can shift our plans to the right? Maybe we should do a waterfall-ish style rethinking and replanning and have a good, rather realistic plan for a modest sub-goal - say, analog of Apollo-10, or even Apollo-11, with "just" landing - but in such a way that it would lead us not to Apollo-17 and "bye", but towards the desired Moon outpost?
I don't quite agree with Destin's skepticism regarding multiple launches to refuel on LEO. We didn't do that before, but we didn't do a lot of things before Apollo which are practically taken for granted today, like successful launches from Earth and successful dockings. It's an interesting technical problem to solve for SpaceX, and I do believe they'll have a working solution (I'd probably start thinking with expandable flexible displacement device, inflatable with some gases, in the tanks), but I don't think it will be a show-stopper for orbital refueling plans.
However what Starship HLS brings us - and what other proposed solutions for lunar landers seems not to - is that transition from "boot on the regolith" missions to "permanent outpost" state. Yes it's harder to get to in the first place, and it's likely we won't have Starship HLS on the Moon in ~2 years, but it's still a pretty good component of what we need to have missions which go beyond Apollo achievements. So it might make sense to keep developing Starship, and LEO refueling, and if other Moon lander options will come first - good, if not, we'll have a landing system which is capable to scale for a bigger missions worthy of our century.
Yes he's done a lot with NASA in the past but even if they blackballed him completely (unlikely) it's not the end of the world.
I did skip some life story part when watching the video - but the talk was not bad at all. You can use the FF button and use 1.25x speed if that helps. I think it was worth my time.
The in-orbit refueling with lots of Starship/SuperHeavy launches is to increase the payload capacity. That's partly needed due to limits imposed by the Gateway architecture (which are largely due to limits of the Orion capsule). But it's also, and IMO more importantly, due to the fact that a manned mission to Mars (which Artemis is supposed to develop technology for) will certainly need in-orbit refueling.
It's a more complex design than Apollo. Some of that is justified due to engineering goals of the eventual manned Mars mission, even though it is detrimental to the moon mission. Some is justified due to political expediency.
The public statements of the agencies involved have often omitted the real reasons for the decisions, and instead invented justifications expected to be more acceptable. They don't want to say "Orion & SLS are used because it's a jobs program" or "we're spending a lot of money & time now on an in-orbit refueling system a moon mission doesn't need because we got the budget for it and haven't gotten the Mars mission we hope to use it on funded yet".
NASA: 'We don't know but at least 15'
Video: 'Oh well that's a huge problem to have a complex project like this and we don't even have an exact answer'
But as I mentioned in another comment, here is a relatively good AI summary:
https://www.summarize.tech/youtu.be/OoJsPvmFixU
Click on see more, to see 5 minute wise summaries.
(Not affiliated with this site, I just use it from time to time)
