Can SpaceX Reuse a second stage?

In your first heat shield attempt, I think you'd find that your center of mass was closer to the engine, as KSP distributes fuel mass top down. However, in real life if you were decelerating like that, the fuel would likely pool up in the front near the heat shield, moving the COM forward and providing a more stable configuration, with less demand on RCS.

"It takes the same amount of fuel to slow down using retropropulsion as it does to get to orbital velocity in the first place".
NO!!! Very much no! The *delta-v* requirement is the same, but the propellant requirements are much different - when achieving orbit, you need enough propellant to loft the stage, AND the payload, AND the additional propellant for the return journey. When coming back, you only need enough propellant to slow down the stage. Which in no way changes the point about retropropulsion being a bad way to go, I just thought some clarification was warranted.

I have 4000+ hours in KSP, and I guess I have no life...

It’s funny to watch this now and realize how much Tim has grown as a content creator

Kerbal Space Program is always the solution.
Also, SpaceX is now considering reusing the second stage. We could just use some superdracos and Heatshield/gridfins to slow down.

Seen your content ever since this video, I had just got out of sixth grade and was feeling really bored one day so I scrolled through youtube and saw this video on my recommended. That day, you became my favorite youtuber. I am now a sophomore in high school and I still watch your content, luckily, your content has made subjects become more easy to understand while being fun and engaging. The best part about you is that you actually care about your content, which is seen only in a few people today. Thanks for truly bringing space down to earth for everyday people like me.

this guy really needs more followers

OK, total nube question. Why not dump the tanks of the second stage, and just recover the engines? Heat shield around the expensive parts, ocean splashdown.

duuuude he is not kidding about DON'T PLAY KSP IF YOU WANT A LIFE
"annnnd that took me way too long" yes, this too is an important central aspect of KSP

What an incredible journey this channel has carried us through - SpaceX is now catching its booster with its launch tower!

Glad I discovered your channel!

There are three other possibilities that I can think of off the top of my head (and I'd wager that there are others as well):
An inflatable conical heat shield, similar to NASA's IRVE test shield, would be lightweight and could completely enclose the second stage. (McDonnell Douglas engineer Philip Bono designed Saturn-derived [using up to 8 F-1 engines], SSTO--Single-Stage-To-Orbit--reusable rockets that used similar--but much larger--inflatable heat shields for ocean landings; the rocket wouldn't have gotten wet because of the way the heat shield would have been oriented in the water.
Another option (which would permit rocket-braked landing of the second stage without needing a second set of landing engines) would be to use an aerospike rocket engine on the second stage. Aerospike engines have "inside-out" nozzles that automatically compensate for changes in the ambient atmospheric pressure, and they often utilize multiple combustor modules, which permits a wide throttle range (this is useful for landing a very light stage whose propellant tanks are mostly empty). They can also serve as "base (bottom)--first" heat shields (which can be actively cooled by circulating a relatively small amount of one propellant--usually the fuel--through them during re-entry and then venting it through the combustors). Philip Bono utilized aerospike engines in his many later designs for small to very large SSTO reusable spaceships. A recoverable & reusable second stage of this type is much easier to achieve than a SSTO ship, because SSTO vehicles--especially smaller ones; very large ones are not so difficult due to scaling effects--require very lightweight structures in order to achieve Earth orbit using just one stage (achieving SSTO on the Moon is easy, as the Apollo Lunar Modules demonstrated).
Even the existing Falcon 9 second stages could (with relatively little modification) be left in orbit and used as space tugs, even to help support the establishment of a lunar base. Plus, the stages could serve as DIY habitat modules to begin such a base; landed on the Moon with temporary, removable landing gear (their Vacuum Merlin engines would permit soft landings there, with properly-timed burns), the stages could be laid down horizontal and covered with lunar regolith (for radiation protection and for regulating their internal temperature) to serve as pressurized housing and storage modules.

Easy. Inflatable heat shield.
1) Dual membranes are deployed by a half-circular arm from the body just above the engine.
Like a windshield wiper blade on steroids. Arm sweeps down, out, over the engine, and then
back to the other side of the body, wrapping both membranes over the engine. Arm is grabbed/
locked by some mechanism on the other side of the body.
2)Then the expanding foam filler is injected between both membranes.
3)Depending on the differing tensioning and the timing of the tensioning of the two membranes,
you shape the foam plug.
3a) Initially, the outer membrane is kept tight, inner membrane left loose. Foam forces the inner
membrane to conform to the shape of the engine nozzle and thrust plate(?), so that it is solidly
attached to them.
3b)Then once a sensor on the thrust plate detects that the membrane has been forced
down against it, the outer membrane is then slowly detensioned to allow the heat shield to take the
proper mushroom shape.
So the heat shield is:
a) kept from sticking permanently to the engine nozzle, making it a mess to
remove(assuming they can recover the second stage in the first place).
b) the now-solid foam core is more or less surrounding and conformed to the engine nozzle,
so it's not going to float free under the forces of reentry, plus it's "attached" to the(previously noted)
heaviest part of the second stage, so it will be in a aerodynamically stable location on the stage.
c) the outer membrane and foam core, if wide enough, can slow down and protect the second
stage through re-entry. Now it's just a matter of a parachute for the last few miles through the
atmosphere.
You've used virtually no fuel except for the initial deorbit, and the mechanism is cheap enough
that if it doesn't work 100% of the time, you haven't lost anything. Also, if it lands in the ocean,
the most expensive part(the engine) is nicely wrapped and encased(like a christmas present),
keeping it from corroding. Or slowing down that exposure, anyways.
EDIT:
I should have added that as long as the inflatable heat shield fully conforms to the engine,
even if the rest of the second stage blows up or burns up during reentry due to whatever(instability?),
the engine(the most expensive part) is wrapped up in that coccoon of protection.

Why not build a removable heat shield at the top of second stage. When the payload deployed, dock the engine with the heatshield, then de-orbit with smaller engines or powerful rcs.
When it entered atmosphere, release the heatshield and slow with engines or parachute.

Great channel! Few days ago I was so far away from all space stuff, but watched just one SpaceX video and the madness began... Then I found your channel and just can't stop watching! You should definitely work for some space space company and fly at space! Cheers!

Came for the spacex subbed for the spacesuit

what no solid boosters? If you don't see shock heating on the way up, you are not trying hard enough.

tim tood : bare me with this one it will be a little more techinical and a little bit longer
video : 17 minutes
me : oh, times have changed

I just want to thank you for making these informative videos! I've always wanted to learn about rockets but I didn't know where to start or it was confusing. You explain things so well! I've learned so much for you. :) Thank you!

I noticed you talk about miles per hour, and kilometer per second. can't we just keep it all metric?

Beautiful video, really good work, this channel means a lot to all of us. Why not design the second stages to be disassembled and built into space capsule type things, space transformers?

I think the main reason they dont recover it is because A. The second stage is super cheap anyway, B. the attatched engine is *very* vaccuum optimized, and likely wouldnt have enough thrust to land propulsively, which means more recovery hardware, and therefore more mass.

I play KSP, I can confirm, really alone... :(
I'd like to have a brief understanding of Cryogenic engines please :) Thanks and great vid

There's this thing called Skip Re-Entry you forget about. If the upper stage did not attempt to directly re-enter, but instead made several passes through the very edge of the atmosphere where re-entry heating is not substantial enough to cause damage, then the thermal issues after several such passes would be easier to manage... This requires more loiter-capacity on the upper stage and small adjustments to trajectory between passes to ensure re-entry on target, but the potential mass-savings from reduced re-entry heating are worth it... Either way, though, upper stage recovery is likely to be a challenge.

To make a video in a full astronaut outfit I give this guy credit... well done that man

0:27 "Now bear with me, it's going to be a little technical, and a little bit longer..." You had no idea which direction your channel was going to take.

Thanks everyday astronaut for Making such beautiful and informative videos!!!

Really awesome video, Tim! From some of your earlier content, I thought your videos (while a pleasure to watch) were a bit below my level. I was very pleasantly surprised to learn so much from this one, and the production quality was also superb, which is hard to do because you had to stay in your spacesuit and make dozens of runs in KSP continuously interesting. Keep up the incredible and always-improving videos and posts!

Would it be possible to refuel the first stage after it has landed and send it back up again to retrieve the second stage? Without a payload the second time up, there'd be plenty of fuel left over to make a powered landing with both stages.
Remotely recoupling the stages would be a hell of a challenge though.

Fun fact: The original reusable second stage design of SpaceX was for them to use hypergolic fuels. That way they can keep the heat shield at the bottom, while it'll be powered by Superdracos straped on the side.

Giant party balloon.

I've been a fan of SpaceX for a long time, but I never understood the problems with second-stage recovery. This video was really informative - and a lot of fun to watch. I really learned a lot from it. Please keep posting.

a kerbal space program demonstration?
*instant sub, like, and notificiations*

I love the concept of "percent error" when it comes to failure rates in Kerbal. I don't use Kerbal but it's a nice tool when thinking about your videos.

I once read about an idea (one of NASA's many sometimes ridiculous ideas) of getting the orange fuel tanks from the shuttle into orbit, and instead of just letting them burn up in the atmosphere, they'd collect them into a cluster that they could repurpose as a large space station. Do you know anything about that plan, or have any thoughts on doing similar for modern second-stages? I'd love to eventually see a retrofitted fuel-tank ringstation one day :P

Awhile ago, I saw that SpaceX had come up with an interesting idea on how to recover the second stage. They modify the inter-stage adapter so instead of being thrown away, it opens up as three or four "flower peddles", remaining attached to the upper stage. In this position, now out of most of the atmosphere, it does not interfere with the operation of the second stage. After de-orbiting the second stage, the adapter closes up again, and additional flaps fold out to form a heat shield surrounding the engine. The second stage now comes down engine first. During the landing phase, the stage adapter opens up again, and forms the landing legs! The second stage engine fires to bring the stage down to the ground.

That demonstration of the landing second stage was excellent!! I don't envy they guys Elon put on this project I tell you that.
BTW, do you have heterochromia?

0:49 Is that an 8X10 of Astronaut Hank Hartsfield behind you on the left? I believe I have that same photo and he personally signed it to me at an Izaak Walton League dinner back in 1970!!

It's the very first video I watch of him, and after 3:45 min of
watching, he already makes a big mistake : no it wouldn't take the same
amount of fuel to decelerate as it took to accelerate, since the second
stage has a full tank on initial injection burn, and an almost empty one
for low orbit injection burn, and above all, IT DOESN'T HAVE THE PAYLOAD
ANYMORE, how does he think the space X 1st stage does to go around
after stage seperation ?

6:09
That’s facts. Kerbal has indeed made it harder for me to maintain stable human relationships

13:58 looks like New Sheperd

Dude. You using your own music is what convinced me to subscribe lol, some good stuff there.

When you reupload because you mix up tonnes with kg. rekt. I saw that, you got caught >:D

That Kerbal try and error part was genius and epic. Good job!!

I’ve tweeted this to Elon before
Keep second stages in orbit and use them as building blocks / modules of his own space station piece by piece.
Then crew up and have this as a holiday destination (weddings in space)
Or land these on the moon to build a base there.

How about putting heatshields on the landing gear? The landing gear would be opened outside the atmosphere. When entering it should provide lots of drag (and withstand the heat) while offering stability. It should be even possible to steer with them!

Elon has done a couple of "impossible" things already, I'm sure he'll figure out second stage recovery too :-)

Awesome video and simulation. Also cool spacesuit too. 😉👍

Anyone watching in 2020
Even on Jan. 1 2020?

Great videos

I'm going to Florida today to see the spaceX launch tomorrow, does anyone know how far the drone ship will be from the Apollo Saturn V center? And how visible will it be?

When Tim said a little bit longer, I thought this would be 2 hours. I got to used to 1-1.5 hour videos

in the boeing image why are the guys near the space plane in hazmat suits?

The idea you ended with is interesting, keeping your second stages in orbit to use their collective fuel later. I think they could also use these second stages and their leftover fuel to clean up space junk. They could grab onto a defunct satellite or similar and use their remaining fuel to deorbit it.

why not use the realism overhaul mod? and spaceY? and your mechJeb profile looks a little off. maybe it had to change due to the increased gravity. need to go play some ksp myself 😉

This is the first time I've come across one of your videos and I liked it, but I felt about as comfortable watching you trying to explain orbital dynamics in that spacesuit as you probably did wearing it.

Why not use the atmosphere to slow you first? Get just inside the atmosphere, maybe 62km, and orbit 10 times or so. Then use rcs with the oberth effect to keep your periapsis at 65km. That will bring you in much slower.

If I understand correctly, the merlin engines are the same but with a different nozzle. Could they potentially find a way to jettison the "extra bits" of nozzle and still be able to use that engine?

New video idea: Your thought in SpaceX mars colonization rocket

I miss this Tim so much

NASA want their binoculars back.

great video!! thank you for educating us and making it so accessible. very very interesting and helpful

Sorry for the blasphemy, but wouldn't it be easier if they used... parachutes?

*Everyday Astronaut uses kerbal space program*
*Simple rockets 2 sitting in the corner waiting to get noticed*

Why did they drop the Saturn V entirely? They haven't had another vehicle that could carry as large of a payload since. It was proven technology and it launched Skylab, which was HUGE inside compared to the ISS. Astronauts could run on the walls! Imagine four Skylabs linked together. How many total smaller-payload launches did it take to construct the skinny ISS?

at 3:45 you talked about the spacecraft needing the same amount of fuel to retro burn but thats not really the case, after the 2nd stage boosts up to LEO its significantly lighter due to having burned alot of its fuel already therefore lowering the delta V required for it go slow down therefore less fuel needing to be burnt.
Great video, subbed :)

Why they dont use gridfins, parachute and airbags?

Awesome video. Worth the effort and if you're wondering who is the person that watched the full video. It was me 🤣

Maybe if we made a new space station that operated as a rocket repair facility, we wouldn’t need to have second stages at all. Just keep anything going that fast in space. They could use bigger single stage boosters to transport fuel and materials into orbit. Anything that needs to go further into space can be launched into a higher orbit or geo, or whatever from that station

One of the legendary cosmonaut spacesuit episodes lol. Tim, in a recent episode, you were still counting days since you last wore it. You're actually subconsciously counting down until the next day you don that uniform!! Surprise us!! May 27th would be a good day!!

Excellent presentation. Pace was pretty good there. Smooth editing too! Thanks for the wonderful information!

This is an awesome channel! Great and detailed explanation on the challenges of recovering the 2nd stage!

I’ve seen images of a concept for a reusable second stage that resembles the lower half of the ITS spacecraft 2016 version only with a heat shield in place of where the Raptor engines would go at the bottom. I would imagine it could resemble something like that because the only way to make a second stage return to earth is to have the engines built in similar to how the Super Dracos are configured on the Dragon V2. It probably wont use landing legs for droneship or landing pad touchdowns because that would add complexity & weight so an ocean landing with parachutes would be the likely return/recovery method.

What about using atmospheric braking at Perigee for several passes to re-circularize to a very low orbit before the final reentry? Wouldn't that noticeably cut down on the required dV vs payload weight penalty?

Where did you get your astronaut suit?

You did a good job in 2017 but you do an *awesome* job in 2019. Keep up the good work.

It's kind of hilarious seeing the ULA slide advertise 'Sports Car to the Stars' at 16:00. I wish I could have seen the marketing person's face when they saw what SpaceX was doing with their Falcon Heavy test a few months later.

Do they still use mech jeb on Kerbal?

You miss a key point with the attempt from 13:00 on, by the way. If you reduce the size and mass of your payload, you can increase the size and mass of your upper stage, so you bring the same total mass to orbit- and have more fuel to work with later on. Because you neglected to do this, your mass budgets were tighter than they should have been on that attempt...

At 10:30, what was the delta v penalty for adding the heat shield?

Great video 👍 very interesting

Subbed ! Keep up the great work man !

Another promising use for 2nd stage is using the empty tank as a space station component. Compared to the complicated ULA concept of refueling them and sticking a few stages together in orbit, using an empty propellent tank as a room on a space station is probably a much more realistic use for the 2nd stage.

Super great production value. Keep up the good work Tim!

I think you should use only inflatable heat shield (IHS), 4 thursters, probe core, batteries, solar panels (optional) and some parachutes to land it (Apollo way or KSP way). It would only be around more than 1,5 tons heavier. The more lightweight the better. It would be easier to point the IHS (put at the top of the upper stage) at the prograde direction and let the atmospere do the rest of the job, instead of a 3,75m HS and some heavy meltable wings. BUT, the not-so-good fact is that if the second stage is too *_LONG_* , it could tip over and could end up being destroyed. Trust me, I tried in KSP. In that case, put the IHS at the back of that stage, near the engine *_SOMEHOW_* . It would make that stage a lot more stable during reentry, but it is also mean that the upper stage would be a lot more HEAVIER to be carried around, since 2 IHS would have a total weight of exactly 3t.
It's just my own opinion. Feel free to share your own. And don't judge or critize each other's.

...I honestly thought I'd subscribed ever since the first time you were on TMRO!!! Oh well, I did it tonight. Sorry it took so long!
Great idea, using KSP to illustrate the HUGE difference between reusing first and second stages. You've got me thinking: heat shield; those hi-thrust RCS motors which use both fuel and oxidizer; air brakes; and chutes. I'll have to try it! My wife will be missing me this week... ;-)

Love the channel, but have a question - what is with 'hip hip' after the countdown?

I proposed the same idea during the Apollo era. Keep it up there and use it later. Now, we can do much more such as launch a companion to dock and reconfigure the stage to come back as a plane. Transformer in disguise.

I'm wondering if the fairing that gets deployed from around the payload could somehow be kept attached and used as a air break or sorta-parachute or heat shield. Since you have to have a fairing, maybe it could be used for re-entry as well.

Keeping those stages in orbit might actually have been my idea back in 1992 I postulated the idea of taking the fuel tank from the space shuttle up into orbit with it and using those components to build things in space and the residual fuel to eventually boost that station to a higher more stable orbit :-) that's when dr. Green told me they actually did have a process that would allow them to take the external tank into orbit with the shuttle

What mods do you use? And where do you get them?

Move the heat shield to the engine end and eject it once it's served it purpose. Once the ship bas deployed the payload, and since speed is relative, disconnect from the heat shield at the payload end, use thrusters to flip the second stage around and install the shield over the engine end (similar to Apollo CM and LM spin around) . Keep the engine end (heavy end) entering first. Before landing dump the heat shield into the ocean.

what about skimming the karmen (Can't remember spelling) line multiple times to use the atmosphere to slowly slow the rocket to a manageable rate for descent over multiple orbits?

Quick question, for the Crs launches (or any launch that lands at lz1) are you able to see it from the Banana creek viewing area?

You used thrusters and stationary fins to guide your second stage but what about grid fins?

I assume SpaceX will store the heat shield between the first and second stages, then move it to the rear to cover the rocket engine during the first part of reentry. SpaceX is already working on automatic docking. As the heat shield does it job, it ablates and protects the rocket engine. When the speed drops sufficiently, pyrotechnics can eject the heat shield; whereupon, the rocket engine can be fired to land the second stage.

Put the heat shield in front of the second stage engine (pop-flip-dock ala LEM) and then dump it for landing. Stick an ion thruster under where the heat shield was a de-orbit slowly with that (is there a big hurry to land?).

Couldn't have anticipated this video would be so informative, learned and enjoyed a lot.
Also i have an idea, instead of wearing the orange suit, you can take some inspiration from spacex's suit (will definitely make you look more cooler :)

Hi ! kinetic energy vary like the square of the speed so why did you say the energy of the reentry vary like the cube ?

Hey Tim, so what actually happens to the second stage? I mean specifically, each time SpaceX launches something, what is going on with the second stage after it ejects it's payload and where does it end up?