This is also good news for SpaceX. Satellite and payload designers generally design to common fairing sizes so they have a choice in launch providers. The 8.7m 9x4 fairing is similar to the 9m Starship fairing so more designers will now be designing payloads that use the full Starship capacity.
I agree, though I think the real winner here is the customers. The New Glenn 9x4 has a higher targeted payload capacity that an expended Falcon Heavy. Mission design takes years, and payload mass is the most important constraining factor. So it'd now be fairly reasonable approach to start building now for 9x4's constraints, and then fly on it or Starship depending on readiness and price. If customers start doing this now, that also means a quicker pickup on using the increased launch capability.
On a funnier note, the 9 in Falcon 9 is the number of engines. So blue origin is somewhat picking up on their naming scheme. Or, by BO's scheme, it'd be the Falcon 9x1, or the Starship 33x6.
Launch cost was already a single digit percentage of total cost when using Falcon-9s. Reduction in launch cost doesn't really change anything at that point.
Ignoring that weaponizing space would backfire badly (you want hundreds of nukes in orbit? yeah actually let's just not do that) and thus no one considering it either.
Good lord, find something else to be angry about. Decades of metric vs imperial threads should have you convinced by now that no matter how hated they are, these units aren't going away any time soon.
The incremental improvements to the engine thrust is par for the course. The exciting thing in this announcement is the new 9x4 configuration (9 and 4 engines in the first and second stages vs the current 7x2). They don't mention whether the tanks will get stretched to allow for more fuel, or if this just burns the fuel faster. Starship generations keep getting both more engines and longer.
Yup, the thrust improvements were expected. The BE-4 engines have quite a low chamber pressure for their engine class, so they can gain significant performance just by increasing chamber pressure.
Additionally, the New Glenn fairings are very large for their weight capacity. New Glenn has 3x the fairing volume compared to the Falcon Heavy, but can throw less mass. So many expected that BO designed it this way because they expected to increase performance of their engines in the future, making the weight/volume ratio of their fairing more balanced.
New Glenn has 45t of capacity now. Increasing thrust by 15% should increase that to 51t, thus making New Glenn 7x2 also just barely a Super Heavy booster. Perhaps they didn't call that out because that would overshadow the 9x4 announcement.
Falcon Heavy is a huge outlier, and has never actually demonstrated the capability to lift close to its nameplate capacity to LEO. Falcon 9 is already volume constrained to LEO outside of Starlink or Dragon launches, and Starlink is packed incredibly densely to get to that point. When I ran the numbers some time back, New Glenn was similar to Falcon 9.
Increasing thrust by 15% doesn't just increase payload by 15%. I don't know a simpler way to estimate this than to run a simulation, and I don't have one with numbers I can toggle.
The really big change will be launch thrust to weight ratio. Going from ~1.2 to ~1.35 gives you 75% more thrust at launch which means you spend less time fighting gravity, less time in the thick parts of the atmosphere, and less time to get past the trans-sonic region.
There are other constraints on how quick the vehicle should be, even when engine performance allows: you probably won't want to hit maximum dynamic pressure in too-thick air.
> New Glenn has 3x the fairing volume compared to the Falcon Heavy, but can throw less mass.
To be fair, the Falcon Heavy has way too little fairing volume for it's lift capacity (and apparently it is in the process of getting an extra 50% or so?)
I believe that a larger fairing and vertical integration capability for Falcon is in the works as a result of the last round of the National Security Launch Contracts that SpaceX won.
The fairings aren't constrained to the diameter of the booster, they already have a larger diameter than the booster.
The small size of the Falcon Heavy fairing is probably due to the fact that they are the same size as the Falcon fairing, and it was designed when Falcon could throw < 1/2 the mass it can currently throw, let alone the Falcon Heavy.
BE-4 is 140 bar chamber pressure vs SpaceX Raptor 2 at 350 bar. Thrust to weight of BE-4 is 80:1 vs Raptor2 at 140:1.
I don't think the capabilities are as different as those numbers imply. I believe that it's due to the conservativeness of Blue Origin and SpaceX's willingness to blow up hundreds of engines on the test stand to iteratively push the margins.
I believe Raptor 2 operates at a lower chamber pressure. According to Wikipedia, Raptor 3 is 350 bar, and its thrust to weight ratio is 183.6:1.
BE-4's chamber pressure is low for its design, but it would be very difficult to increase it to Raptor's levels. Full-flow staged combustion causes the propellants to be gasses when they enter the combustion chamber, and chemical reactions in gasses happen more quickly, allowing for efficient combustion in a smaller combustion chamber. The smaller volume makes it easier to contain higher pressures.
Based on the photo posted by the Blue Origin CEO the tanks are definitely getting stretched (also looks like a slightly different fin, landing leg, and fairing config)
> These enhancements will immediately benefit customers already manifested on New Glenn to fly to destinations including low-Earth orbit, the Moon, and beyond.
It sounds as if they already have a long line of customers which have booked flights to all these destinations. (If they actually do, splendid!)
I think SpaceX is taking the re-usability part of Starship as foundation. Meaning they won't move forward until it's solved. With Falcon they added it as a bit of a secondary priority. They've spent so much resources trying to get the second stage back to earth. I think they should have just focused on getting the whole system flying to orbit, throwing away second stage for now, and using that platform to replace falcon. Eventually, they could refactor second stage to get it back to earth. But perhaps it's all too coupled that it has to be solved at one time (not later).
Seems BO is taking the NASA approach of not being so cavalier with testing. You can tell people you expect the thing to fail, but repeatedly seeing them fail is still seen as a negative.
New Glenn is manufactured with a different philosophy, so Blue can't be Starship levels of cavalier with testing. It would cost way too much to do with their current approach.
The factory tours for the two show this difference. New Glenn production is a lot more classical aerospace in terms of a high tech cleanroom factory being built from the start, versus a rocket that started out being built in tents that is slowly guiding the factory design as the tolerances are sorted out.
I think Blue's philosophy is pretty similar to the old space giants, except for being willing to invest a ton of money into improvements and new technologies without waiting around for the government to give them a blank check first.
Maybe we'll find that the thing limiting aerospace progress wasn't even that old space was afraid to test, but rather that they were simply unwilling to progress on their own initiative.
Sure, we went through Gemini, Mercury, and Apollo 1-7 before humans orbited the moon. However, we started from blank sheet of paper back then. BO has the knowledge learned from Gemini, Mercury, and all of Apollo to start.
I don't need a YT influencer to know my NASA history. I'm old enough it was taught in school while young enough to not have lived through any of it.
I am so old I lived through it! - 13 years old staying up all night to watch Neil take his little stroll. Genuine question, how DO they teach it in school? Do they get into the physics of any of it (orbital mechanics, rocketry etc)? Do they get into the cold war geopolitics of it? Do they teach the amazing accomplishments of the Soviet Union as well as NASA?
It's not like it was a class on rocket science, but more of just history of each program being a stepping stone towards the ultimate goal of landing on the moon
FYI, that talk was poorly received in the aerospace community.
Destin missed that the entire point of Artemis is not to one and done the Moon again but build towards getting to Mars. And the repeated "we're going, right?" shtick was condescending in the same way Hegseth wanting generals to cheer and holler for him was.
He acted like a petulant influencer. Not a science communicator.
Few of us like having our work critiqued by an "outsider". Especially when such critique threatens your paycheck.
Nevertheless, it's hard to imagine any kind of sustainability when each launch costs north of $2 Billion and nearly all hardware is thrown away each time. In that sense, his criticism was very valid, even if tough to hear.
> Few of us like having our work critiqued by an "outsider"
I said aerospace community. Not NASA. Plenty of people hate Artemis. Most people hate SLS. But they hate it for good reason. Destin touched on some of that. But because he missed Artemis's purpose, he bungled that criticism too.
I like Destin. But he missed the mark pretty badly on that video, and I judge him for now following up with clarification.
NASA doesn't build rockets. ULA (Lockheed Martin + Boeing), Northrup Grumman, Aerojet Rocketdyne, etc. do. That's what I took "aerospace community" to mean. The community of people working in aerospace. Artemis has shifted focus several times now, since before it was called "Artemis" as each political administration has emphasized different goals, and as mission planning has evolved with hardware development. Over the years I have read everything from an abstract Moon-to-Mars testbed, a 5 year deadline crash program to land "the first woman and the next man" at the lunar south pole, a sustained lunar presence, the "first woman and first person of color" on the moon, safety science and Mars prep, and latest a de-scoping of the cis-lunar gateway station and shift toward private industry. Such things are difficult to avoid under constantly changing leadership.
Given that, I don't see any problem with the way Dustin presented the situation, nor do I feel any kind of need for an apology or clarification.
> ULA (Lockheed Martin + Boeing), Northrup Grumman, Aerojet Rocketdyne, etc. do. That's what I took "aerospace community" to mean
Fair. Not who I talk to. None of them get their bread buttered by Artemis. A few would if it were dumped.
> I don't see any problem with the way Dustin presented the situation, nor do I feel any kind of need for an apology or clarification
Fair enough. I thought the "we're going, right" was childish. But it works for YouTube, and it's not like NASA didn't know they were inviting an influencer.
But suggesting NASA should just redo Apollo was dumb, and he should realise it's dumb. If that were the case, I'd argue for cancelling the programme.
That was my interpretation of that talk. It seemed like a regurgitation of opinions of an old aerospace engineer. But that's probably unfair to Dustin, I believe that he actually came to that conclusion himself. But it was a really incorrect take that SLS was somehow the "safe bet" in comparison to betting on Starship. The whole talk just seemed insane based on what I knew about both programs.
AFAICT it's "getting to Mars" for SpaceX and their ecosystem, and "sustainable cislunar economy" for Nasa, ULA and Blue Origin and their respective ecosystem. For example, see ULA's "cislunar 1000" concept from ~10 years ago.
Either way, your criticism of Destin's presentation hits. One and done'ing the Moon is not particularly helpful in setting up a sustainable cislunar economy.
> it's "getting to Mars" for SpaceX and their ecosystem, and "sustainable cislunar economy" for Nasa, ULA and Blue Origin and their respective ecosystem
In 2017 Space Policy Directive 1 amended the national space policy to pursue "the return of humans to the Moon for long-term exploration and utilization, followed by human missions to Mars and other destinations" [1]. This formally established the Artemis program [2].
Destin's criticisms were apt for Constellation [3], which was closer to an Apollo reboot. They were uninformed for Artemis.
I was thinking the same thing - big leap. But maybe there’s no real difference between ending up in Earth orbit versus lunar orbit, in that the basic aspects (thrust, staging, navigation, etc) are all there already? But everything relating to the lander (releasing it, landing it) would be new.
I think Blue Origin's biggest problem is they don't currently have a planned or real Falcon 9 competitor.
These expected and incremental updates (to a years late system that still needs to be proven) are putting the payload capacity in the Falcon Heavy range and there's roughly 1 Falcon Heavy launch per year.
There are over 100 Falcon 9 launches per year. Yes a bunch are Starlink so you can exclude those when estimating demand from external customers but the point remains that there isn't currently a commercial demand for bigger payloads and/or higher orbits than what Falcon 9 can do.
SpaceX has the same problem: Starship is a superheavy lifter where Falcon Heavy has little demand and Starship is even bigger. At least SpaceX has Starlink as induced demand. Blue Origin doesn't.
Defenders will argue the greater volume and payload weights will create new possibilities because payloads can only be designed for available launch systems but satellites don't really seem to be getting any bigger and there are only so many geosynchronous military payloadcs and interplanetary probes that need to be launched.
Interesting that "...additional vehicle upgrades include a reusable fairing..."
I wonder how they'll be implementing that since SpaceX gave up on recapturing fairings (seemingly too soon, but only from the POV of someone with no internal info).
> SpaceX performs some amount of cleaning and refurbishing before using the previously flown fairings on a subsequent flight. SpaceX has reflown fairing halves more than 300 times, with one being reflown for 34 times.
They gave up on catching them in nets, because it turns out they're fine splashing directly into the water.
This is also good news for SpaceX. Satellite and payload designers generally design to common fairing sizes so they have a choice in launch providers. The 8.7m 9x4 fairing is similar to the 9m Starship fairing so more designers will now be designing payloads that use the full Starship capacity.
I agree, though I think the real winner here is the customers. The New Glenn 9x4 has a higher targeted payload capacity that an expended Falcon Heavy. Mission design takes years, and payload mass is the most important constraining factor. So it'd now be fairly reasonable approach to start building now for 9x4's constraints, and then fly on it or Starship depending on readiness and price. If customers start doing this now, that also means a quicker pickup on using the increased launch capability.
On a funnier note, the 9 in Falcon 9 is the number of engines. So blue origin is somewhat picking up on their naming scheme. Or, by BO's scheme, it'd be the Falcon 9x1, or the Starship 33x6.
> Falcon 9x1, or the Starship 33x6.
...and we'd be back to steam engine wheel formulas: https://en.wikipedia.org/wiki/Whyte_notation
Such standardization will set a design envelope for the Golden Dome weapons..
Launch cost was already a single digit percentage of total cost when using Falcon-9s. Reduction in launch cost doesn't really change anything at that point.
Ignoring that weaponizing space would backfire badly (you want hundreds of nukes in orbit? yeah actually let's just not do that) and thus no one considering it either.
Indeed, exciting times! What looked like science fiction in Reagan's era (brilliant pebbles)? now seems almost too banal and simple to even build.
I REALLY wish they would stop displaying ft, mi, lbs. It actually angers me.
Good lord, find something else to be angry about. Decades of metric vs imperial threads should have you convinced by now that no matter how hated they are, these units aren't going away any time soon.
Intel should announce their new 40ni (40-nanoinch) process node next April Fools' Day.
If I wouldn't know better, I'd assume using the metric system is actually a disadvantage when building SOTA rockets.
Welcome to Earth. Some countries use different unit systems. (Some even use a hodge podge of multiple systems!) Please enjoy your stay.
By "some countries" you mean United States, Liberia, and Myanmar
You’ll find imperial units in lots of Chinese products too.
After all, they’re the ones manufacturing the imperial screws, etc.
Fwiw, Myanmar has been transitioning to metric since 2013 but, well, they had other worries.
Likewise, Liberia set up a transition program in 2018.
AFAIU both still use a bunch of traditional non US units too, like the UK.
and also by ‘some countries’ they mean about 4% of the earth’s population, or 1 in 25 people.
Good thing they didn’t use two of those units.
Wait until you find the places people use non-SI but still metric units, it's super fun.
Why use English instead of Esperanto?
If you feel that strongly, maybe the rest of the world can use the metric system for their reusable rocket programs.
The incremental improvements to the engine thrust is par for the course. The exciting thing in this announcement is the new 9x4 configuration (9 and 4 engines in the first and second stages vs the current 7x2). They don't mention whether the tanks will get stretched to allow for more fuel, or if this just burns the fuel faster. Starship generations keep getting both more engines and longer.
Yup, the thrust improvements were expected. The BE-4 engines have quite a low chamber pressure for their engine class, so they can gain significant performance just by increasing chamber pressure.
Additionally, the New Glenn fairings are very large for their weight capacity. New Glenn has 3x the fairing volume compared to the Falcon Heavy, but can throw less mass. So many expected that BO designed it this way because they expected to increase performance of their engines in the future, making the weight/volume ratio of their fairing more balanced.
New Glenn has 45t of capacity now. Increasing thrust by 15% should increase that to 51t, thus making New Glenn 7x2 also just barely a Super Heavy booster. Perhaps they didn't call that out because that would overshadow the 9x4 announcement.
Falcon Heavy is a huge outlier, and has never actually demonstrated the capability to lift close to its nameplate capacity to LEO. Falcon 9 is already volume constrained to LEO outside of Starlink or Dragon launches, and Starlink is packed incredibly densely to get to that point. When I ran the numbers some time back, New Glenn was similar to Falcon 9.
Increasing thrust by 15% doesn't just increase payload by 15%. I don't know a simpler way to estimate this than to run a simulation, and I don't have one with numbers I can toggle.
The really big change will be launch thrust to weight ratio. Going from ~1.2 to ~1.35 gives you 75% more thrust at launch which means you spend less time fighting gravity, less time in the thick parts of the atmosphere, and less time to get past the trans-sonic region.
There are other constraints on how quick the vehicle should be, even when engine performance allows: you probably won't want to hit maximum dynamic pressure in too-thick air.
> New Glenn has 3x the fairing volume compared to the Falcon Heavy, but can throw less mass.
To be fair, the Falcon Heavy has way too little fairing volume for it's lift capacity (and apparently it is in the process of getting an extra 50% or so?)
I believe that a larger fairing and vertical integration capability for Falcon is in the works as a result of the last round of the National Security Launch Contracts that SpaceX won.
Because the falcon boosters have to be road transportable.
The fairings aren't constrained to the diameter of the booster, they already have a larger diameter than the booster.
The small size of the Falcon Heavy fairing is probably due to the fact that they are the same size as the Falcon fairing, and it was designed when Falcon could throw < 1/2 the mass it can currently throw, let alone the Falcon Heavy.
The numbers:
BE-4 is 140 bar chamber pressure vs SpaceX Raptor 2 at 350 bar. Thrust to weight of BE-4 is 80:1 vs Raptor2 at 140:1.
I don't think the capabilities are as different as those numbers imply. I believe that it's due to the conservativeness of Blue Origin and SpaceX's willingness to blow up hundreds of engines on the test stand to iteratively push the margins.
I believe Raptor 2 operates at a lower chamber pressure. According to Wikipedia, Raptor 3 is 350 bar, and its thrust to weight ratio is 183.6:1.
BE-4's chamber pressure is low for its design, but it would be very difficult to increase it to Raptor's levels. Full-flow staged combustion causes the propellants to be gasses when they enter the combustion chamber, and chemical reactions in gasses happen more quickly, allowing for efficient combustion in a smaller combustion chamber. The smaller volume makes it easier to contain higher pressures.
> incremental improvements to the engine thrust is par for the course
Blue Origin is matching from Raptor 2 to Raptor 3. Comparing thrust at sea level, lbf:
Raptor 2 | 507,000 [1]
Raptor 3 | 617,000 [1]
BE-4 | 557,143
BE-4' | 642,857
BE-3U | 160,000
BE-3U' | 200,000
[1] https://en.wikipedia.org/wiki/Ton-force#Tonne-force
Based on the photo posted by the Blue Origin CEO the tanks are definitely getting stretched (also looks like a slightly different fin, landing leg, and fairing config)
Yep, 70 tons to LEO is more than the Falcon Heavy.
Thing that doesn’t exist yet will have better specs than thing that’s been in use for over 7 years!
News at 10
> These enhancements will immediately benefit customers already manifested on New Glenn to fly to destinations including low-Earth orbit, the Moon, and beyond.
It sounds as if they already have a long line of customers which have booked flights to all these destinations. (If they actually do, splendid!)
For those who aren’t aware, the next flight is to lunar orbit, with a planned landing on the moon:
https://en.wikipedia.org/wiki/Blue_Moon_Pathfinder_Mission_1
That seems like a big jump between flights. I'm used to the spend and explode fast incremental iterations of SpaceX.
I think SpaceX is taking the re-usability part of Starship as foundation. Meaning they won't move forward until it's solved. With Falcon they added it as a bit of a secondary priority. They've spent so much resources trying to get the second stage back to earth. I think they should have just focused on getting the whole system flying to orbit, throwing away second stage for now, and using that platform to replace falcon. Eventually, they could refactor second stage to get it back to earth. But perhaps it's all too coupled that it has to be solved at one time (not later).
Starship can fly to orbit, it's just not cheaper than a reusable falcon 9 that way
Starship has only flown 11 times. I suspect it's more cost effective than the Falcon 9 was when it had 11 launches, long before any reuse.
Counting all those explosions as "flown" is pretty charitable.
Seems BO is taking the NASA approach of not being so cavalier with testing. You can tell people you expect the thing to fail, but repeatedly seeing them fail is still seen as a negative.
New Glenn is manufactured with a different philosophy, so Blue can't be Starship levels of cavalier with testing. It would cost way too much to do with their current approach.
The factory tours for the two show this difference. New Glenn production is a lot more classical aerospace in terms of a high tech cleanroom factory being built from the start, versus a rocket that started out being built in tents that is slowly guiding the factory design as the tolerances are sorted out.
I think Blue's philosophy is pretty similar to the old space giants, except for being willing to invest a ton of money into improvements and new technologies without waiting around for the government to give them a blank check first.
Maybe we'll find that the thing limiting aerospace progress wasn't even that old space was afraid to test, but rather that they were simply unwilling to progress on their own initiative.
Even old space got further in 20 years than Blue Origin.
Did I miss a privately funded, reusable heavy lift rocket coming out of old space in the past 20 years?
Sad part is that even though SpaceX / Elon has been very clear about expected outcomes it's still used against them.
Play stupid games. Win stupid prizes.
NASA still had much smaller jumps in capability between flights. Check out the Smarter Every Day NASA talk.
Sure, we went through Gemini, Mercury, and Apollo 1-7 before humans orbited the moon. However, we started from blank sheet of paper back then. BO has the knowledge learned from Gemini, Mercury, and all of Apollo to start.
I don't need a YT influencer to know my NASA history. I'm old enough it was taught in school while young enough to not have lived through any of it.
I am so old I lived through it! - 13 years old staying up all night to watch Neil take his little stroll. Genuine question, how DO they teach it in school? Do they get into the physics of any of it (orbital mechanics, rocketry etc)? Do they get into the cold war geopolitics of it? Do they teach the amazing accomplishments of the Soviet Union as well as NASA?
It's not like it was a class on rocket science, but more of just history of each program being a stepping stone towards the ultimate goal of landing on the moon
> Check out the Smarter Every Day NASA talk
FYI, that talk was poorly received in the aerospace community.
Destin missed that the entire point of Artemis is not to one and done the Moon again but build towards getting to Mars. And the repeated "we're going, right?" shtick was condescending in the same way Hegseth wanting generals to cheer and holler for him was.
He acted like a petulant influencer. Not a science communicator.
Few of us like having our work critiqued by an "outsider". Especially when such critique threatens your paycheck.
Nevertheless, it's hard to imagine any kind of sustainability when each launch costs north of $2 Billion and nearly all hardware is thrown away each time. In that sense, his criticism was very valid, even if tough to hear.
> Few of us like having our work critiqued by an "outsider"
I said aerospace community. Not NASA. Plenty of people hate Artemis. Most people hate SLS. But they hate it for good reason. Destin touched on some of that. But because he missed Artemis's purpose, he bungled that criticism too.
I like Destin. But he missed the mark pretty badly on that video, and I judge him for now following up with clarification.
> I said aerospace community. Not NASA.
NASA doesn't build rockets. ULA (Lockheed Martin + Boeing), Northrup Grumman, Aerojet Rocketdyne, etc. do. That's what I took "aerospace community" to mean. The community of people working in aerospace. Artemis has shifted focus several times now, since before it was called "Artemis" as each political administration has emphasized different goals, and as mission planning has evolved with hardware development. Over the years I have read everything from an abstract Moon-to-Mars testbed, a 5 year deadline crash program to land "the first woman and the next man" at the lunar south pole, a sustained lunar presence, the "first woman and first person of color" on the moon, safety science and Mars prep, and latest a de-scoping of the cis-lunar gateway station and shift toward private industry. Such things are difficult to avoid under constantly changing leadership.
Given that, I don't see any problem with the way Dustin presented the situation, nor do I feel any kind of need for an apology or clarification.
> ULA (Lockheed Martin + Boeing), Northrup Grumman, Aerojet Rocketdyne, etc. do. That's what I took "aerospace community" to mean
Fair. Not who I talk to. None of them get their bread buttered by Artemis. A few would if it were dumped.
> I don't see any problem with the way Dustin presented the situation, nor do I feel any kind of need for an apology or clarification
Fair enough. I thought the "we're going, right" was childish. But it works for YouTube, and it's not like NASA didn't know they were inviting an influencer.
But suggesting NASA should just redo Apollo was dumb, and he should realise it's dumb. If that were the case, I'd argue for cancelling the programme.
Nobody is going to Mars anytime soon. It's the moon or nothing.
That was my interpretation of that talk. It seemed like a regurgitation of opinions of an old aerospace engineer. But that's probably unfair to Dustin, I believe that he actually came to that conclusion himself. But it was a really incorrect take that SLS was somehow the "safe bet" in comparison to betting on Starship. The whole talk just seemed insane based on what I knew about both programs.
AFAICT it's "getting to Mars" for SpaceX and their ecosystem, and "sustainable cislunar economy" for Nasa, ULA and Blue Origin and their respective ecosystem. For example, see ULA's "cislunar 1000" concept from ~10 years ago.
Either way, your criticism of Destin's presentation hits. One and done'ing the Moon is not particularly helpful in setting up a sustainable cislunar economy.
> it's "getting to Mars" for SpaceX and their ecosystem, and "sustainable cislunar economy" for Nasa, ULA and Blue Origin and their respective ecosystem
In 2017 Space Policy Directive 1 amended the national space policy to pursue "the return of humans to the Moon for long-term exploration and utilization, followed by human missions to Mars and other destinations" [1]. This formally established the Artemis program [2].
Destin's criticisms were apt for Constellation [3], which was closer to an Apollo reboot. They were uninformed for Artemis.
[1] https://trumpwhitehouse.archives.gov/presidential-actions/pr...
[2] https://en.wikipedia.org/wiki/Artemis_program
[3] https://en.wikipedia.org/wiki/Constellation_program
It worked pretty well for F9.
Mostly because the whole landing thing was pretty novel.
The first flight of the Saturn V was 'all up'. Every stage was the real live thing. No dummy stages, real payload.
The third flight of the Saturn V took 3 astronauts in their spacecraft to lunar orbit and back.
https://appel.nasa.gov/2010/02/25/ao_1-7_f_snapshot-html/
That's true, but there were several prior rockets in the Saturn family which were used to test various parts of the design and mission: https://en.wikipedia.org/wiki/Saturn_(rocket_family)
I was thinking the same thing - big leap. But maybe there’s no real difference between ending up in Earth orbit versus lunar orbit, in that the basic aspects (thrust, staging, navigation, etc) are all there already? But everything relating to the lander (releasing it, landing it) would be new.
I recognize a fellow Kerbal space program enthusiast by what they consider to be challenges and what is just "more of the same". :)
I think Blue Origin's biggest problem is they don't currently have a planned or real Falcon 9 competitor.
These expected and incremental updates (to a years late system that still needs to be proven) are putting the payload capacity in the Falcon Heavy range and there's roughly 1 Falcon Heavy launch per year.
There are over 100 Falcon 9 launches per year. Yes a bunch are Starlink so you can exclude those when estimating demand from external customers but the point remains that there isn't currently a commercial demand for bigger payloads and/or higher orbits than what Falcon 9 can do.
SpaceX has the same problem: Starship is a superheavy lifter where Falcon Heavy has little demand and Starship is even bigger. At least SpaceX has Starlink as induced demand. Blue Origin doesn't.
Defenders will argue the greater volume and payload weights will create new possibilities because payloads can only be designed for available launch systems but satellites don't really seem to be getting any bigger and there are only so many geosynchronous military payloadcs and interplanetary probes that need to be launched.
Not terribly familiar with the details, but Amazon kuiper has a contract with blue origin and other providers.
Interesting that "...additional vehicle upgrades include a reusable fairing..."
I wonder how they'll be implementing that since SpaceX gave up on recapturing fairings (seemingly too soon, but only from the POV of someone with no internal info).
https://en.wikipedia.org/wiki/SpaceX_fairing_recovery_progra...
> SpaceX performs some amount of cleaning and refurbishing before using the previously flown fairings on a subsequent flight. SpaceX has reflown fairing halves more than 300 times, with one being reflown for 34 times.
They gave up on catching them in nets, because it turns out they're fine splashing directly into the water.
Thanks for the updated info!
They still recover the fairings. They gave up on trying to catch them out of the air and now just let them land in the water and pick them up.
Presumably this was written by somebody from aerospace, who's unaware of the nuances of what "An update on New Glenn" usually means in Silicon Valley.
> the nuances of what "An update on New Glenn" usually means in Silicon Valley
What does it mean?
Usually it’s how a closing down business announcement is titled in the startup world. It’s not typically used to give a real update on a project.
Jeff Bezos is not a net positive to humanity. If we ignored people like him, the world would be a better place...