NASA's Artemis Program Updates and Discussion Thread 4

[Bob Shaw]

To my knowledge, there has never been an instance in which a descent engine, on any lunar landing spacecraft has been reignited on the lunar surface in order for the landing spacecraft to get back into orbit.

Not to orbit, but certainly a relaunch: Surveyor 5.

[Bob Shaw]

The Apollo LM Ascent Engine wasn't burdened by the convoluted plumbing associated with the cryogenic propellant engines on Starship. Nor was it exposed to any rocks blasted around during landing, or any rocks at all. The LM used hypergolic fuels so the engines were 'simple' and there was actually a backup process for ignition if the Ascent Engine failed to light up when the button was pressed. The Ascent Engine was also tested a huge number of times, including during the Apollo 5 unmanned test flight.

The Soviet LK *did* reuse the Descent Engine for launch, but had a protective shroud over it at the point of landing. And, on the LK, there was a backup engine!

All of these differences suggest that the Lunar Starship demo flight *should* include a launch from the surface, either to orbit or back to a second landing on the surface.

[Surfdaddy]

The Apollo LM Ascent Engine wasn't burdened by the convoluted plumbing associated with the cryogenic propellant engines on Starship. Nor was it exposed to any rocks blasted around during landing, or any rocks at all. The LM used hypergolic fuels so the engines were 'simple' and there was actually a backup process for ignition if the Ascent Engine failed to light up when the button was pressed. The Ascent Engine was also tested a huge number of times, including during the Apollo 5 unmanned test flight.

The Soviet LK *did* reuse the Descent Engine for launch, but had a protective shroud over it at the point of landing. And, on the LK, there was a backup engine!

All of these differences suggest that the Lunar Starship demo flight *should* include a launch from the surface, either to orbit or back to a second landing on the surface.

Did Apollo 10 test the ascent engine in the low lunar orbit environment by jettisoning the descent stage? I don't remember for sure but I seem to remember this as well. Please correct me if I'm wrong.

[yg1968]

On Starliner, at least there was a pad abort test which maybe encompasses some of the same regime and data as a flight abort test.

But there’s nothing like that to point to on EUS or HLS lunar ascent testing before astronauts are involved.  Absent explanation or change, they’re both boneheaded moves.

Even on COTS, with no astronauts on board involved, the program still did full orbital and ISS rendezvous and docking demos before handing off to CRS.

A demo uncrewed mission wasn't a requirement for CCtCap either. All providers proposed one and NASA verbally said that it would prefer one but it wasn't actually a requirement.

Incidentally, Lisa Watson-Morgan said that, for the uncrewed demo, they are still in discussions with SpaceX as to what happens after the landing is demonstrated. It would be possible for NASA to add an ascent requirement after the fact but they would likely have to pay more.

[JohnFornaro]

What Nasa got right on the Apollo lunar landings is luck. All their tests, if I remember right led them to the premise that the Assent engine would always ignite. (That is the luck).

Sounds to me more like a good testing regimen.

[woods170]

NASA Orders Three More Orion Spacecraft From Lockheed Martin:
https://news.lockheedmartin.com/2022-10-20-NASA-Orders-Three-More-Orion-Spacecraft-from-Lockheed-Martin

From that press release:

Under OPOC, Lockheed Martin and NASA have reduced the costs on Orion by 50% per vehicle on Artemis III through Artemis V, compared to vehicles built during the design and development phase. The vehicles built for Artemis VI, VII and VIII will see an additional 30% cost reduction.

These claims don’t match the Orion budget.  Artemis IV launches in 2027 under the baseline and content manifests.  According to this LockMart press release, Orion’s budget should come down by about half by then, or at least around $700 million from its peak of over $1.4 billion a couple years earlier.  But NASA’s FY 2023 budget request shows Orion still consuming $1.1 billion in FY 2027.

It’s nice that the Orion Program may finally have its arms around costs and that they may be coming down modestly.  And I’m sure a LockMart accountant could show how the Orion for Artemis IV is 50% of the Orion for Artemis I by excluding a lot of costs.  But in terms of what NASA and the US taxpayer actually have to cough up for Orions, OPOC and the Orion Program are not coming in anywhere near their cost goals and claims.

Yeah, "cost per vehicle" definitely isn't including other Orion program costs.

They are planning on reusing the capsule from Artemis 3 on Artemis 6, 4 on 7, and 5 on 8, that's playing a huge part of that 50% cost reduction.

No mention of European built and paid for service modules for these missions.

Airbus is already under contract from ESA to build ESMs for Artemis 4 through Artemis 6:

https://www.airbus.com/en/newsroom/press-releases/2021-02-fly-me-to-the-moon-airbus-wins-esa-contract-for-three-more-european

Airbus awarded €650 million contract to build three more Orion service modules - SpaceNews

Contracts for ESMs for Artemis 7 through Artemis 10 are in negotiation between NASA, ESA and the prime contractor. One issue that is involved, is to what extent those contracts are to be ESA's contribution to continued use of the ISS, via the barter arrangement.

[clongton]

To my knowledge, there has never been an instance in which a descent engine, on any lunar landing spacecraft has been reignited on the lunar surface in order for the landing spacecraft to get back into orbit. EVERY "return to orbit" flight has been with a completely different - unused - ascent engine.

Again, what did Apollo get right that they are missing in this case?

There was a LOT of discussion of the LM's ascent engine and it was tested over and over again.
The "guarantee" that the engine would always ignite, if you will allow, was two-fold.
(1) the ascent engine was protected from lunar debris contamination or damage by being enshrouded above the descent stage. Nothing would hurt it.
(2) The propellants were hypergolic. Basically, open the 2 valves and you've got ignition. I'm not even sure if the tanks were pressurized or not (anybody know?). With the LM sitting on the surface, once you opened the propellant valves, lunar gravity "could" do the rest and they lifted off. G-force acceleration kept the propellants settled in the bottom of the tanks at the engine inlets.

It's different with the Starship
(1) the descent engines ARE the ascent engines and, even though they're higher up, are exposed to any flying debris resulting from the landing.
(2) the propellants are NOT hypergolic and igniting the engines requires the successful completion of a whole series of ignition sequence events. If any one of them fails to complete there is no ignition.

THAT's why I say that NASA is bat-crap crazy to not require a clear demonstration that Starship actually can reignite the engines after they have been off for however long, bring to full power and return to lunar orbit, BEFORE, they put crew onboard to potentially be stranded on the surface. Every Raptor engine reignition up until now has always been after the previously ignited engine was inspected post firing. I don't see that as an option here, UNLESS the interior of Starship where the engines are mounted is actually outfitted as an "engine room"?

[yg1968]

Here is a conference (Ascend) that discusses Artemis among other topics:

[yg1968]

Jim Free says science is his biggest partner on Artemis and they've just allocated 450 kg to the surface for science on the first lander.

https://twitter.com/SpcPlcyOnline/status/1584574079880908800

[yg1968]

Here is a conference (Ascend) that discusses Artemis among other topics:
vimeo.com/763203729

At 1h41m of the video, Jessica Jensen of SpaceX said that there is three ways that SpaceX will contribute to going back to the Moon to stay:

1) Reducing cost of transportation to space
2) Reuse/sustainability of the vehicles. Some Starships go from the lunar surface back to Gateway, some hangout in LEO, Propellant depots and fueling in Earth orbit.
3) Bringing large amounts of cargo and infrastructure to the Moon for a long term presence on the Moon.

[Proponent]

Did Apollo 10 test the ascent engine in the low lunar orbit environment by jettisoning the descent stage?

Yes. An aborted descent was simulated by staging and ignition of the LM ascent engine.

[rsnellenberger]

To my knowledge, there has never been an instance in which a descent engine, on any lunar landing spacecraft has been reignited on the lunar surface in order for the landing spacecraft to get back into orbit. EVERY "return to orbit" flight has been with a completely different - unused - ascent engine.

Again, what did Apollo get right that they are missing in this case?

There was a LOT of discussion of the LM's ascent engine and it was tested over and over again.
The "guarantee" that the engine would always ignite, if you will allow, was two-fold.
(1) the ascent engine was protected from lunar debris contamination or damage by being enshrouded above the descent stage. Nothing would hurt it.
(2) The propellants were hypergolic. Basically, open the 2 valves and you've got ignition. I'm not even sure if the tanks were pressurized or not (anybody know?). With the LM sitting on the surface, once you opened the propellant valves, lunar gravity "could" do the rest and they lifted off. G-force acceleration kept the propellants settled in the bottom of the tanks at the engine inlets.

It's different with the Starship
(1) the descent engines ARE the ascent engines and, even though they're higher up, are exposed to any flying debris resulting from the landing.
(2) the propellants are NOT hypergolic and igniting the engines requires the successful completion of a whole series of ignition sequence events. If any one of them fails to complete there is no ignition.

THAT's why I say that NASA is bat-crap crazy to not require a clear demonstration that Starship actually can reignite the engines after they have been off for however long, bring to full power and return to lunar orbit, BEFORE, they put crew onboard to potentially be stranded on the surface. Every Raptor engine reignition up until now has always been after the previously ignited engine was inspected post firing. I don't see that as an option here, UNLESS the interior of Starship where the engines are mounted is actually outfitted as an "engine room"?

There isn't any mention of the 6 Apollo LM descent stages having been damaged by regolith impingement in the respective mission tech debriefs.  The descent engine was operating within 1.7m (contact leg length) of the surface at touchdown and there was certainly evidence of interaction (dust plume), but the astronauts' only observations were about some charred insulation (A11) and various rocks seen under the descent stage.

Given that the current HLS design is predicated on using thrusters (located ~25m above the rocket's base) within 100m of the surface, there's certainly no evidence for claims that regolith impingement would be a significant issue.  It seems that Elon would like to eliminate those thrusters (per his comments to Tim Dodd), but qualifies that by saying it depends on whether "... SpaceX is able to demonstrate that landing on the moon with Raptor will not create too large of a hole in the lunar regolith... ".

As for testing Raptor re-ignition without post-firing inspections, I'll recommend the NASA Spaceflight video "SpaceX Tests Raptor Rapid Relight Capability" that was posted today...

[whitelancer64]

*snip*

They are planning on reusing the capsule from Artemis 3 on Artemis 6, 4 on 7, and 5 on 8, that's playing a huge part of that 50% cost reduction.

No mention of European built and paid for service modules for these missions.

In February 2021, NASA ordered 3 more European Service Modules for Artemis 4-6.
https://www.esa.int/Science_Exploration/Human_and_Robotic_Exploration/Orion/Three_more_service_modules_for_Artemis_to_be_built_in_Europe

Presumably a further order is in the works.

[oldAtlas_Eguy]

To my knowledge, there has never been an instance in which a descent engine, on any lunar landing spacecraft has been reignited on the lunar surface in order for the landing spacecraft to get back into orbit. EVERY "return to orbit" flight has been with a completely different - unused - ascent engine.

Again, what did Apollo get right that they are missing in this case?

There was a LOT of discussion of the LM's ascent engine and it was tested over and over again.
The "guarantee" that the engine would always ignite, if you will allow, was two-fold.
(1) the ascent engine was protected from lunar debris contamination or damage by being enshrouded above the descent stage. Nothing would hurt it.
(2) The propellants were hypergolic. Basically, open the 2 valves and you've got ignition. I'm not even sure if the tanks were pressurized or not (anybody know?). With the LM sitting on the surface, once you opened the propellant valves, lunar gravity "could" do the rest and they lifted off. G-force acceleration kept the propellants settled in the bottom of the tanks at the engine inlets.

It's different with the Starship
(1) the descent engines ARE the ascent engines and, even though they're higher up, are exposed to any flying debris resulting from the landing.
(2) the propellants are NOT hypergolic and igniting the engines requires the successful completion of a whole series of ignition sequence events. If any one of them fails to complete there is no ignition.

THAT's why I say that NASA is bat-crap crazy to not require a clear demonstration that Starship actually can reignite the engines after they have been off for however long, bring to full power and return to lunar orbit, BEFORE, they put crew onboard to potentially be stranded on the surface. Every Raptor engine reignition up until now has always been after the previously ignited engine was inspected post firing. I don't see that as an option here, UNLESS the interior of Starship where the engines are mounted is actually outfitted as an "engine room"?

LM ascent was a helium pressure fed storable bi-propellant engine. You turned the valve that opened helium and then the two valves that opened the 2 prop lines and the engine started. Another note is that the chief engineer of nearly all of the SpaceX engine designs was the same one that did the LM ascent engine. His pounding on the new engineers that reliability of the engine to start and run safely is the goal and to continually strive for that and test the engines relentlessly. For reusable program such engines are a must. So engine reliability is number one on SpaceX list of engineering and testing programs effort. It is heavily instilled into the culture.

Next is a single Raptor can lift the Starship off the Moon even if the Gross Liftoff Mass is 600t. Nominal would be use of 2 Raptors. Having 3 started at 50% throttle. An engine out would not change the launch profile at all. Also NOTE if necessary a pair or all 3 R2VAC can be used resulting in same profile. Only 2 are needed and at least 6 are available. With later versions of Starship, they could have 6 R2VAC engines and 3 R2SL gimbal engines. Multiple redundant engines is something the LM did not have. The risk of the ascent not working is probably less than the landing risk even after having done 2 landings. Also note engines are started:
 1-Initial ascent to LEO orbit as an US.
 2-TLI burn.
 3-Lunar orbit insertion.
 4-Initial descent to surface.
 5-There is a possibility of 1 or 2 more starts being required
 6-Ascent from surface.
 7-Insertion into NRHO orbit after initial ascent burn.

The LM engine was only started once after it was launched.

[DigitalMan]

There isn't any mention of the 6 Apollo LM descent stages having been damaged by regolith impingement in the respective mission tech debriefs.  The descent engine was operating within 1.7m (contact leg length) of the surface at touchdown and there was certainly evidence of interaction (dust plume), but the astronauts' only observations were about some charred insulation (A11) and various rocks seen under the descent stage.

Given that the current HLS design is predicated on using thrusters (located ~25m above the rocket's base) within 100m of the surface, there's certainly no evidence for claims that regolith impingement would be a significant issue.  It seems that Elon would like to eliminate those thrusters (per his comments to Tim Dodd), but qualifies that by saying it depends on whether "... SpaceX is able to demonstrate that landing on the moon with Raptor will not create too large of a hole in the lunar regolith... ".

As for testing Raptor re-ignition without post-firing inspections, I'll recommend the NASA Spaceflight video "SpaceX Tests Raptor Rapid Relight Capability" that was posted today...

Those observations, plus the difficulty astronauts had drilling into the lunar surface to get core samples is interesting.

Another observation is that the LM had one engine, so dust/debris was forced away from the spacecraft. In contrast, for multi-engine landings look at the Mars Perseverance landing (), you can see even though the engines are pointed out from vertical, there is dust/debris forced inward and produces a column in the center going upwards.

I think any multi-engine landings of significant force deserve careful consideration.

[yg1968]

Here is a conference (Ascend) that discusses Artemis among other topics:

At 1h37m of the video, Jessica Jensen of SpaceX says that these vehicles (talking about Starships) might end up being bases on the Moon or Mars. She says that simplicity is the key to sustainability.

[yg1968]

At 1h40 minutes, Jessica Jensen says that, for Starship, SpaceX is going to start with Starlink missions and incrementally increase Starship's capability for the Moon.

vimeo.com/763203729

Although she didn't say it explicitly, this means, in my opinion, that Polaris 3 will be after the Artemis III HLS-Starship mission.

[deadman1204]

Given that the current HLS design is predicated on using thrusters (located ~25m above the rocket's base) within 100m of the surface, there's certainly no evidence for claims that regolith impingement would be a significant issue.

What does this mean "no evidence for claims". Its never been done before, if thats what you mean. While there are no videos showing this, there are lots of studies that show that we should be concerned.

A better way to look at it would be "is there evidence to show its NOT an issue". Because if it causes problems, that could be big trouble. Also remember that the moon isn't mars (or earth). Regolith will be pushed up with a much higher velocity, and will travel much further because there is no atmosphere to slow it down (and only 1/6 Gee of gravity).

[whitelancer64]

To my knowledge, there has never been an instance in which a descent engine, on any lunar landing spacecraft has been reignited on the lunar surface in order for the landing spacecraft to get back into orbit. EVERY "return to orbit" flight has been with a completely different - unused - ascent engine.

Again, what did Apollo get right that they are missing in this case?

There was a LOT of discussion of the LM's ascent engine and it was tested over and over again. [Emphasis mine]
The "guarantee" that the engine would always ignite, if you will allow, was two-fold.
(1) the ascent engine was protected from lunar debris contamination or damage by being enshrouded above the descent stage. Nothing would hurt it.
(2) The propellants were hypergolic. Basically, open the 2 valves and you've got ignition. I'm not even sure if the tanks were pressurized or not (anybody know?). With the LM sitting on the surface, once you opened the propellant valves, lunar gravity "could" do the rest and they lifted off. G-force acceleration kept the propellants settled in the bottom of the tanks at the engine inlets.

*snip*

Just to hammer that first point home: They tested the ever-loving bejesus out of the lunar module ascent engine (LMAE) on the ground, performing over 1,300 test fires during development.  A significant portion of that was working out how to eliminate any possibility of combustion instability in the engine.

https://www.enginehistory.org/Rockets/RPE09.44/RPE09.44.shtml

And they did 57 test fires using flight-qualified engines.

https://www.enginehistory.org/Rockets/RPE09.43/RPE09.43.shtml

BTW, both these web pages are jam packed with information and are well worth reading through in their entirety.


TL;DR the websites, the LMAE fuel / oxidizer delivery plumbing to the combustion chamber used the same motor to drive the mechanism that opened both fuel and oxidizer valves simultaneously, AND it was fully double-redundant, AND it used hypergolic fuel / oxidizer. They did everything in their power to ensure that this engine could not NOT start and that it would continue to run smoothly once started.

[yg1968]

The 2022 Artemis/Moon to Mars Architecture Concept Review should be completed at the latest in January (perhaps in December).

See the attached slide and below:

Looking ahead at 1hr of the video (see also the attached slide):