the Gateway logistics services (GLS) plan calls for an uncrewed cargo spacecraft to deliver up to 5 tonnes of cargo to Gateway and also to take out the trash. SpaceX has proposed Dragon XL for this, which will launch on a Falcon Heavy. But all of this was before Starship HLS. [ . . . ]Would NASA solicit such a proposal? Could SpaceX submit an unsolicited proposal?
Starship HLS has far more capacity than the initial HLS or sustained HLS requirements call for, so it can easily carry an additional 5 tonnes of supplies for Gateway. The concept would be for HLS to launch with the gateway cargo in addition to Moon-bound cargo, and dock to Gateway. HLS would dock to Gateway and offload the Gateway cargo, then perform its HLS lander mission, which ends with HLS again docked to Gateway. crew would stuff the trash into HLS. HLS would hang out at Gateway for up to six months (a GLS requirement) and then undock and dispose of itself.
This also gets convoluted with the Starship Tanker and prop Depot versions where the Tanker has a small cargo capability of about 20-30t for pressurized self containerized modules that are docked by using the Gateway arm to remove the containers from the Tanker and transfer to the HLS or the Gateway as needed based on mission. NOTE the return stuff as well as some trash can be sent back to Earth on the Tanker's return because it would have fins and heat shield. Meaning Lunar surface samples as in tons can be shipped back to Earth easily. All while reusing the HLS and it never leaving the Moon area.Added: Once you are at this point then continuous occupation of both Gateway and a Lunar surface Base is easily accomplished. The question is the yearly cost of operating both from the transport from Earth costs. Those are still a guess but look to be a total that may be equal to or less than just the current SLS and a HLS /yr costs of $5B+.
Quote from: DanClemmensen on 01/06/2023 11:35 pmthe Gateway logistics services (GLS) plan calls for an uncrewed cargo spacecraft to deliver up to 5 tonnes of cargo to Gateway and also to take out the trash. SpaceX has proposed Dragon XL for this, which will launch on a Falcon Heavy. But all of this was before Starship HLS. [ . . . ]Would NASA solicit such a proposal? Could SpaceX submit an unsolicited proposal?NASA did release an RFI for on-ramping new GLS solutions. See this and following posts in the GLS thread. Among the questions asked where if providers could deliver more cargo. (But you surely already know this, since you commented in that discussion. )
I was looking at the near term. I see combining the GLS flight with the HLS flight as a simple cost-saving measure by comparison with the current plan of an expended HLS and an expended FH+Dragon XL.
Early Gateway Unpressurized CargoCanadarm3 is planned to be delivered on a DragonXL. It is flown as unpressurized cargo and walks off from DragonXL onto the station. By switching to HLS delivery, you are essentially requiring modifications to a human rated vehicle (an additional cargo bay or fairing).
Time Sensitive Cargo DeliveryEarly HLS flights may be fuel constrained as SpaceX ramps up the tanker flight rate.Again, likely not a factor when Starship fueling / cargo matures, but may be a factor early in the lifecycle when depot resources are constrained.
To deliver a Canadarm3 from the LSS cargo bay. What you need is a shipping frame with a powered arm docking target at the bottom and it oriented in the horizontal where all the sections are folded up in the frame. So that a small deployment motor pushes the folded up arm out horizontal so that it is sticking now out of the bay. So that it can unfold and then be commanded to dock the other end at another powered docking point closer up on the nose of the LSS so the the next hop reaches the Gateway. The frame detaches from the inside of the LSS so that it can be removed to make room for the operation of the elevator once the LSS reaches the surface. NOTE the frame is still attached to the Arm so the Arm does this removal.No EVA and no significant modification of the LSS besides the addition of a arm docking point on the exterior. Possibly covered by a simple cover for launch.There are other options for methods for carrying and deploying an Arm from the LSS cargo bay as well that involve its own small cargo door above the big cargo door and the frame is permanently attached to the "roof" of the cargo bay. Gives options for use of an Arm at other locations such as the surface to help with dragging large items from the bay onto the elevator or even in LEO or other cases where an arm would be useful. Alternately a crane could be mounted in the frame so that it could be deployed out and retracted. This would be useful if there was an oversize item that needed to get delivered that was longer than what would fit on the elevator to deploy to the surface. The fram would be very lightweight. different types of things could be placed in it to deploy that would have a powered Arm docking simple effector that would normally never be released but would have the capability to do a release so that a malfunction of the retraction enables the abandonment of the deployed item. Another item would be a larger solar array that can unfurl for on orbit use. It would make this frame generic for many applications and SS vehicle versions.
Quote from: oldAtlas_Eguy on 01/07/2023 05:23 pmTo deliver a Canadarm3 from the LSS cargo bay. What you need is a shipping frame with a powered arm docking target at the bottom and it oriented in the horizontal where all the sections are folded up in the frame. So that a small deployment motor pushes the folded up arm out horizontal so that it is sticking now out of the bay. So that it can unfold and then be commanded to dock the other end at another powered docking point closer up on the nose of the LSS so the the next hop reaches the Gateway. The frame detaches from the inside of the LSS so that it can be removed to make room for the operation of the elevator once the LSS reaches the surface. NOTE the frame is still attached to the Arm so the Arm does this removal.No EVA and no significant modification of the LSS besides the addition of a arm docking point on the exterior. Possibly covered by a simple cover for launch.There are other options for methods for carrying and deploying an Arm from the LSS cargo bay as well that involve its own small cargo door above the big cargo door and the frame is permanently attached to the "roof" of the cargo bay. Gives options for use of an Arm at other locations such as the surface to help with dragging large items from the bay onto the elevator or even in LEO or other cases where an arm would be useful. Alternately a crane could be mounted in the frame so that it could be deployed out and retracted. This would be useful if there was an oversize item that needed to get delivered that was longer than what would fit on the elevator to deploy to the surface. The fram would be very lightweight. different types of things could be placed in it to deploy that would have a powered Arm docking simple effector that would normally never be released but would have the capability to do a release so that a malfunction of the retraction enables the abandonment of the deployed item. Another item would be a larger solar array that can unfurl for on orbit use. It would make this frame generic for many applications and SS vehicle versions.Great! This would also solve one of the big problems of HLS reuse, which is transfer of cargo and provisions to the HLS from a cargo SS in LEO. That in turn amortizes the relatively minor development costs over a broader set of functions. This is true even if it can only be used in microgravity and not on the lunar surface.I still think it's cost-effective in then near term to use expendable HLSs. "Near term" means for one or two flights after Gateway is launched. Once we have reusable HLS operating from LEO, we have no need for Gateway or Orion anyway.How far is it from the LSS EVA hatch to the IDSS port (presumably) on the nose? and from there to the closest Canadarm attachment point on Gateway? Can the Canadarm make this traverse with only a single external attachment point on HLS or will it need a second one?
Other thoughts: a lot (most?) of the cargo of DragonXL is intended to be transshiped to the HLS anyway, to be landed on the Moon. That (sort of) made sense for mass-constrained non-Starship HLS designs, but with Starship HLS it is simpler to just load it onto the HLS on Earth and leave it there.
On later missions the crew will spend almost no time on Gateway because the whole crew will go to the surface.
This means that very little trash will be generated on Gateway. Just throw the trash in a thrash heap on the Moon. The small amount of residual trash can either go back to Earth on Orion or can wait until the next HLS.
Or are you still under the delusion that the lander will be scrapped after each landing even during the "sustainable" phase?
No, it can't go back to Earth on Orion. Orion is very constrained in both mass and volume it can bring back to Earth, and you want to make the very most use of that little capacity to bring back scientific samples from the Moon. If NASA can bring back one more sample container by sending some trash out to the interplanetary void, they will do that. At least as long as they don't have a separate spacecraft for returning cargo to Earth.
Quote from: tbellman on 02/05/2023 05:08 pmOr are you still under the delusion that the lander will be scrapped after each landing even during the "sustainable" phase?If not scrapped, then you need some sort of serious refueling/re-provisioning system that is a lot more substantial than DragonXL. It can handle the DragonXL cargo (and trash) as a minor sideline.
For reusable Starship HLS, cargo including GLS cargo will transfer wherever the reprovisioning is done: NRHO or LEO depending on how the mission architecture works out.
My alleged vision is that the first two HLSs (Starship HLSs for Artemis 3 and Artemis 4) are expended and reusablity will not start until the next Starship HLS mission. I have no idea what support a reusable Appendix P HLS will need or who will supply it.
I see only two reasons why Elon Musk might not want to reuse the first Starship HLS. First - if some difficult problem or malfunction appears in the initial mission. And the second is the unpreparedness of the infrastructure to ensure a re-flight.
NASA also envisions expanding the overall Gateway Logistics Services contract to add more providers. He noted NASA issued a request for information last year to understand emerging industry capabilities, such as new launch vehicles.We want that. Its just a matter of funding, he said of adding providers. Weve got to get out first mission turned on and get a funding stream going so we can justify an on-ramp.
With Blue Origin's Integrated Lander Vehicle having recently been chosen by NASA as the lunar landing vehicle for the Artemis 5 mission, there may be a day when Blue Origin develops a 405 foot tall derivative of the New Glenn, called New Armstrong, to be used to loft a cargo spacecraft to haul supplies to the Gateway Lunar Station.