| Revision as of 18:38, 8 November 2019 editRundownPear (talk | contribs)455 edits Less of a concept study and more of a proposal. A concept study was more like the Boeing Lunar Lander for the Deep Space Habitat back in 2012, this is a more thought out design that could be fabricated in the coming yearsTag: Visual edit← Previous edit | Revision as of 10:31, 9 November 2019 edit undoJadebenn (talk | contribs)Extended confirmed users2,144 edits →Challenges: This is very dubious.Tags: Mobile edit Mobile web editNext edit → | ||
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| == Challenges == | == Challenges == | ||
| One problem with the lander is its high mass, and it requires to be launched by a SLS Block 1B. This variant of SLS is not expected to be operational until 2025 at the earliest. Boeing suggests cutting funding for the ] in order to accelerate development of the ] and allow for Block 1B to fly in 2024. | One problem with the lander is its high mass, and it requires to be launched by a SLS Block 1B. This variant of SLS is not expected to be operational until 2025 at the earliest. {{Citation needed span|Boeing suggests cutting funding for the ] in order to accelerate development of the ] and allow for Block 1B to fly in 2024.}} | ||
| ==See also== | ==See also== | ||
Revision as of 10:31, 9 November 2019
| Designer | Boeing |
|---|---|
| Country of origin | US |
| Applications | crewed lunar lander |
| Capacity | |
| Payload to {{{to}}} | |
| Production | |
| Status | Proposed |
| Built | 0 |
The Boeing Human Landing System (HLS) was submitted to NASA on 5 November 2019 as part of the Artemis program and the NextSTEP H. The proposal was presented as the "quickest and simplest method" for a 2024 Moon landing.
Overview
This is a propsal for the design of a lunar lander and lunar orbit spacecraft that would use the Space Launch System (SLS rocket) being developed by NASA. This concept was presented as a response to NASA's solicitation in May 2019 from about dozen companies for lunar lander designs.
The lander consists of a descent and ascent stage with the descent stage being able to deorbit the lander, which eliminates the need for a third transfer stage. The lander is designed to be launched on an SLS Block 1B rocket rather than assembled in space after multiple launches, reducing the number of mission-critical events from 11 to 5, and reducing mission complexity. The lander would not require to dock onto the Lunar Gateway and could dock with Orion directly in order to allow for a simpler mission profile. The lander would reuse key technologies from the Boeing's CST-100 Starliner, which would allow systems like life support, the pressure vessel, and avionics system to be flight-tested and human-rated before being integrated into the lander.
Intuitive Machines was selected to build and test the lander's engines and fuel tank structure. Aerojet Rocketdyne is also participating in the project.
Challenges
One problem with the lander is its high mass, and it requires to be launched by a SLS Block 1B. This variant of SLS is not expected to be operational until 2025 at the earliest. Boeing suggests cutting funding for the Lunar Gateway in order to accelerate development of the Exploration Upper Stage and allow for Block 1B to fly in 2024.
See also
References
- "Boeing proposes lunar lander for NASA crews, rivaling Blue Origin (and SpaceX?)". news.yahoo.com. Retrieved 2019-11-08.
- Potter, Sean (2019-05-16). "NASA Taps 11 American Companies to Advance Human Lunar Landers". NASA. Retrieved 2019-11-08.
- "Boeing's lunar lander pitch promises 'fastest path' to the moon". Engadget. Retrieved 2019-11-06.
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