Engineering:Advanced Cryogenic Evolved Stage

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Short description: United Launch Alliance second stage proposal that could be used as a propellant depot


The Advanced Cryogenic Evolved Stage (ACES) was a proposed liquid oxygen/liquid hydrogen upper-stage for use on a number of different launch vehicles produced by Boeing, Lockheed Martin, United Launch Alliance (ULA). During the last five years of the program, ACES was proposed for eventual use on the Vulcan space launch vehicle designed by the U.S. company United Launch Alliance.[1] The ACES concept had the objective to improve the on-orbit lifespan of current upper stages.[1]

In 2015, ULA announced conceptual plans to transition the Vulcan rocket to the ACES second stage, also referred to as Centaur Heavy, after 2024. Vulcan will initially launch with the Centaur V upper stage.[2] Both Boeing and Lockheed Martin had separate but similar ACES concepts prior to the formation of the jointly-owned (50% Boeing/50% Lockheed Martin) ULA in late 2006.

In the event, the long-duration upper stage concept was never able to obtain top-line attention from any of the companies as it never won full development funding from the US government, the primary source of funding for the Delta, Atlas and Vulcan rockets. However, some aspects of changes planned for ACES, such as the larger tank-diameter, were eventually used in the Centaur V upper stage.[3]

Advanced Common Evolved Stage

Two Advanced Cryogenic Evolved Stage (ACES) concepts were originally developed in 2005 by both Boeing and Lockheed Martin.[4][5][clarification needed]

By 2010, ULA had inherited the intellectual property of both proposals, and the ACES concept had evolved into a new high-performance upper stage to be used on both Atlas V and Delta IV/Delta IV Heavy launch vehicles. Now called the Advanced Common Evolved Stage, ACES was proposed to be a lower-cost, more-capable and more-flexible upper stage that would supplement, and perhaps replace, the existing ULA Centaur and Delta Cryogenic Second Stage (DCSS) upper stages.[1] This upper stage was intended to incorporate improved insulation for improved cryogenic storage and longer coast durations.[6]

In April 2015, the name of the stage was reverted to the original Advanced Cryogenic Evolved Stage name, as the new ULA Vulcan design would be the only first stage rocket intended to use ACES, beginning no earlier than 2023.[7]

In September 2020, ULA stated they were no longer actively developing ACES.[3]

Advanced Cryogenic Evolved Stage

(As of April 2015), ACES was expected by ULA to debut on the Vulcan launch vehicle no earlier than 2023 [7] but in July 2015 the timeframe was clarified to not likely fly until 2024–2025.[8] In 2018, ULA gave multiple presentations that again showed an ACES debut in 2023.[9] In 2019 however, ULA said that while they still planned to develop ACES, they no longer had a specific date for when that would be.[9]

ACES was planned to use ULA's proprietary Integrated Vehicle Fluids (IVF) technology to significantly extend its lifetime in space.[10]

ACES was planned to include common bulkhead propellant tanks with a diameter of 5.4 m (18 ft), capable of carrying 68,000 kg (150,000 lb) of propellant.[11]

Vulcan Centaur upper stage

In late 2017, ULA decided to bring the 5.4 m (18 ft) diameter and advanced insulation elements of the ACES upper stage forward. Under the new plan, Vulcan's upper stage is the Centaur V, with two LH2/LOX RL10 engines and no IVF or other ACES extended-duration technology[1] as had been planned for ACES. ACES was then expected to have the same tank diameter as Centaur V, but stretched (longer tank length), with the possible addition of two more RL10s and IVF.[12]

On 11 May 2018, United Launch Alliance (ULA) announced that the Aerojet Rocketdyne RL10 engine was selected for Centaur V, following a competitive procurement process.[13]

Integrated Vehicle Fluids

The IVF technology uses a lightweight internal combustion engine to use hydrogen and oxygen propellant boil-off (normally wasted when boil-off gases are vented to space) to operate the stage. The design included producing power, maintaining stage attitude[10][14] and keeping the propellant tanks autogenously pressurized. Using these fluids was designed to eliminate the need for hydrazine fuel, helium for pressurization,[7][15]:4, 5 and nearly all batteries in the vehicle.

IVF was designed by ULA to be optimal for depot operations, since only liquid hydrogen and liquid oxygen would need be transferred, and it could, if built, conceivably extend mission lifetimes from the present dozens of hours to multiple days.[1][15]:2-4[16]:4

(As of April 2015), an internal combustion engine to be used to power the IVF system on ACES was to be produced by Roush Racing.[7]

In August 2016, ULA's President and CEO Tory Bruno said both Vulcan and ACES were intended to be human rated.[17]

Possible applications

See also

References

  1. 1.0 1.1 1.2 1.3 1.4 Zegler, Frank; Kutter, Bernard (2 September 2010). "Evolving to a Depot-Based Space Transportation Architecture". AIAA SPACE 2010 Conference & Exposition. American Institute of Aeronautics and Astronautics. https://www.ulalaunch.com/docs/default-source/exploration/evolving-to-a-depot-based-space-transportation-architecture.pdf. Retrieved 25 January 2011. "ACES design conceptualization has been underway at ULA for many years. It leverages design features of both the Centaur and Delta Cryogenic Second Stage (DCSS) upper stages and intends to supplement and perhaps replace these stages in the future. The baseline ACES will contain twice the Centaur or 4m DCSS propellant load, providing a significant performance boost compared to our existing upper stages. The baseline 41-mT propellant load is contained in a 5m diameter, common bulkhead stage that is about the same length as ULA's existing upper stages." 
  2. @jeff_foust (18 January 2018). "Tom Tshudy, ULA: with Vulcan we plan to maintain reliability and on-time performance of our existing rockets, but at a very affordable price. First launch mid-2020.". https://twitter.com/jeff_foust/status/954054070821670912. 
  3. 3.0 3.1 Foust, Jeff (11 September 2020). "ULA studying long-term upgrades to Vulcan". https://spacenews.com/ula-studying-long-term-upgrades-to-vulcan/. Retrieved 4 March 2021. "Peller described ACES as a concept that ULA is no longer actively pursuing. "We did a lot of studies, we invested in a lot of technology development to assess the feasibility of some of the innovative features of ACES", he said. "That has served us well, because a lot of that original ACES work has its fingerprints in our new version of Centaur, the Centaur 5 we're fielding with Vulcan. Those studies five, eight years ago certainly served us well, and it put us on a good path forward here for the evolution of our upper stages. We will continue to evolve our upper stage to meet the needs of the market going forward"." 
  4. LeBar, J. F.; Cady, E. C. (2006). "The Advanced Cryogenic Evolved Stage (ACES) - A Low-Cost, Low-Risk Approach to Space Exploration Launch". http://www.ulalaunch.com/uploads/docs/Published_Papers/Upper_Stages/TheAdvancedCryogenicEvolvedStageACES2006LeBar7454.pdf. 
  5. 2006: Centaur Extensibility For Long Duration , Gerard Szatkoski, et al., NASA/KSC and Lockheed Martin Space Systems Company, (AIAA Space 2006 Conference Paper no. 60196), accessed 20 October 2015
  6. 2005: Atlas Centaur Extensibility to Long-Duration In-Space Applications , Bernard F. Kutter; Frank Zegler; et al.; Lockheed Martin Space Systems Company, (AIAA 2005-6738), accessed 20 October 2015
  7. 7.0 7.1 7.2 7.3 Gruss, Mike (2015-04-13). "ULA's Vulcan Rocket To be Rolled out in Stages". SpaceNews. http://spacenews.com/ulas-vulcan-rocket-to-be-rolled-out-in-stages/. 
  8. Bruno, Tory (28 July 2015). "@MrMonster911 @PopSci @ulalaunch enabler will be ACES, our ultra long duration upper stage. Planned to fly in the 2024-5 time frame". https://twitter.com/torybruno/status/625994038697676800. 
  9. 9.0 9.1 Henry, Caleb (20 November 2019). "ULA gets vague on Vulcan upgrade timeline". SpaceNews. https://spacenews.com/ula-gets-vague-on-vulcan-upgrade-timeline/. "The increased capability of the upper stage is somewhere in there in the future" 
  10. 10.0 10.1 Ray, Justin (14 April 2015). "ULA chief explains reusability and innovation of new rocket". Spaceflight Now. http://spaceflightnow.com/2015/04/14/ula-chief-explains-reusability-and-innovation-of-new-rocket/. 
  11. "2-1 Transportation & Propellant Resources in the Cislunar Economy-Kutter.pdf". 12 June 2018. https://www.docdroid.net/zRCttF4/2-1-transportation-propellant-resources-in-the-cislunar-economy-kutter.pdf. 
  12. "ULA's Vulcan Centaur Cutaway Poster". ULA. https://www.ulalaunch.com/docs/default-source/rockets/vulcancentaur.pdf?sfvrsn=10d7f58f_2. 
  13. "United Launch Alliance Selects Aerojet Rocketdyne's RL10 Engine". ULA. May 11, 2018. https://www.ulalaunch.com/about/news/2018/05/11/united-launch-alliance-selects-aerojet-rocketdyne-s-rl10-engine-for-next-generation-vulcan-centaur-upper-stage. 
  14. Boyle, Alan (2015-04-13). "United Launch Alliance Boldly Names Its Next Rocket: Vulcan!". NBC News. http://www.nbcnews.com/science/space/united-launch-alliance-boldly-names-its-next-big-rocket-vulcan-n340881. 
  15. 15.0 15.1 Barr, Jonathan (2015). "ACES Stage Concept: Higher Performance, New Capabilities, at a Lower Recurring Cost". AIAA SPACE 2015 Conference & Exposition. American Institute of Aeronautics and Astronautics. http://www.ulalaunch.com/uploads/docs/Published_Papers/Upper_Stages/ACES-Stage_Concept-AIAASpace_2015.pdf. Retrieved 18 March 2016. 
  16. Barr, Jonathan; Kutter, Bernard (2010). "Phase 2 EELV - An Old Configuration Option with New Relevance to Future Heavy Lift Cargo". AIAA SPACE 2010 Conference & Exposition. American Institute of Aeronautics and Astronautics. http://www.ulalaunch.com/uploads/docs/Published_Papers/Evolution/EELVPhase2_2010.pdf. Retrieved 17 April 2016. 
  17. Tory Bruno. ""@A_M_Swallow @ULA_ACES We intend to human rate Vulcan/ACES"". https://twitter.com/torybruno/status/770579558726668288. 

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