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Delta Cryogenic Second Stage

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Delta Cryogenic Second Stage
A 4-meter DCSS from a Delta IV Medium
Manufacturer
Country of origin
  • United States
  • Japan (Delta III)
Used on
Launch history
StatusActive
Total launches45
Successes
(stage only)
42
Failed2 (Delta III)
Lower stage
failed
1 (Delta III)
First flight27 August 1998
Last flight9 April 2024
Delta III second stage
Height8.8 m (29 ft)
Diameter4 m (13 ft) (LH2 tank)
3.2 m (10 ft) (LOX tank)[1]
Empty mass2,480 kg (5,470 lb)
Gross mass19,300 kg (42,500 lb)
Powered by1 × RL10B-2
Maximum thrust110.1 kN (24,800 lbf)
Specific impulse462 s (4.53 km/s)
Burn time700 seconds
PropellantLH2/LOX
Delta IV 4-meter second stage
Height12.2 m (40 ft)
Diameter4 m (13 ft) (LH2 tank)
3.2 m (10 ft) (LOX tank)[1]
Empty mass2,850 kg (6,280 lb)
Gross mass24,170 kg (53,290 lb)
Powered by1 × RL10B-2
Maximum thrust110.1 kN (24,800 lbf)
Specific impulse462 s (4.53 km/s)
Burn time850 seconds
PropellantLH2/LOX
Delta IV 5-meter second stage
Height13.7 m (45 ft)
Diameter5 m (16 ft) (LH2 tank)
3.2 m (10 ft) (LOX tank)[1]
Empty mass3,490 kg (7,690 lb)
Gross mass30,710 kg (67,700 lb)
Powered by1 × RL10B-2
Maximum thrust110.1 kN (24,800 lbf)
Specific impulse462 s (4.53 km/s)
Burn time1,125 seconds
PropellantLH2/LOX
Interim Cryogenic Propulsion Stage
Height13.7 m (45 ft)
Diameter5 m (16 ft) (LH2 tank)
3.2 m (10 ft) (LOX tank)
Empty mass3,800 kg (8,400 lb)
Gross mass32,748 kg (72,197 lb)
Powered by1 × RL10B-2
Maximum thrust110.1 kN (24,800 lbf)
Specific impulse462 s (4.53 km/s)
Burn time1,125 seconds
PropellantLH2/LOX

The Delta Cryogenic Second Stage (DCSS) is a family of cryogenic-fuelled rocket stages used on the Delta III, Delta IV, and on the Space Launch System Block 1 launch vehicles. The DCSS employs a unique two-tank architecture where the cylindrical liquid hydrogen (LH2) tank carries payload launch loads and forms the upper section. An oblate spheroid tank filled with liquid oxygen (LOX) and the engine are suspended from the LH2 tank and covered by the interstage during initial launch.

The DCSS is powered by a single RL10B-2 engine built by Aerojet Rocketdyne,[2] which features an extendable carbon–carbon nozzle to improve specific impulse.[3]

The DCSS was designed by the National Space Development Agency of Japan, based on the second stage it developed for the H-IIA rocket. The initial versions for the Delta III were built by Mitsubishi Heavy Industries in Japan. For the Delta IV, production was transferred to Boeing Integrated Defense Systems and later to United Launch Alliance.

Delta III

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The DCSS first flew on three Delta III missions, however it was never successful. On its maiden flight, a booster failed and the rocket was destroyed by range safety, causing the loss of the DCSS

The Delta III upper stage being tested in January 1998

before ignition. The second mission saw the DCSS itself malfunction tumbling uncontrollably, inserting the payload into a useless orbit. On the third flight, the DCSS performed its planned burn but fell short of the target orbit due to premature propellant exhaustion, resulting in mission failure.[4] An un-flown example is on display outside the Discovery Cube Orange County.[5]

Delta IV

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The Delta IV launch vehicle utilized two distinct versions of the Delta Cryogenic Second Stage (DCSS) to cater to the specific launch needs. These variants are the original DCSS with a 4-meter (13 ft) diameter that is largely identical to the version used on the Delta III and the larger version with a 5-meter (16 ft) diameter used to lift larger payloads.

These variations necessitated the use of composite interstages, which linked the first and second stages together. For the Delta IV Medium configuration, a tapering interstage was employed to transition between the 5-meter diameter of the first stage and the smaller 4-meter diameter of the DCSS. In contrast, the Delta IV Heavy configuration and some Delta IV Medium+ configurations, with larger payload capacities, utilized a cylindrical interstage that matched the diameter of its 5-meter DCSS.[3]

The Delta IV family of rockets has been retired, with a final launch on 9 April 2024.[6]

Interim Cryogenic Propulsion Stage

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The Interim Cryogenic Propulsion Stage (ICPS) serves as the upper stage for the initial configuration (Block 1) of NASA's Space Launch System (SLS). It's a derivative of the 5-meter DCSS, with minimal modifications for SLS integration. Like the earlier DCSS, the ICPS is powered by one Aerojet Rocketdyne RL10 engine and generates 110.1 kilonewtons (24,800 pounds-force) of maximum thrust.[7]

The ICPS for the Artemis I mission was mated to the SLS launch stack on 6 July 2021.[8][9] It performed as expected, providing the necessary thrust during the successful launch on 16 November 2022 at 06:47:44 UTC (01:47:44 EST).[10]

The ICPS is designed as a temporary solution and slated to be replaced by the next-generation Exploration Upper Stage for the Artemis IV mission and beyond.[11]

The Artemis I ICPS under construction

References

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  1. ^ a b c "Delta IV Launch Services User's Guide" (PDF). United Launch Alliance. Retrieved 12 April 2024.
  2. ^ Robert A. Braeunig (2 November 2009). "Space Launchers—Delta". Rocket and Space Technology. Retrieved 26 January 2012.
  3. ^ a b "Delta IV Payload Planners Guide" (PDF). United Launch Alliance. September 2007. pp. 1–5 to 1–6. Archived from the original (PDF) on 22 July 2011.
  4. ^ "Delta 8930". astronautix.com. Retrieved 16 September 2022.
  5. ^ Dave Nordling (8 October 2017). "Discovery Cube – Orange County". Reaction Research Society. Retrieved 15 May 2023.
  6. ^ Robert Z. Pearlman (9 April 2024). "'Heavy' history: ULA launches final Delta rocket after 64 years (video, photos)". Space.com. Retrieved 17 April 2024.
  7. ^ Braeunig, Robert. "SPECIFICATIONS & TECHNICAL DATA: Space Launch System". Retrieved 19 January 2024.
  8. ^ Chris Bergin (4 October 2011). "SLS trades lean towards opening with four RS-25s on the core stage". NASASpaceflight.com. Retrieved 26 January 2012.
  9. ^ Rosenberg, Zach. "Delta second stage chosen as SLS interim". Flight International, 8 May 2012.
  10. ^ "Artemis 1". NASA. Archived from the original on 19 December 2022. Retrieved 17 November 2022.
  11. ^ Bergin, Chris (3 February 2020). "Upper Stage RL10s arrive at Stennis for upcoming SLS launches". NASASpaceFlight.com. Retrieved 17 August 2022.
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