RD-0120

RD-0120
Liquid-fuel engine
Country of origin	Soviet Union
Date	1976-1987
First flight	1987-05-15
Last flight	1988-11-15
Designer	OKB-154
Manufacturer	Voronezh Mechanical Plant
Application	Sustainer engine
Associated L/V	Energia
Successor	RD-0122
Status	Retired
Propellant	LOX / LH2
Mixture ratio	6.0
Cycle	Staged сombustion cycle
Configuration
Chamber	1
Nozzle ratio	85.70
Performance
Thrust (vac.)	1,961.3 kN (440,900 lbf) (106%)
Thrust (SL)	1,526 kN (343,000 lbf) (106%)
Thrust-to-weight ratio	43.95 (Vac)
Chamber pressure	21.9 MPa (3,180 psi)
I_sp (vac.)	455 s (4.46 km/s)
I_sp (SL)	353.2 s (3.464 km/s)
Burn time	500s
Gimbal range	+/- 7°
Dimensions
Length	4,550 mm (179 in)
Diameter	2,420 mm (95 in)
Dry weight	3,450 kg (7,610 lb)
Used in
Energia core stage
References
References	^[1]^[2]^[3]

The Soviet RD-0120 (also designated 11D122) was the Energia core rocket engine, fueled by LH2/LOX, roughly equivalent to the Space Shuttle Main Engine (SSME). These were attached to the Energia core rather than the orbiter, so were not recoverable after a flight, but created a more modular design (the Energia core could be used for a variety of missions besides launching the shuttle). Baselined from the more mature American hydrogen–oxygen engine technology, but considerably modified with Russian innovations and methods, the RD-0120 and the SSME have both similarities and differences. The RD-0120 achieved nearly identical specific impulse and combustion chamber pressure with reduced complexity and cost, as compared to the SSME, primarily at the expense of lower thrust-to-weight ratio. It uses fuel-rich staged combustion cycle and a single shaft to drive both the fuel and oxidizer turbopumps. Some of the Russian design features, such as the simpler and cheaper channel wall nozzles, were evaluated by Rocketdyne for possible upgrades to the SSME. It achieved combustion stability without the acoustic resonance chambers that the SSME required.

Specifications

RD-0120

Thrust (vacuum): 1.8639 MN (190 tons), (sealevel): 1.5171 MN
Specific impulse (vacuum): 454 seconds (4.45 km/s), (sealevel): 359 seconds (3.52 km/s)
Burn time: nominal 480–500 s, certified for 1670 s.
Basic engine weight: 3,449 kg.
Length: 4.55 m, Diameter: 2.42 m
Propellants: LOX & LH2
Mixture ratio: 6:1
Contractor: Chemical Automatics Design Bureau (Конструкторское Бюро Химавтоматики)
Vehicle application: Energia core stage.

References

Hendrickx, Bart; Bert, Vis (2007). Energiya-Buran: The Soviet Space Shuttle. Chichester, UK: Praxis Publishing Ltd. ISBN 978-0-387-69848-9.

↑ "RD-0120". Encyclopedia Astronautica. Retrieved 2015-07-15.
↑ "ЖРД РД-0120 (11Д122)" [RD-0120 (11D122)] (in Russian). Retrieved 2015-07-07.
↑ "Liquid Rocket Engine". Voronezh Mechanical Plant. Retrieved 2015-05-29.

External links

Rocket engines and solid motors for orbital launch vehicles

Liquid fuel

Cryogenic (LH₂ / LOX)	China YF-73 YF-75 YF-75D YF-77 Europe HM7B Vinci Vulcain India CE-7.5 CE-20 Japan LE-5 LE-7 Russia KVD-1 (RD-56) RD-0120 USA BE-3U J-2 RL10 RS-25 (SSME) RS-68

Cryogenic (CH₄ / LOX)	USA BE-4 Raptor

Semi-cryogenic (RP-1 / LOX)	China YF-100 YF-115 India SCE-200 New Zealand Rutherford Russia NK-33 RD-58 RD-0105, 0109 RD-0107, 0108, 0110 RD-0110R RD-0124 RD-107, 108, 117, 118 RD-120 RD-170, 171 RD-180 RD-191, 151, 181 RD-193 S1.5400 Ukraine RD-8 RD-801 RD-810 USA F-1 H-1 Kestrel LR-79 LR-89 LR-105 Merlin 1 RS-27 RS-27A RS-56 S-3D XLR50

Hypergolic (UDMH, UH 25, Aerozine or MMH reacting with N₂O₄)	China YF-1, 2, 3 YF-20, 21, 22, 24, 25 YF-23 YF-40 YF-50D Europe Aestus Astris Vexin Viking India PS4 Vikas Israel LK-4 Russia 17D61 RD-0202 to 0206, 0208 to 0213 RD-0207, 0214 RD-0216, 0217, 0235 RD-0233, 0234 RD-0236 RD-0237 RD-0243, 0244, 0245 RD-0255, 0256, 0257 RD-250, 251, 252, 261, 262 RD-253, 275 RD-263, 268, 273 RD-270 RD-854, 861 RD-855 RD-856 RD-864, 869 S5.92 S5.98M Ukraine RD-843 USA AJ10 LR-87 LR-91 TR-201

Hypergolic (other oxidizers)	Europe Gamma Russia RD-119 RD-214 USA XLR81

Solid fuel

China: FG-02; FG-36; FG-46; FG-47; SpaB-65; SpaB-140C
Europe: Mage 1; P-4; P-6; PAP; P80; P230; Topaze; Waxwing; Zefiro 9; Zefiro 23
India: S7; S9; S12; S139; S200
Israel: LK-1; RSA-3
Japan: KM-V1; KM-V2b; M-14; M-24; M-34; M-34c; SRB-A
USA: AJ-60A; Algol; Castor 30; GEM; Orbus-6; Orbus-21; Orion; Space Shuttle SRB; Star 27; Star 37; Star 48; UA120; USRM; X-248; X-254

Engines under development are in italics.

Russian and former Soviet military designation sequences for radar, missile and rocket systems

Radar
systems

Land-based	A-100 P-3 P-8 P-10 P-12 P-14 P-15 P-18 P-19 P-20 P-30 P-35 P-37 P-40 P-70 P-80 P-100 Kabina 66 Kasta 2E RSN-225 Azov SNR-75 1S91 30N6 36D6 64N6 76N6 96L6E 9S15 9S19 9S32 Duga Dnestr Dnepr Daryal Dunay Volga Don 2N Voronezh Container

Ship-borne

Airborne	N001 N002 N005 N006 N007 N008 N010 N011 N012 N014 N019 N025 N035 N036

Missiles

ICBM	GR-1 R-7 R-9 R-16 R-26 R-36 R-36M R-46 RS-24 RS-26 RT-2 RT-2PM RT-2PM2 RT-20 RT-21 RT-23 RS-28 UR-100 UR-100MR UR-100N UR-200

IRBM	R-14 RSD-10

MRBM	R-5 R-12 RT-15 RT-25

SRBM	2K1 2K6 9K52 9K720 R-1 R-2 R-11 R-11A R-17 OTR-21 OTR-23 TR-1

SLBM	R-13 R-15 R-21 R-27 R-29 R-39 RSM-45 RSM-56

Surface-to-surface (cruise)	Burya RSS-40

Surface-to-surface (naval)	P-1 P-5 P-15 P-70 P-120 P-270 P-500 P-700 P-750 P-800 P-900 P-900A P-1000 RKV-500A RPK-2 RPK-6 RPK-7 URPK-3 URPK-4 URPK-5

Air-to-surface	KSR-2 KSR-5 KS-1 K-10S Kh-11 Kh-15 Kh-20 Kh-22 Kh-23 Kh-25 Kh-26 Kh-28 Kh-29 Kh-31 Kh-35 Kh-38 Kh-41 Kh-55 Kh-58 Kh-59 Kh-80 Kh-90 9M114V

Air-to-air	K-5 R-3 R-4 R-8 R-23 R-27 R-33 R-37 R-38 R-40 R-60 R-73 R-77 R-172

Anti-tank	3M6 9K111 9K112 9K114 9K115 9K115-2 9K121 9M14 9M15 9M17 9M113 9M117 9M119 9M120 9M123 9M133 Kornet-D Hermes

Unguided
rockets

Air-launched	RP-1 RP-5 RP-6 RP-9 RP-15 RP-21 RS-82 RS-132

Surface-launched	BM-14 BM-21 BM-24 BM-25 BM-27 BM-30 TOS-1

Engines

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RD-0120

Specifications

RD-0120

See also

References

External links