LR-91

LR-91-11
Liquid-fuel engine
Titan 4B aft with a LR91-AJ-11.
Country of origin	United States
First flight	1964-09-01
Last flight	2005-10-19
Designer	Aerojet
Manufacturer	Aerojet
Application	upper stage engine^[1]
Associated L/V	Titan^[1]
Predecessor	LR-91-9^[1]
Status	Retired
Propellant	N₂O₄^[1] / Aerozine 50^[1]
Mixture ratio	1.86^[1]
Cycle	Gas generator ^[1]
Configuration
Chamber	1^[1]
Nozzle ratio	49.2^[1]
Performance
Thrust (vac.)	467 kilonewtons (105,000 lbf)^[1]
Thrust (SL)	232.7 kilonewtons (52,300 lbf)^[1]
Thrust-to-weight ratio	80.85^[1]
Chamber pressure	5.93 megapascals (860 psi)^[1]
I_sp (vac.)	316s^[1]
I_sp (SL)	160s^[1]
Burn time	247s^[1]
Dimensions
Length	2.81 metres (111 in)^[1]
Diameter	1.63 metres (64 in)^[1]
Dry weight	589 kilograms (1,299 lb)^[1]
Used in
Titan III and Titan IV^[1]

The LR-91 was an American liquid-propellant rocket engine, which was used on the second stages of Titan intercontinental ballistic missiles and launch vehicles. While the original version - the LR-91-3 - run on RP-1/LOX (as did the companion LR-87-3) on the Titan I, the models that propelled the Titan II and later were switched to Aerozine 50/N₂O₄.^[1]

This engine was vacuum optimized and ran the gas generator cycle. The thrust chamber used fuel for regenerative cooling, with separate ablative skirt.^[1] The LR-87, which was used for the Titan first stage, was used as a template for the LR-91.

Early LR-91 engines used on the Titan I burned RP-1 and liquid oxygen. Because liquid oxygen is cryogenic, it could not be stored in the missile for long periods of time, and had to be loaded before the missile could be launched. For the Titan II, the engine was converted to use Aerozine-50 and nitrogen tetroxide, which are hypergolic and storable at room temperature. This allowed Titan II missiles to be kept fully fueled and ready to launch on short notice.^[2]

Versions

Improvement and modifications required to comply with the man rating of the RD-0105 led it to have two versions:

LR-91-3: Titan I version. Run on RP-1/LOX.^[3]
LR-91-5: Titan II version. Propellant was switched to Aerozine-5/N₂O₄.^[4]
LR-91-7: Similar to LR-91-5, it was used on Stage 2 of Gemini Titan 2. This version was human rated.^[5]
LR-91-9: Used in earlier versions of Titan 3 upper stage.^[6]
LR-91-11: Version used on the Titan III and Titan IV.^[1]

References

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 "LR91-11". Encyclopedia Astronautica. Retrieved 2015-06-15.
↑ "Titan I Second Stage Engine (LR-91)". Heroic Relics. Retrieved 2015-06-15.
↑ "LR91-3". Encyclopedia Astronautica. Retrieved 2015-06-15.
↑ "LR91-5". Encyclopedia Astronautica. Retrieved 2015-06-15.
↑ "LR91-7". Encyclopedia Astronautica. Retrieved 2015-06-15.
↑ "LR91-9". Encyclopedia Astronautica. Retrieved 2015-06-15.

External links

Aerojet Rocketdyne Holdings

People	Thomas F. O'Neil Dan A. Kimball Robert Truax

Subsidiaries	Aerojet Rocketdyne Pratt & Whitney Rocketdyne Rocketdyne

Joint ventures	Bristol Aerojet

Products	Aerobee Aerojet General X-8 Aerozine 50 Aquarius LR-87 Sea Dragon

Related articles	Aerojet General Tire OMNOVA Solutions

Titan rockets

Main articles

Rockets

Missiles	HGM-25A Titan I LGM-25C Titan II

Launch Systems	Titan II GLV Titan IIIA Titan IIIB Titan IIIC Titan IIID Titan IIIE Titan 34D Titan 23G Commercial Titan III Titan IV

Unbuilt	Ares Titan-Vanguard Titan-C Titan IIB Titan IIL Titan IIS Soltan Titan IIIL Titan IIIM Titan V

Launch sites

Cape Canaveral	LC-15 LC-16 LC-19 LC-20 (S)LC-40 (S)LC-41

Vandenberg	OSTF SLTF LC-395 SLC-4 SLC-6

Bases	Larson Mountain Home Beale Ellsworth Lowry Davis-Monthan McConnell Little Rock

Components

Boosters	UA1205 UA1206 UA1207 USRM

Upper stages	Agena Centaur IUS Star-37 TOS Transtage

Engines	AJ-10 B-8096 Orbus 6 Orbus 21 LR-87 LR-91 RL10

Manufacturers

Rocket	Martin Lockheed Martin

Engines	Aerojet Pratt & Whitney Thiokol

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.

This article is issued from Wikipedia - version of the 9/28/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.

LR-91

Versions

See also

References

External links