SCE-200

SCE-200
Liquid-fuel engine
Country of origin	India
Date	~2016-17
Designer	LPSC, Indian Space Research Organisation
Manufacturer	Godrej Aerospace, Godrej & Boyce Ltd^[1]^[2]
Application	Main engine
Status	Under Development
Propellant	LOX / RP-1
Cycle	Staged combustion
Configuration
Chamber	1
Performance
Thrust (vac.)	2,030 kN (460,000 lbf)^[3]
Thrust (SL)	1,820 kN (410,000 lbf)^[3]
Chamber pressure	18 MPa
I_sp (vac.)	335 seconds (3.29 km/s)
I_sp (SL)	299 seconds (2.93 km/s)
Dimensions
Dry weight	~2700 kg

The SCE-200 is a liquid-fuel rocket engine being developed by the Liquid Propulsion Systems Centre, a subsidiary of India's space agency ISRO. It is being developed to power the future heavy-lift Unified Launch Vehicle (ULV) and Reusable Launch Vehicle (RLV) being planned by ISRO^[4] but before that it will be tested with GSLV Mk III by replacing L110 (powered by old Vikas engine) stage to SC160.

The primary goal of ISRO will be bringing in a new family of launch vehicles called ULV (Unified Launch Vehicle) by replacing currently operational PSLV, GSLV and GSLV Mk III. The ULV (Unified Launch Vehicle) marks the renunciation of India for N₂O₄/UDMH as propellant for space launch vehicle systems.

History

On June 2, 2005, India and Ukraine signed the Framework Agreement between the Government of Ukraine and the Government of the Republic of India on Cooperation in the Peaceful Uses of Outer Space, which would enter in force on February 15, 2006.^[5] As per unconfirmed information obtained by Wikileaks this contract involved the transfer of blueprints for a rocket engine by the Yuzhnoye Design Office.^[6]^[7]^[8]

According to official press release on March 26, 2013 by Ukrainian Ministry of Economic Development and Trade, development of a rocket engine for Indian launch vehicles initiated in 2006 under a joint Indian-Ukrainian project named “Jasmine”^[9]^[10]

During May and June 2015, ISRO and Roscosmos signed a wide-ranging Memorandum of Understanding for cooperation in space.^[11] A. S. Kiran Kumar, Chairman of the Indian Space Research Programme, stated that one of the first benefits would be the availability of Russian test stand for initial testing of the SCE-200, while the Mahendragiri semi-cryogenic test stand is finally commissioned. He also stated that the engine was part of the Rs. 1,800-crore semi-cryogenic launch vehicle programme, which would be capable of placing 6,000 kilograms (13,000 lb) to 10,000 kilograms (22,000 lb) in the GTO.^[11]^[12] This cooperation would only be for facilities use and would have no technology transfers, thus, eliminating the international political risk.^[11]

References

↑ M Ramesh. "Godrej Aerospace to make semi-cryogenic engines". The Hindu Business Line.
↑ http://www.godrej.com/godrej/PrecisionSystems/Pdf/semi_cryogenic_engines.pdf
1 2 "SCE-200 a liquid-fuel, staged combustion semi-cryogenic engine being developed by the Liquid Propulsion Systems Centre (LPSC) lab of ISRO". IITTEN. 2015-05-06. Retrieved 2015-08-10.
↑ "Space Transportation System - Semi-cryogenic Project". ISRO. Retrieved 2015-08-10.
↑ "Legal basis of Ukraine and India". Ministry of Foreign Affairs of Ukraine. Retrieved 2015-08-10.
↑ "UKRAINE: APPEAL FOR USG FORBEARANCE ON INDIA SPACE PROGRAM COOPERATION". WikiLeaks. 2007-09-07. Retrieved 2015-08-10.
↑ "UKRAINE: U.S. FEEDBACK ON SLV ENGINE COOPERATION WITH INDIA AND MIXER CASE". WikiLeaks. 2007-09-28. Retrieved 2015-08-10.
↑ "UKRAINE: YUZHNOYE AND ISRO PROPOSED ROCKET COOPERATION". WikiLeaks. 2008-05-21. Retrieved 2015-08-10.
↑ "Урядовий портал :: Україна розробляє ракетний двигун для індійської ракети-носія". www.kmu.gov.ua. Retrieved 2016-03-15.
↑ "Урядовий портал :: Ukraine designs rocket for Indian launch vehicle". www.kmu.gov.ua. Retrieved 2016-03-15.
1 2 3 "Russian tie-up to boost ISRO's semicryogenic launcher plan". The Hindu. 2015-08-14. Retrieved 2015-08-14.
↑ "Heavy Lift Launcher". Vikram Sarabhai Space Centre. Retrieved 2015-08-14.

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.

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SCE-200

History

See also

References