Vikas (rocket engine)

Vikas
Liquid-fuel engine
Model of the Vikas engine
Country of origin	India
Designer	ISRO
Manufacturer	Godrej & Boyce^[1]^[2]^[3]^[4]
Status	Active
Propellant	N₂O₄ / UDMH
Cycle	Gas generator
Performance
Thrust	800 kN^[5]
Chamber pressure	5.86 MPa,(58.5 bar) ^[6]
I_sp (vac.)	290 seconds (2.8 km/s)^[6]
Dimensions
Length	3.70 m (12.1 ft)(Vikas-4B)
Used in
2nd stage of PSLV and GSLV Main stage L110 of GSLV Mk.III

The Vikas is a liquid fueled rocket engine built by Indian Space Research Organisation (ISRO).^[7] It was developed at the Liquid Propulsion Systems Center during the 1970s.^[8] It is used in the Polar Satellite Launch Vehicle (PSLV) and the Geosynchronous Satellite Launch Vehicle (GSLV) series of expendable launch vehicles for space launch use.

The engine is used as the second stage of both the PSLV and the GSLV launch vehicles, with four strap-on boosters. The engine is also capable of gimballing. The GSLV MK-3 rocket uses two Vikas engines in its L110 core stage. The propellant loading for GSLV Mk-3 vikas engines is 55 tons compared to 40 tons for regular GSLV Mk-2 and PSLV rockets.

Technical details

The engine uses up about 40 metric tons of UDMH as fuel and Nitrogen tetroxide (N₂O₄) as oxidizer with a maximum thrust of 725 kN. An up-graded version of the engine has a chamber pressure of 58.5 bar as compared to 52.5 bar in the older version and produces a thrust of 800 kN.

The rocket benefited from technological cooperation from the Viking 4A engine built by CNES/SEP of France.^[9]^[10]^[11] The primary difference being that the Vikas is rated for a longer burn time.

Variants

Type	Nozzle Diameter (m)	Length (m)	Nozzle Area Ratio	Chamber pressure (MPa)	Fuel	Mix Rate	Flow rate (t/sec)	Thrust(kN)		Specific Impulse (Ns/kg)		Launcher Stages
Type	Nozzle Diameter (m)	Length (m)	Nozzle Area Ratio	Chamber pressure (MPa)	Fuel	Mix Rate		Sea Level	Vacuum	Sea Level	Vacuum	Launcher Stages
Booster/first stage
Vikas-2	~1.00	~2.75	13.9	5.30	UDMH/N2O4	1.86	0.2469	600.5	680.5	2432	2756	GSLV Mk.I L40H Strapon
Vikas-2B	~1.00	~2.75	13.9	5.30	UH25/N2O4	1.87	0.2710	677.7	765.5	2501	2824	GSLV Mk.II L40H Strapon
Vikas-X	~1.80	~3.75			UH25/N2O4		0.2805	756.5	839.0	2697	2991	LVM3 L110 stage
Second stage
Vikas-4	~1.50	~3.50		5.35	UDMH/N2O4	1.86	0.2498	-	725.0		2903	GSLV Mk.I GS2 stage, PSLV PS2 stage
Vikas-4B	~1.80	~3.70		5.85	UH25/N2O4	1.71	0.2716	-	804.5		2962	GSLV Mk.II GS2 stage, PSLV PS2 stage
References:^[12]

External links

"L110 test to follow S200". SuperNova. January 4, 2010.
"Class of 1974: Rocket science & reminiscences". India Today. IANS. 19 October 2015.

References

↑ "Tata, L&T, Godrej & Boyce put in bids for drone project". Livemint. 2 June 2009. Retrieved 14 February 2014.
↑ "Manna from Mars ISRO's first mission to the red planet provides a fillip to its local component suppliers.". Business Today. 8 December 2013. Retrieved 14 February 2014.
↑ "Godrej & Boyce Mfg. Co. Ltd.". FAS. Retrieved 14 February 2014.
↑ "Godrej and Boyce Manufacturing Co. Ltd.". NTI. Retrieved 14 February 2014.
↑ India's VIKAS engines and its relationship to the European Viking engines Norbert Brügge, Germany 24 December 2014
1 2 PSLV Launch Vehicle Information Space Flight 101 24 December 2014
↑ "ISRO tests Vikas engine". Hindu.com. 2001-12-03. Retrieved 2012-12-11.
↑ "Unsung hero of moon mission is sad but forgiving". Thaindian.com. Retrieved 2012-12-11.
↑ "PSLV launches with IRNSS-1D to open India's 2015 campaign". NASA SpaceFlight. NASA. 28 March 2015.
↑ "India Successfully Launches Their Largest Rocket To Date Read more from Asian Scientist Magazine at: http://www.asianscientist.com/2014/12/topnews/india-successfully-launches-largest-rocket-date/". The Asian Scientist. 24 December 2014. External link in |title= (help)
↑ "Class of 1974: Rocket science & reminiscences". India Today. IANS. 19 October 2015.
↑ Brügge, Norbert. "India's VIKAS engines and its relationship to the European Viking engines". B14643 Internet Presentation to Space Launch Vehicles. Norbert Brügge. Retrieved 11 December 2015.

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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