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(Top) 1 Technical data 2 See also 3 References 4 External links

Viking (rocket engine)

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Viking
Liquid-fuel engine
Viking 5C rocket engine
Country of origin	France
First flight	1979
Last flight	2003
Designer	Société Européenne de Propulsion (SEP)
Predecessor	None
Successor	Vikas Vulcain
Status	Retired
Propellant	Dinitrogen tetroxide / UDMHorUH 25
Mixture ratio	1.7–1.86
Cycle	Gas-generator cycle
Pumps	3 coaxial pumps
Configuration
Chamber	Film-cooled, ablative throat insert
Nozzle ratio	10 (Viking 5C) 30.8 (Viking 4B)^[1]
Performance
Thrust, vacuum	690–805 kN (155,000–181,000 lb_f)
Thrust, sea-level	611–678 kN (137,000–152,000 lb_f)
Thrust-to-weight ratio	80–99
Chamber pressure	5.5 MPa (800 psi)
Specific impulse, vacuum	2.76–2.95 km/s (281–301 s)
Specific impulse, sea-level	2.43–2.79 km/s (248–284 s)
Restarts	Unlimited
Gimbal range	Fixed, swiveled, and gimbaled versions were made
Dimensions
Length	2.87–3.51 m (9.4–11.5 ft)
Diameter	0.95–1.7 m (3.1–5.6 ft)
Used in
Ariane 1 – Ariane 4
References
References	^[2]

The Viking rocket engines were members of a series of bipropellant engines for the first and second stages of the Ariane 1 through Ariane 4 commercial launch vehicles, using storable, hypergolic propellants: dinitrogen tetroxide and UH 25, a mixture of 75% UDMH and 25% hydrazine^[3] (originally UDMH).

The earliest versions, developed in 1965, had a sea-level thrust of about 190 kN. By 1971, the thrust had improved to 540 kN, with resulting engine named Viking 1 and adopted for the Ariane program. The engine first flown on the Ariane 1 rocket in 1979 was Viking 2, with thrust further improved to 611 kN.

The version used on the Ariane 4 first stage, which used a cluster of four, had 667 kN thrust each. The second stage of Ariane used a single Viking. Over 1000 were built, and achieved a high level of reliability from early in the programme.

The 144 Ariane 1 to 4 launchers used a total of 958 Viking engines. Only two engines led to a failure. The first failure (on second Ariane 1 flight 23 May 1980) was due to a chamber combustion instability.^[4] The vehicle had lost an attitude control and broke up. Several injector changes were implemented in the aftermath of the failure, and the fuel was changed from UDMHtoUH 25.

The second failure was of human origin: a rag had been left in a water coolant pipe during installation, resulting in a loss of thrust and vehicle breakup due to off-centre thrust during launch on 22 February 1990.^[5]

Initially, all the engines were tested before being integrated on a launcher. Beginning in 1998, engineers, confident of the reliability of the engine, authorized the use of untested engines on launchers. One engine per year was tested, randomly taken from the assembly workshops.^[6] This confidence is very rare in the world of space engines.

An unusual feature of the Viking engines is their water tank and water pump, used to cool the exhaust gasses of the gas generator. The hot exhaust of the gas generator is cooled by water injection to 620 °C before being used to drive the three coaxial pumps (for water, fuel and oxidizer) and to pressurize the fuel tanks. The water was also used as a hydraulic fluid to actuate the valves.^[7]

Technical data[edit]

	Viking 2	Viking 2B	Viking 4	Viking 4B	Viking 5C	Viking 6
Height	2.87 m	2.87 m	3.51 m	3.51 m	2.87 m	2.87 m
Diameter	0.95 m	0.99 m	1.70 m	1.70 m	0.99 m	0.99 m
Mass	776 kg^[8]	776 kg^[9]	826 kg	826 kg	826 kg	826 kg
Propellant	Dinitrogen tetroxide and UDMH in ratio 1.86:1	Dinitrogen tetroxide and UH 25 in ratio 1.70:1	Dinitrogen tetroxide and UDMH in ratio 1.86:1	Dinitrogen tetroxide and UH 25 in ratio 1.70:1	Dinitrogen tetroxide and UH 25 in ratio 1.70:1	Dinitrogen tetroxide and UH 25 in ratio 1.71:1
Propellant consumption	250 kg/s	ca. 275 kg/s	ca. 275 kg/s	273 kg/s	244 kg/s	ca. 275 kg/s
Performance of the turbine	2500 kW, 10,000 rpm	2500 kW, 10,000 rpm	2500 kW, 10,000 rpm	2500 kW, 10,000 rpm	2500 kW, 10,000 rpm	2500 kW, 10,000 rpm
Vacuum thrust	690 kN	?	713 kN	805 kN^[10]	758 kN	750 kN
Sea level thrust	611 kN	643 kN	-	-	678 kN	?
Use	Ariane 1	Ariane 2, 3	Ariane 1	Ariane 2 – 4	Ariane 4	PAL (Ariane 4 liquid booster)

References[edit]

^ George Paul Sutton, "History of Liquid Propellant Rocket Engines", p. 798

^ News Archive 2009 Viking engine (Archived)

^ Souchier, A..Drakkar Ariane 1st stage - The concept and its originality , AA(Societe Europeenne de Propulsion, Vernon, Eure, France) International Astronautical Federation, International Astronautical Congress, 27th, Anaheim, Calif., Oct. 10–16, 1976, 4 p.

^ Guy Collins. "Europe in Space", p. 51

^ Launch failures: the “Oops!” factor

^ Qualification Over Ariane’s Lifetime

^ George Paul Sutton, "History of Liquid Propellant Rocket Engines", p. 799

^ "Viking 2". Archived from the original on 2015-08-24. Retrieved 2015-08-14.

^ "Viking 2B". Archived from the original on 2015-08-24. Retrieved 2015-08-17.

^ Martin J. L. Turner, "Rocket and Spacecraft Propulsion: Principles, Practice and New Developments", p.90