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Zefiro (rocket stage)

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Zefiro
Nozzle of the Zefiro 23, Paris Air Show 2015
ManufacturerAvio
Country of originItaly
Used on
Launch history
StatusActive
Total launches23
Successes
(stage only)
21
Failed2
First flight13 February 2012
Last flight11 July 2019
Second stage (Vega) – Zefiro 23
Height8.39 m (27 ft 6 in)
Diameter1.9 m (6 ft 3 in)
Empty mass2,486 kg (5,481 lb)
Gross mass26,300 kg (58,000 lb)
Propellant mass23,814 kg (52,501 lb)
Maximum thrust1,120 kN (250,000 lbf)
Specific impulse287.5 s (2.819 km/s)
Burn time77.1 seconds
PropellantAP / AlHTPB (1912 APCP)
Second stage (Vega C / Vega E) – Zefiro 40
Height8.07 m (26 ft 6 in)
Diameter2.4 m (7 ft 10 in)
Gross mass40,477 kg (89,237 lb)
Propellant mass36,239 kg (79,893 lb)
Maximum thrust1,304 kN (293,000 lbf)
Specific impulse293.5 s (2.878 km/s)
Burn time92.9 seconds
PropellantAP / AlHTPB
Third stage (Vega / Vega C) – Zefiro 9
Height4.12 m (13.5 ft)
Diameter1.9 m (6 ft 3 in)
Empty mass1,315 kg (2,899 lb)
Gross mass12,000 kg (26,000 lb)
Propellant mass10,567 kg (23,296 lb)
Maximum thrust317 kN (71,000 lbf)
Specific impulse295.9 s (2.902 km/s)
Burn time119.6 seconds
PropellantAP / AlHTPB (HTPB 1912 APCP)

Zefiro is a family of solid-fuel rocket motors developed by Avio and used on the European Space Agency Vega rocket. The name Zefiro derives from the acronym ZEro FIrst stage ROcket, conceived when this motor was intended to be used as first and second stages of San Marco program of the Italian Space Agency (ASI). The name also references the Greek god of the west wind, Zephyrus.

As of 2024, two models Zefiro 40 and Zefiro 9 are in use on the Vega C rocket. The Zefiro 23, which powered the original Vega is no longer in production.

History

The first engine completed was Zefiro 9, the third stage engine. The first test firing was carried out on 20 December 2005, at the Salto di Quirra Inter-force Test Range, on the Mediterranean coast in southeast Sardinia. The test was a complete success. After a critical design review based on the completed first test firings, the second test-firing of the Zefiro 9 took place at Salto di Quirra on 28 March 2007. After 35 seconds, there was a sudden drop in the motor's internal pressure, leading to an increased combustion time. On 23 October 2008, an enhanced version of the Zefiro 9 with a modified nozzle design and increased propellant load, the Zefiro 9A, was successfully tested. On 28 April 2009, the final qualification test firing of Zefiro 9A took place at the Salto di Quirra Interforce Test Range in Sardinia, Italy.

The Zefiro 23 was test fired twice on 26 June 2006 and 27 March 2008 at Salto di Quirra. Both tests were successful and the motor qualified for use on Vega.

Zefiro 40 first test occurred on 8 March 2018 also at Salto di Quirra with a successful 92 seconds burn.

A failure of the Zefiro 23 occurred shortly after the planned ignition during the FalconEye 1 mission on 11 July 2019 which resulted in the loss of the satellite and a mission failure. The Zefiro 23 was supposed to fire for 77 seconds. Telemetry data showed the Vega rocket achieved a top speed of approximately 2.17 km/s, 233 seconds into flight. The rocket then deviated below its planned ascent trajectory before falling into the Atlantic Ocean north of the Centre Spatial Guyanais.

A failure of a Zefiro-40 second stage occurred on 20 December 2022, reported as under-pressure issues at launch.

Overview

The propellant of all Zefiro models is HTPB 1912 with a nominal composition of 19% of aluminium powder, 69% of ammonium perchlorate with 12% of hydroxyl-terminated polybutadiene binder.

Zefiro 23 and Zefiro 9A, where the number represent the intended propellant weight at design phase, are used respectively as second and third stage of Vega rockets. Both motors have a 1.9 m diameter carbon epoxy filament wound case, a low density EPDM insulation, a flexible rocket nozzle joint and an electromechanical thrust vector control system.

Zefiro 23 is 7.5 meters tall and weighs 26 tonnes, of which 24 tonnes consist of solid propellant. It has a nominal burn time of 103 seconds with combustion chamber pressure of 95 bars.

Zefiro 9A, designed and built exclusively with Avio technologies, is 3.5 metres tall, weighs 11.5 tonnes and burns 9 tonnes of solid propellant. It has a nominal burn time of 77 seconds with combustion chamber pressure of 95 bars, consumed in slightly more than 110 seconds.

Zefiro 40 is used as second stage of Vega-C and is intended to be used with the Vega-E. In comparison to its predecessor Zefiro 23, the motor has an increased exercise pression, better structural load margins for both the casing and the propellant grains and an improved flexible rocket nozzle joint.

See also

References

  1. ^ "VEGA: 2° stage – Zefiro 23". Avio. Retrieved 14 April 2019.
  2. ^ "VEGA: 2° stage – Z40 Motor". Avio. Archived from the original on 15 March 2018. Retrieved 14 April 2019.
  3. ^ "VEGA: 3° stage – Zefiro 9". Avio. Retrieved 14 April 2019.
  4. "Italian "Demetra" conference: aerospace sector, satellite monitoring". Avio. Archived from the original on 27 February 2015. Retrieved 14 April 2019.
  5. "ESA: Successful first test for Vega's Zefiro 9 engine". ESA. 21 December 2005. Retrieved 14 April 2019.
  6. "ESA: Vega Critical Design Review begins". ESA. 22 December 2006. Retrieved 14 April 2019.
  7. "ESA: Anomalous behaviour affects firing test of Vega's Zefiro 9 motor". ESA. 29 March 2007. Retrieved 14 April 2019.
  8. "Successful first test for Vega's Zefiro 9-A solid-fuel rocket motor". ESA. 24 October 2008.
  9. "Successful second test for Vega's Zefiro 9A solid-fuel rocket motor". ESA. 30 April 2009.
  10. "ESA: Vega's second stage motor roars to life". ESA. 26 June 2006. Retrieved 14 April 2019.
  11. "Successful qualification firing test for Zefiro 23". ESA. 31 March 2008. Retrieved 14 April 2019.
  12. "Zefiro 40(Z40) engine bench test". Avio. 8 March 2019. Retrieved 14 April 2019.
  13. "UAE military satellite lost in Vega launch failure". spaceflightnow. 11 July 2019.
  14. Foust, Jeff (21 December 2022). "Vega C fails on second launch". SpaceNews.
  15. "Green solid propellants for launchers" (PDF). Archived from the original (PDF) on 7 August 2018. Retrieved 16 March 2018.
  16. ^ "Die Vega" (in German). Retrieved 14 April 2019.
Rocket engines and solid motors for orbital launch vehicles
Liquid
fuel
Cryogenic
Hydrolox
(LH2 / LOX)
Methalox
(CH4 / LOX)
Semi-
cryogenic
Kerolox
(RP-1 / LOX)
Storable
Hypergolic (Aerozine,
UH 25, MMH, or UDMH
/ N2O4, MON, or HNO3)
Other
Solid
fuel
  • * Different versions of the engine use different propellant combinations
  • Engines in italics are under development
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