Tronador (rocket)

Tronador II

Tronador II rocket mockup at Tecnópolis
Function Orbital launch vehicle
Manufacturer Comisión Nacional de Actividades Espaciales
Country of origin Argentina
Size
Height 28 m (~92 ft)
Diameter 2.5 m
Mass 67000 kg (including propellant)
Stages 3
Capacity
Payload to LEO 250 kg (550 lb) (Polar orbit)
Launch history
Status Under development
Launch sites Puerto Belgrano Naval Base
First flight 2015
First stage
Engines 3
Thrust 3 × 30000 kg
Burn time
Fuel LOX/RP-1
Second stage - T30
Engines 1
Thrust 30000 kg
Burn time
Fuel LOX/RP-1
Third stage - T4R
Engines 1
Thrust 4000 kg
Burn time
Fuel Monomethylhydrazine(MMH)/N2O4

Tronador (Thunderer) is a series of Argentine rockets, including the Tronador I and Tronador II vehicles, to develop a liquid-propellant rocket expendable launch system called ISCUL[1] (Inyector Satelital de Cargas Utiles Ligeras, Light Payloads Satellite Launcher).

The Tronador I is an unguided liquid-fueled rocket[2] used for sub-orbital spaceflight test flights. Its development led to the larger Vex test rocket that will test the technologies needed for the Tronador II, which has a guidance system and would be capable of reaching low Earth orbit.[2]

Tronador I

The Tronador I (T1) vehicle was flown successfully on June 6, 2007[3] from Puerto Belgrano Naval Base near Bahía Blanca,[4][5] in the south east of the Buenos Aires Province. This was the first flight of a technology demonstrator vehicle for the program.

Characteristics

Tronador Ib

The Tronador Ib (T2) vehicle was flown successfully on August 5, 2008[3] from Puerto Belgrano Naval Base.[4] This was the second technology demonstrator vehicle flown for the program.

Characteristics

VS-30

This was the first cooperative test flight between Comisión Nacional de Actividades Espaciales and Brazilian Space Agency; it was successfully flown in December 2007 (Operacion Angicos). The payoad built by CONAE carried several experiments to validate subsystems for the program such as: IMU (Inertial Measurements Unit, that used IFOG's), GPS receptor (for navigation), all integrated into the on-board computer, and an attitude control system via cold-gas thrusters. The payload unit completed a suborbital flight carried by an AEB-built VS-30 solid-propellant rocket booster, and was then recovered from the sea after landing with parachutes.

Characteristics

Tronador II prototypes

T4000

The T4000 (Tronador T4000 pathfinder rocket) test rocket is related to the project, as it is the basis of the 3rd stage of the Tronador II.[3] Specifically, it was intended to house the attitude control system (“Thrust Vector Control” - TVS).[6] The first launch attempt in 2011 failed.[7]

Characteristics

Vex

The current strategy is to fly separately several prototype subsystems, called "Vex", before they are incorporated in the Tronador II rocket:[6][9][10][11][12][13]

Demonstrator missions
The prototype of the Tronador II rocket, VEX-1B in its launch complex.

Tronador II/ISCUL

The first full Tronador II demonstrator is expected to fly in December 2015, from Puerto Belgrano Naval Base.[13][14]

Characteristics

In early 2015, an evolved configuration [22] was presented at the 52nd Committee on Peaceful Uses of Ultra-Terrestrial Space meeting [23] and at the Punta Indio test launch pad.

See also

References

  1. "La Facultad de Ingeniería participará en el desarrollo del" (PDF). Proyectarse 15 (71): 20–22. December 2008. Retrieved 2014-08-20.
  2. 1 2 3 "Comisión Nacional de Actividades Espaciales - Tronador II". Conae.gov.ar. Retrieved 2015-12-20.
  3. 1 2 3 "Comisión Nacional de Actividades Espaciales - Tronador". Conae.gov.ar. Retrieved 2015-12-20.
  4. 1 2 "free forum : grandprix". Grandprix.forochile.org. Retrieved 2015-12-20.
  5. "Comisión Nacional de Actividades Espaciales - Tronador". Conae.gov.ar. Retrieved 2015-12-20.
  6. 1 2 "Escalera al cielo, peldaño a peldaño (Serie Tronador II)". Portinos.com. 2015-03-18. Retrieved 2015-12-20.
  7. Brazilian Space (2013-05-03). "BRAZILIAN SPACE: Informação Extraoficial Confirma Falha do Foguete T-4000". Brazilianspace.blogspot.pt. Retrieved 2015-12-20.
  8. "T-4000, Gallery". B14643.de. Retrieved 2015-12-20.
  9. 1 2 "Argentina's SLV development". Forum.nasaspaceflight.com. Retrieved 2015-12-20.
  10. "Comisión Nacional de Actividades Espaciales - Tronador II". Conae.gov.ar. Retrieved 2015-12-20.
  11. "Proyecto de Inversión Pública. Secretaría de Política Económica". Mecon.gov.ar. 2015-11-30. Retrieved 2015-12-20.
  12. "Argentina's SLV development". Forum.nasaspaceflight.com. Retrieved 2015-12-20.
  13. 1 2 3 Rey, Patricia (2013-10-14). "Argentina To Put First Satellite In Space Using Own Launch Technology By 2015". Ibtimes.com. Retrieved 2015-12-20.
  14. 1 2 "Cohete Tronador II: más que un monumento de Tecnópolis". Colonbuenosaires.com.ar. Retrieved 2015-12-20.
  15. "Argentina lanzará un cohete de diseño nacional que pondrá en órbita satélites de observación". Infobae.com. Retrieved 2015-12-20.
  16. "El cohete despegó y explotó". Punta Indio Web. 2014-02-26. Retrieved 2015-12-20.
  17. "Un despegue fallido - 07.03.2014 - LA NACION". Lanacion.com.ar. Retrieved 2015-12-20.
  18. 1 2 "Comisión Nacional de Actividades Espaciales - 2014". Conae.gov.ar. Retrieved 2015-12-20.
  19. 1 2 3 "El INVAP de Bariloche ya prepara el Arsat 2 y 3 para 2015 y 2017". Energypress.com.ar. Retrieved 2015-12-20.
  20. 1 2 3 "VEX1 - Machtres Aeronautica y Espacio". Machtres.com. 2014-09-25. Retrieved 2015-12-20.
  21. "Argentina's SLV development". Forum.nasaspaceflight.com. Retrieved 2015-12-20.
  22. "Tronador LSA". B14643.de. Retrieved 2015-12-20.
  23. "Argentina en el Espacio: ¿Nuevo diseño para el Tronador II?". Argentinaenelespacio.blogspot.com.ar. Retrieved 2015-12-20.

External links

This article is issued from Wikipedia - version of the Saturday, January 30, 2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.