vendredi 14 juillet 2017

ROSCOSMOS: Soyuz-2.1А Launch Vehicle with KANOPUS-V-IK Satellite Successfully Lifts Off From Baikonur












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July 14, 2017

Soyuz-2.1a LV with Kanopus-V-IK launch

On July14, 2017 at 09:36 Moscow time, Soyuz-2.1a lifted off from Site 31 at the Baikonur Cosmodrome. The launch mission is to deliver an Earth observation Kanopus-V-IK satellite and 72 smallsats piggybacked under the federal and commercial contracts of Glavkosmos to their target orbits.

Soyuz-2.1a LV with Kanopus-V-IK launch

The spacecraft launched under the Russian federal contracts are as follows:

- MKA-N 1 6U-CubeSat (Russia, Dauria Aerospace in the order of Roscosmos);
- MKA-N 2 6U-CubeSat (Russia, Dauria Aerospace in the order of Roscosmos).

The spacecraft launched under Glavkosmos contracts are as follows:

CubeSats (illustration)

- Flying Laptop microsatellite (Germany);
- TechnoSat microsatellite (Germany);
- WNISAT-1R microsatellite (Japan);
- NorSat-1 microsatellite (Norway/Canada);
- NorSat-2 microsatellite (Norway/Canada);
- 48 Dove 3U-CubeSats as part of Flock-2k (USA);
- 3 CICERO 6U-CubeSats (USA);
- 2 Corvus-BC 6U-CubeSats (USA);
- 8 LEMUR 3U-CubeSats (USA);
- NanoACE 3U-CubeSat (USA);
- Mayak 3U-CubeSat (the Moscow Polytechnic University);
- Iskra-MAI-85 3U-CubeSat (the Moscow Aviation Institute);
- Ekvador UTE-YuZGU 1U-CubeSat (the South-Western State University).

72 smallsats make the mission setting a record in a number of spacecraft to be injected into several target orbits among smallsats launches ever.

Soyuz-2.1a LV with Kanopus-V-IK launch

The flight timeline is as follows:
    09:36:49 – launch vehicle lift-off;
    09:38:46 – 1st stage separation;
    09:41:36 – 2nd stage separation;
    09:41:38 – fairing jettison;
    09:45:37 – head module separation;
    09:45:42 – 09:52:18 – Fregat upper stage flight to a transfer orbit;
    10:35:01 – 10:36:27 – Fregat upper stage flight to the Kanopus-V-IK separation orbit;
    10:38:07 – Kanopus-V-IK separation (orbit i=97.44°; H = 522.5km; h = 478.6km);
    11:13:29 – 11:14:35 – Fregat upper stage flight to the second transfer orbit;
    11:58:29 – 11:59:35 – Fregat upper stage flight to the separation orbit of a group of smallsats;
    12:01:43 – 12:05:03 – Phase 1. Separation of 5 smallsats (orbits i=97.61°; H = 601.5-600.1km; h = 600.0-590.1km);
    12:10:03 – 12:26:43 – Phase 2. Separation of 19 smallsats (orbits i=97.62-97.61°; H = 601.0-606.9km; h = 580.1-587.4km);
    12:51:49 – 12:53:15 – Fregat upper stage flight to the third transfer orbit;
    13:34:39 – 13:35:51 – Fregat upper stage flight to the separation orbit of a group of smallsats;
    17:18:23 – 17:41:17 – Separation of 48 smallsats (orbits i=97.00-97.01°; H = 485.0-477.4km; h = 482.2-450.5km);
    17:51:49 – 17:53:45 – Fregat upper stage flight to reentry orbit;
    ~18:18:49 – Fregat upper stage reentry (altitude – 100km), sinking in the Indian Ocean.

Kanopus-V-IK satellite

Soyuz-2.1a Launch Vehicle

Soyuz-2 launcher is based on the Soyuz-U series. Soyuz-2 features advanced engines and up-to-date control and telemetry systems that significantly enhance the LV technical and operational specifications. The upgrading was done in two phases. At phase 1а, a standardized Soyuz-2.1a was born to accommodate various upper composites with fairings of up to 4.11m in diameter. The LV is capable to orbit a payload with improved accuracy; the upgraded control system and stage I-II engines have allowed for increasing of the payload mass to be lofted to the low Earth orbit. At phase 1b resulted in Soyuz-2.1b, stage III was refitted with a state-of-the-art 14D23 (RD-0124) engine which made its performance even better.

The prime LV designer is Progress Space Rocket Center (the city of Samara). Depending on a mission, Soyuz-2 launcher can be configured with the Fregat upper stage.

Soyuz-2 key features:

- a new generation of a legendary carrier rocket;
- environmentally-friendly fuel of kerosene and liquid oxygen;
- increased performance and a state-of-the-art control system providing new orbiting capabilities.

Fregat Upper Stage

A standard Fregat upper stage was designed by Lavochkin Association to complement various launchers in order to put satellites in different orbits. It is used in Soyuz rockets. A standard Fregat upper stage equipped with extra fuel tanks or drop-off tanks evolved to highly efficient upper stage modifications: Fregat-MT and Fregat-SB.

Fregat key features:

- independence – the upper stage orbits a payload without uplink control;
- the logic of upper stage operation provides for responding to potential anomalies;
- satellite navigation instruments in the control loop improve spacecraft insertion accuracy;
- lengthy active life (up to 2 days);
- operations at Baikonur, Plesetsk, the Guiana Space Center and, in the future, at Vostochny.

For more information, visit: http://en.roscosmos.ru/

Images, Video, Text, Credit: ROSCOSMOS/Günter Space Page.

Best regards, Orbiter.ch