Payload integration begins next Galileo launch

May 16, 2016  - By
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The first of two Galileo navigation satellites to be orbited on Arianespace’s May 24 Soyuz flight has been integrated on its payload dispenser system, marking a key step as preparations advance for this medium-lift mission from French Guiana.

Named “Danielė,” the Galileo 13 spacecraft was installed this week during activity inside the Spaceport’s S3B payload preparation facility. It is to be joined on the dispenser system by the mission’s other passenger, “Alizée” or Galileo 14, whose own installation is forthcoming, in a side-by-side arrangement.

The pair — each named after children who won a European Commission-organized painting competition in 2011 — are then to be mated atop Soyuz’ Fregat upper stage and encapsulated in the protective payload fairing. Prime contractor OHB System in Bremen, Germany produced the satellites, and their onboard payloads are supplied by UK-based Surrey Satellite Technology Limited (SSTL) – which is 99-percent owned by Airbus Defence and Space.

The Galileo FOC satellite “Danielė” is moved into position, then integrated on its payload dispenser at the Spaceport’s S3B payload preparation facility. (Photo: Arianespace)

The Galileo FOC satellite “Danielė” is moved into position, then integrated on its payload dispenser at the Spaceport’s S3B payload preparation facility. (Photo: Arianespace)

“Danielė” and “Alizée” will become the 13th and 14th FOC (Full Operational Capability) spacecraft to join Europe’s Galileo navigation system, which was conceived to provide high-quality positioning, navigation and timing services under civilian control. Its FOC phase is managed and funded by the European Commission, with the European Space Agency (ESA) delegated as the design and procurement agent on the Commission’s behalf.

The May 24 flight is designated Flight VS15, and will be performed from the purpose-built ELS launch complex at Europe’s Spaceport. Arianespace’s Soyuz will carry out a nearly 3-hour, 48-minute mission to place its Galileo passengers into a targeted circular orbit at an altitude of 23,522 kilometers, inclined 57.394 degrees to the equator. Total payload lift performance is estimated at 1,599 kg.

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