Enabling & Support Ariane 6’s core engine completes qualification tests 27/09/2019 15781 views 97 likes

Ariane 6, Europe's next-generation launch vehicle, has passed another key development milestone. Its Vulcain 2.1 liquid-fuelled engine has now completed its qualification testing, which means combined tests can now begin.

The main stage Vulcain 2.1 engine will deliver 135 t of thrust to propel Ariane 6 in the first eight minutes of flight up to an altitude of 200 km.

P5.2 test stand A review last week marked the culmination of two Vulcain static firing test campaigns over 15 months on two demonstration models in test facilities at the DLR German Aerospace Center test facility in Lampoldshausen. The final qualification static firing test of Vulcain 2.1 in July lasted almost 11 minutes (655 seconds). This completed a total of 13,798 seconds of operation, or nearly four hours with a controlled engine, using Ariane 6 flight actuators to gimbal the engine.

Successful first test of the Ariane 6 Vulcain 2.1 engine

“These very positive results confirm the functional and mechanical behaviour of Vulcain 2.1. The upcoming combined tests will qualify Ariane 6 subsystems at stage and launcher level,” commented Guy Pilchen, ESA’s Ariane 6 launcher project manager. The engine will be refurbished for dynamic and vibration tests. Combined tests using a fully representative main stage at Europe’s Spaceport in French Guiana, will finally qualify the Ariane 6 core stage for flight.

Vinci engine qualified in tests Completion of the Vulcain 2.1 and Vinci qualification tests represent a major step forward in the Ariane 6 development. The qualifying tests for the Vinci re-ignitable engine, which will power the launcher’s upper stage, were completed in October 2018. Vinci will be integrated with the complete upper stage for tests at Lampoldshausen.

Hot firing of P120C solid rocket motor for Vega-C The next step for large propulsion systems is the static firing in French Guiana of the final qualification model of Ariane 6’s P120C solid fuel booster. This test will define the acceleration profile for the launcher and will consequently allow engineers to pursue the preparation of the upcoming flights.