ESA has recently completed hot-firing tests that prove technologies in a move towards ‘intelligent’ engines to power the upper stages of next-generation launchers.

The Expander-cycle Technology Integrated Demonstrator, or ETID, is a full-scale integrated demonstrator for an upper-stage rocket engine.

Yesterday ESA, industrial partners and representatives of participating Member States met at DLR Lampoldshausen, Germany, to review the results of ETID’s extremely successful nine-month test campaign on the P3.2 test bench.

In total, four configurations of ETID with three new combustion chamber geometries and designs were tested.

Two different injector heads, including a fully 3D-printed version were also tested, as well as a regenerative nozzle that optimises the engine cycle by maximizing the heat pick-up.

Both the combustion chamber and the nozzle use the heat of the combustion to pre-heat and therefore “expand” the hydrogen propellant before combustion. The flow of cold hydrogen also has the effect of cooling the hardware, keeping the temperature within reasonable limits during operation.

Two different electrical igniters, laser and direct spark, were shown to reignite the engines multiple times, and the electrically-operated valves showed perfect repeatability, aiding the engine startup.