Engineers seen making ready a take a look at inside the most important vacuum chamber of the ESA Propulsion Laboratory – this CORONA take a look at facility measures 2 m in peak and 5 m in size – to guage a compact electrical propulsion design tailor-made for microsatellites and CubeSats.
Electrical propulsion includes accelerating propellant through numerous electrical or magnetic strategies to succeed in excessive ranges of effectivity – propellant will be ejected as much as 20 occasions sooner than a standard thruster.
Electrical propulsion can solely happen in vacuum circumstances nevertheless, so take a look at chambers are geared up with highly effective pumps to evacuate all air, together with coolers to freeze the rest.
Electrostatic probes, mass spectrometers and gasoline analysers can be utilized to evaluate thruster plume traits and divergence. Defend-like beam targets and plume diffusers are deployed to forestall potential harm to hoover chambers from higher-power engines.
Primarily based at ESA’s ESTEC technical centre within the Netherlands, the ISO 9001-certified ESA Propulsion Lab can be geared up to check chilly gasoline thrusters and liquid movement and sloshing in engines, tanks and piping.
The Lab’s goals embrace end-to-end testing of CubeSat propulsion techniques, accelerating growth and testing of latest small electrical and green-chemical propulsion, creating fluid dynamics and propulsion simulation instruments through take a look at validation and rising the competences and coaching of the approaching era of propulsion engineers.
The ESA Propulsion Lab prioritises testing for ESA tasks however can be out there for industrial testing serving ESA Member States firms. Click here for more information.
