The Green SWaP project addresses the growing need for sustainable and autonomous in-space propulsion to support future missions with in-orbit servicing, debris removal, lunar logistics, and deep-space exploration. Current liquid propulsion technologies rely on toxic, costly and Earth-based propellants, the legacy being hydrazine, which conflicts with Europe’s goals for greener space missions.
Inspired by terrestrial photosynthesis, Green SWaP aims to demonstrate the feasibility of producing greener propellants in orbit by converting water into hydrogen (H2) and hydrogen peroxide (H2O2) using solar energy. These propellants will power a bimodal propulsion system composed of a solar-thermal thruster (using H2) for attitude control and a bipropellant thruster (using H2O2/H2) for main maneuvers.
The project’s objective is to validate the key technologies enabling this concept up to TRL 4, including solar-to-fuel conversion modules, propellant concentration and storage subsystems, and the corresponding thruster-demonstrators. A dedicated system-engineering effort ensures integration, verification and a qualification roadmap for future in-orbit use.
By enabling renewable, self-sustained in-space transportation, Green SWaP is contributing to Europe’s strategic autonomy, support ESA’s Clean Space and EU Green Deal goals, and foster eco-responsible innovation in space transportation. The project’s pathway to impact includes laboratory proof-of-concept leading to future in-orbit demonstrations and potential spin-offs in terrestrial solar-to-fuel and clean-energy markets.