Today, the space sector is advancing rapidly. The number of launches and satellites in orbit is increasing. This creates fresh opportunities for commerce, research, and environmental monitoring. However, this growth also brings sustainability challenges, both on our planet and in outer space. One of the issues is a growing amount of orbital debris being generated, which highlights the importance of CubeSat propulsion in mitigating this challenge.
Orbital Debris Challenge
Space exploration is becoming more attainable for entrepreneurs and innovators. With the expansion of satellite constellations in both quantity and scale, numerous new items are being introduced into low Earth orbit—not only satellites but also space debris. This debris typically includes non-functional satellites and abandoned rocket stages, raising worries about orbital overcrowding and long-term viability.
The debris poses a threat of collision events and may ultimately hinder or render it unfeasible for satellites to function properly in the low Earth orbits utilized for scientific purposes and communications.
Commitment to Sustainable CubeSat Propulsion
At SteamJet, we believe the future depends on making responsible choices and exploring the stars without leaving unnecessary marks. Our commitment is to adopt sustainable and eco-friendly propellants to reduce the effect on space environments.
SteamJet propulsion systems function solely in the space environment and pose no threat to the Earth’s atmosphere. They don’t contain hazardous or flammable materials that require special care when being installed on a satellite. Our engines activate solely in space, and unlike various other satellite types, they can be deployed from a spacecraft or space station – their launch and functioning pose no risk to the crew.
CubeSat propulsion systems powered with water transform the modern approach to satellite mobility and sustainability. They offer safe, cost-efficient, and environmentally responsible solutions to enable precise orbit adjustments, maintain satellite positioning, support constellation coordination, and ensure end-of-life de-orbiting.
More technical information regarding the thrusters is available on our website. This includes specifications, performance data, and recent test results. Steam TunaCan Thruster and Steam Thruster One. Discover how SteamJet innovations are shaping the future of sustainable satellite propulsion.