Space Propulsion Systems: Types and Technologies

Space Propulsion Systems

In-space propulsion systems are in high demand because they allow small satellites to achieve attitude and orbit control, maneuver and ensure end-of-life deorbiting. Various types of space propulsion systems are currently available and it is important to consider which option is more suitable for a specific mission. Not only do satellite thrusters introduce a spectrum of new possibilities and capabilities to the space mission, but they also help manage space traffic and prevent the increase of debris.

Space propulsion systems may be broadly categorized into chemical, electric, and cold-gas systems. Selecting the most fitting thruster is a vital step for any space mission that requires in-space maneuverability and control.

Chemical Space Propulsion Systems

In thrusters that utilize chemical propellant a chemical reaction occurs to create gas, which expands and is released to generate thrust. Different chemicals are usually used as propellant, including hydrazine, ammonium dinitramide (ADN) and AF-M315E to name a few. Some systems are monopropellant, meaning that they operate with a single chemical, and others are bi-propellant, using a mixture of two.

Despite their wide usage and reliability, chemical space propulsion systems have certain drawbacks that can limit their effectiveness. Namely, many chemical propellants are toxic and hazardous to the spacecraft and the environment. Also, these systems may be expensive, and complicated in terms of installation and handling of toxic materials.

Electric Space Propulsion Systems

In this type of space propulsion system electric or magnetic force is utilized to expel a propellant. As a result, a propulsive force in the opposite direction is generated. They generally offer a higher specific impulse compared to the chemical ones. Thus, less propellant is required and higher mass efficiency is provided.

Electric space propulsion systems require a substantial power source, which leads to a more complicated design that includes processing and control units. Overall, this increases the thruster weight.

Cold-gas Space Propulsion Systems

Cold-gas space propulsion systems are widely used and their operating principle is based on expanding an inert, pressurised gas to generate thrust. This type of system is relatively inexpensive and provides high reliability. Their main disadvantage is the limited total impulse capability.

Water-based Space Propulsion Systems

Water-based space propulsion systems vary depending on the technology used to generate thrust. They are safe, affordable, and environmentally friendly. The main propellant is water, which is non-toxic, stable, and easy to handle.

At SteamJet Space we manufacture water-based compact electrothermal propulsion systems for micro and nanosatellites. Their operating principle is based on the fuel that is heated electrically into superheated steam and then ejected through a supersonic nozzle. The high temperature reached by the steam allows to achieve a high Specific Impulse.

Space Propulsion System - Steam Tunacan Thruster

Steam Tunacan Thruster is optimal for CubeSats taking no space inside the satellite and needs less than 20W to be operated.

Space Propulsion System - Steam Thruster One

Steam Thruster One is optimal for large CubeSats and Small Satellites having a flexible customizable design and also needing less than 20W.

SteamJet thrusters are safe because there are no toxic or flammable substances. They provide performance similar to chemical propulsion. On top of that, they require low power consumption, focused on the Small Satellite power restrictions.

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.

Space Propulsion Systems: Rethinking Innovation

Space Propulsion System, Steam Thruster One

Innovation is not only about creating new ideas and technologies, but about rethinking and reimagining the current ones. Today we are challenging traditional approaches to space propulsion in order to improve their relevance and usability.

Breakthrough Technology

Dependability, accuracy, and effectiveness are the three essential principles that underpin any revolutionary technology. They guarantee that the most daring designs can be implemented and have a meaningful impact in reality. At SteamJet, we engineer solutions that perform exceptionally well in real-life scenarios. Our space propulsion systems are created to be effective, long-lasting, and improve thrust efficiency.

Water Propulsion Is the Key to Sustainability

We harness the power of steam to transform the space propulsion industry. Our steam generation technology presents an eco-friendly, secure, and sustainable solution for navigating CubeSats and Small Satellites in space. It offers a clean substitute for traditional space propulsion systems, achieving an ideal balance of outstanding performance and environmental accountability.

Low-pressure water as a propellant minimizes the impact on space, simplifies operation and provides safety. On top of that, our thrusters are easily integrated into any satellite. SteamJet thrusters represent a significant breakthrough in CubeSat technology and provide the reliability needed for a range of space missions.

Moving Forward

As the space sector advances, our methods for space propulsion also progress. We reevaluate existing technologies to open up new possibilities for space missions. We believe that the future is not about moving faster, but about working smarter.

Space Propulsion System, Steam Thruster OneFor us, innovation isn’t just a concept. We believe that genuine innovation arises from addressing real-world challenges. Our commitment to innovative and provide progressive solutions drives us to continually expand the boundaries of space exploration and aid in the advancement of the industry.

Our product lineup features Steam Thruster One, a flight-qualified space propulsion system that is intended for CubeSats and Small Satellites, along with Steam Tunacan Thruster, which is specifically created for CubeSats.

SteamJet engineered reliable and efficient space thrusters with optimal performance. Their simple design allows for customization to meet various mission requirements and does not cause any RF or magnetic interference.

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.