In-space Computing

Revolutionizing In-Space Computing Services with Advanced

Satellite Stabilization
Its Hemels is pioneering a revolutionary approach to in-space computing services through the development of advanced satellite stabilization concepts. Unlike traditional artificial satellites that revolve around the Earth in fixed orbits, our innovative concept allows satellites to maintain a geostationary position at any height and any orbital location, not just the equator. This flexibility is achieved through our cutting-edge propulsion systems, which utilize closed-cycle propellant means or operate in a propellantless mode.

The Internal Thruster Engine and Its Role
At the heart of this innovation is the Internal Thruster Engine, a key component of our propulsion technology. This engine series is designed to operate efficiently in both closed-cycle propellant and propellantless modes, eliminating exhaust emissions and ensuring environmental sustainability. The high thrust-to-weight ratio and advanced maneuverability controls of these engines make them versatile for a wide range of missions, from launch to in-space operations.

Versatility and Safety
The versatility of our propulsion systems ensures that the same engine can be used across different mission profiles. This integration simplifies mission planning and execution, reducing costs and increasing reliability. The high thrust and precise controls of our engines provide a very safe launch system, effectively merging launch and in-space transport capabilities. This means the same controls used for launch can seamlessly transition to in-space transport, enhancing mission efficiency and safety.

Sustainable and Efficient
Our propulsion systems are designed to use minimal electric power while providing significant thrust, making them ideal for long-term station-keeping. The availability of solar energy for refuelling further enhances the sustainability and efficiency of these systems. This approach allows our satellites to shift their orbital paths, increasing or reducing orbital speed as needed, thereby offering unparalleled manoeuvrability and control.

Future Implications
The introduction of our satellite stabilization concept has significant implications for the future of space exploration and utilization. By enabling satellites to maintain geostationary positions at any orbital location, we can enhance the efficiency and effectiveness of various space missions, including communication, observation, and scientific research. This capability also opens up new possibilities for space activities such as space mining and in-space manufacturing, which require precise and stable positioning.

Conclusion
Its Hemels is committed to pushing the boundaries of aerospace technology through innovative propulsion systems and satellite stabilization concepts. Our approach not only transforms how we explore and utilize space but also improves the efficiency and sustainability of in-space operations. Guided by our faith and a commitment to excellence, we strive to make advanced, safe, and efficient space transport solutions accessible to all.