Technology based on multi-disciplinary innovation

Innovation is in our DNA.

Celeroton TurboCell’s internal know-how spans across a broad range of technologies including gas bearings, aerodynamics, electric motos, thermal and structural design, power electronics and software.

Our unique combination of know-how and system expertise allows us to efficiently bring innovation into products in shortest time to market. This allows us to provide optimized systems out of one hand and flexible customization possibilities.

System expertise

Combination of interdisciplinary technologies into optimized turbo compressor system. This guarantees a system out of one hand with matched components, in particular inverter and compressor.

Gas bearing

Oil and maintenance-free operation at highest speeds thanks to a rotor floating on a air film generated by the rotation of the shaft. Resistant to shocks and vibrations.

Aerodynamics

Transfer of mechanical shaft power to the fluid with radial turbo compressor technology. No pressure fluctuations and a constant mass flow with maximum efficiency.

Electric motor

Permanent magnet synchronous machine technology, providing the required shaft power with minimal copper, iron and rotor losses. Designed for mechanical and rotor dynamic integration with the ultra-high-speed rotor-bearing system. Optimized for series production.

Rotor dynamics

Rotor dynamic design and balancing procedures. Theoretical and practical innovation, know-how and experience in high-speed operation combined at its best.

Thermal design

The more compact the system, the higher the losses per volume and the bigger the challenge for thermal design and cooling.

Structural mechanics

Reduction of mechanical stresses with optimized geometries and materials. Consideration of manufacturing tolerances and temperature range.

Power electronics

High power density and low losses in converters and motors thanks to a system design and the right choice of topology and modulation methods.

Control systems and software

Communication with the user, control of power electronics, motor and compressor – and protection of these components through monitoring and diagnostics.

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