What outcome is desired from the interaction between rotors and stators in an axial compressor?

In an axial compressor, the interaction between rotors and stators is crucial for the efficient operation of the system. The desired outcome from this interaction is the conversion of velocity to pressure. As air passes through the rotating blades of the rotor, it gains kinetic energy and increases in velocity. When this high-velocity air reaches the stator blades, the shape of the stators is designed to redirect and slow down the flow, facilitating the conversion of this kinetic energy into static pressure.

This pressure increase is essential for the compressor's function, as it helps in providing the necessary air pressure for combustion in engines or for industrial processes. The successful conversion of velocity to pressure ensures that the compressor delivers the required airflow while maintaining efficiency. While other aspects such as energy consumption and airflow are important, the primary focus in this context is specifically on the transformation of velocity into pressure, highlighting the fundamental operation principle of an axial compressor.