Stators
Joined: Oct 2000
Posts: 470
Likes: 6
From: Retired to Bisley from the small African nation
I think they are divergent. The rotor adds energy by accelerating the air, the stators slow it again, thus raising the pressure & temperature. Then the next row of rotor blades can re-accelerate the air, adding energy without getting the velocity up to untenable values. And so on through as many stages as the designer requires to achieve the compression he needs.
Sven
Sven
Guest
Posts: n/a
Most compressors are designed around 0.5 Degree of reaction ratio, meaning half of the static enthalpy rise (and thus pressure) occured in the rotor and half at the stator. The stages can be esigned with 0 degree of reaction, meaning no pressure rise occurs in the rotor, (rotor blades are thus of an "Impulse" type). They can alternately be designed with a factor of 1, meaning all pressure rises occur in the rotor. thus the stator is of the "impulse" type.
In reality, the degree of reaction varies along the length of the blade, ie the level of convergence/divergence of the stator varies. This is in order to take into account of supersonic flow patterns (remember, supersonic flow accelerates in a diverging passageway). hope that helps!
In reality, the degree of reaction varies along the length of the blade, ie the level of convergence/divergence of the stator varies. This is in order to take into account of supersonic flow patterns (remember, supersonic flow accelerates in a diverging passageway). hope that helps!
