GB687365A - Improvements in shock wave compressors, especially for use in connection with continuous flow engines for aircraft - Google Patents

Abstract

687,365. Axial-flow and helico-centrifugal compressors. OFFICE NATIONAL D'ETUDES ET DE RECHERCHES AERONAUTIQUES (O.N.E.R.A.) June 1, 1950 [June 2, 1949], No. 13760/50. Class 110(i) A compressor comprises at least one bladed element into which the gas enters at supersonic relative velocity, each of the passages between the blades being initially convergent and then divergent, a series of shock waves occurring in the convergent part, the last shock wave being normal to the direction of flow and located at or near the throat of the passage and the first shock wave being oblique and starting from a point of discontinuity in the curvature of the suction side wall of the passage and ending at or near the leading edge of the pressure side wall. Each rotor blade 2 is slotted at 2a, the rear portion having a sharper curvature than the front portion and having its leading edge partly covered by the trailing edge of the front portion. A discontinuity of curvature at a point b of each diffuser blade 1 sets up an oblique shock wave O 1 which ends at the leading edge a of the adjacent blade and is followed by one or more oblique shock waves O 2 and a normal shock wave Op. The flow is supersonic in the convergent part of the diffuser passage ending at the wave Op and subsonic in the subsequent divergent part. The rotor may be of helico-centrifugal form. The sets of blades 1 and 2 may be rotated in opposite directions, as by coupling to the wheels of a contra-rotating gas turbine. Stabilization of a shock wave at a discontinuity of the diffuser blade profile may be effected by sucking the boundary layer through a slot at the discontinuity, the slot being connected to a manifold in communication with a suction fan. Alternatively, the slot may extend through to the opposite side of the blade so that the difference of pressure between the two sides causes air to blow upon the boundary layer at the meeting point of at least two shock waves. In this case, the blade may be formed by two separate elements. Specification 687,338 is referred to.