Variable geometry turbine

The invention claimed is: 1 . A nozzle ring for a variable geometry turbine, the nozzle ring comprising: an annular wall; an inner flange that is perpendicular to the annular wall, and which extends from a radially inner edge of the annular wall; an outer flange that is perpendicular to the annular wall, and which extends from a radially outer edge of the annular wall; and two protrusions extending from one of the inner or outer flange towards the other one of the inner or outer flange, at least one of the two protrusions extending only partially towards the other one of the inner or outer flange, wherein both of the two protrusions extend either from the inner flange or from the outer flange; wherein the two protrusions define a first gap therebetween; and wherein the annular wall and the two protrusions define a second gap between the annular wall and both of the two protrusions. 2 . The nozzle ring of claim 1 wherein the inner and outer flanges extend further from the annular wall than the two protrusions. 3 . The nozzle ring of claim 1 wherein the two protrusions are integrally formed with the one of the inner and outer flanges from which they extend. 4 . The nozzle ring of claim 1 wherein both of the two protrusions extend only partially towards the other one of the inner or outer flange. 5 . The nozzle ring of claim 1 wherein a radial extent of the at least one of the two protrusions extending only partially towards the other one of the inner or outer flange is between 0.25 and 0.5 times a radial distance between the inner flange and the outer flange. 6 . The nozzle ring of claim 1 wherein the annular wall supports an array of circumferentially spaced inlet vanes each of which extends axially away from a surface of the annular wall opposite from the inner and outer flanges. 7 . The nozzle ring of claim 1 wherein a plurality of axially extending apertures are provided through the annular wall. 8 . The nozzle ring of claim 7 wherein at least some of the axially extending apertures provided through the annular wall are located between the inlet vanes. 9 . The nozzle ring of claim 1 further comprising a second set of two protrusions extending from one of the inner or outer flange towards the other one of the inner or outer flange, at least one of the second set of two protrusions extending only partially towards the other one of the inner or outer flange; wherein the two protrusions of the second set define a third gap therebetween; and wherein the annular wall and the two protrusions of the second set define a fourth gap between the annular wall and both of the two protrusions of the second set. 10 . A variable geometry turbine comprising: a housing; a turbine wheel supported in the housing for rotation about an axis; a nozzle ring according to claim 1 ; a cavity provided in the housing for receipt of the inner and outer flanges of the nozzle ring, the nozzle ring being axially movable relative to the housing to vary the extent to which the inner and outer flanges of the nozzle are received in the cavity; and an inlet passageway extending radially inwards towards the turbine wheel and defined between a face of the annular wall of the nozzle ring and an opposing wall of the housing, such that said axial movement of the nozzle ring relative to the housing varies the axial width of the inlet passageway. 11 . A turbocharger comprising the variable geometry turbine of claim 10 . 12 . A method of manufacturing a nozzle ring for a variable geometry turbine, the method comprising: forming a manufacturing intermediate, the manufacturing intermediate comprising: an annular wall; an inner flange that is perpendicular to the annular wall, and which extends from a radially inner edge of the annular wall to a distal end of the inner flange; an outer flange that is perpendicular to the annular wall, and which extends from a radially outer edge of the annular wall to a distal end of the outer flange; and at two protrusions extending from: one of the inner or outer flange partially towards the other one of the inner or outer flange such that both of the at least two protrusions extend either from the inner flange or from the outer flange; and the annular wall partially towards the distal ends of the inner and outer flanges; and finishing the manufacturing intermediate to form a gap between the annular wall and the at least one protrusion so as to form the nozzle ring. 13 . The method of claim 12 further comprising: finishing the manufacturing intermediate to at least partially form a gap between two protrusions that extend from one of the inner or outer flange partially towards the other one of the inner or outer flange.