Desuperheater and spray nozzles therefor

What is claimed: 1. A spray nozzle assembly for a desuperheater, the spray nozzle assembly comprising: a housing having a body and a cap flange secured to the body, the body and the cap flange defining a bore within the housing; a first aperture formed through the body and intersecting the bore; a second aperture formed through the cap flange and intersecting the bore; and a nozzle sleeve disposed within the bore, the nozzle sleeve comprising: a solid, unitary sleeve body; a first fluid passage formed through the sleeve body and in direct fluid communication with the first aperture and with a first exit aperture formed in an end of the sleeve body; and a second fluid passage formed through the sleeve body and in direct fluid communication with the second aperture, with a second exit aperture formed in the end of the sleeve body, and with a third exit aperture formed in the end of the sleeve body; wherein a portion of the second fluid passage surrounds the first fluid passage; and the second and third exit apertures are positioned on opposite sides of the first exit aperture. 2. The spray nozzle assembly of claim 1 , wherein the first fluid passage comprises a first section that extends radially across the sleeve body and a second section that intersects the first section and extends longitudinally along the sleeve body. 3. The spray nozzle assembly of claim 1 , wherein: the end of the sleeve body comprises a planar first surface that extends perpendicular to a longitudinal axis of the nozzle sleeve and a planar second surface that extends from the first surface and at an acute angle to the longitudinal axis of the nozzle sleeve; the second exit aperture is formed through the first surface; and the first and third exit apertures are formed through the second surface. 4. The spray nozzle assembly of claim 1 , wherein: the end of the sleeve body comprises a planar first surface that extends perpendicular to a longitudinal axis of the nozzle sleeve, a planar second surface that extends from the first surface and at an acute angle to the longitudinal axis of the nozzle sleeve, and a planar third surface that extends from the second surface and parallel to the longitudinal axis of the nozzle sleeve; the second exit aperture is formed through the first surface; the first exit aperture is formed through the second surface; and the third exit aperture is formed through the third surface. 5. The spray nozzle assembly of claim 1 , wherein the first, second, and third exit apertures are linearly extending slots. 6. The spray nozzle assembly of claim 1 , wherein the first exit aperture is elliptical and the second and third exit apertures are arcuately extending slots. 7. A desuperheater including the spray nozzle assembly of claim 1 , the desuperheater comprising: a ring body defining an axial flow path; a plurality of the spray nozzle assemblies disposed around the ring body; a water manifold connected to each of the spray nozzle assemblies for providing cooling water to each of the spray nozzle assemblies; and a steam manifold connected to each of the spray nozzle assemblies for providing atomizing steam to each of the spray nozzle assemblies, separately from the cooling water. 8. A spray nozzle assembly for a desuperheater, the spray nozzle assembly comprising: a housing having a body and a cap flange secured to the body, the body and the cap flange defining a bore within the housing; a first aperture formed through the body and intersecting the bore; a second aperture formed through the cap flange and intersecting the bore; and a nozzle sleeve disposed within the bore, the nozzle sleeve comprising: a solid, unitary sleeve body; a first fluid passage formed through the sleeve body and in direct fluid communication with the first aperture; a second fluid passage formed through the sleeve body and in direct fluid communication with the second aperture, a portion of the second fluid passage surrounding the first fluid passage; a cylindrical inner wall formed between the first fluid passage and the portion of the second fluid passage; a cylindrical outer wall surrounding the portion of the second fluid passage; and a plurality of support arms extending between the inner wall and the outer wall along a length of the portion of the second fluid passage. 9. The spray nozzle assembly of claim 8 , wherein the plurality of support arms extend radially from the inner wall to the outer wall. 10. The spray nozzle assembly of claim 8 , wherein the plurality of support arms extend tangentially from the inner wall. 11. The spray nozzle assembly of claim 10 , wherein the plurality of walls are arcuate. 12. The spray nozzle assembly of claim 8 , wherein the first fluid passage comprises a first section that extends radially across the sleeve body and a second section that intersects the first section and extends longitudinally along the sleeve body. 13. The spray nozzle assembly of claim 8 , wherein: the first fluid passage is in fluid communication with a first exit aperture formed in an end of the sleeve body; the second fluid passage is in fluid communication with a second exit aperture formed in the end of the sleeve body and with a third exit aperture formed in the end of the sleeve body; the second and third exit apertures are positioned on opposite sides of the first exit aperture; the end of the sleeve body comprises a planar first surface that extends perpendicular to a longitudinal axis of the nozzle sleeve and a planar second surface that extends from the first surface and at an acute angle to the longitudinal axis of the nozzle sleeve; the second exit aperture is formed through the first surface; and the first and third exit apertures are formed through the second surface. 14. The spray nozzle assembly of claim 8 , wherein: the first fluid passage is in fluid communication with a first exit aperture formed in an end of the sleeve body; the second fluid passage is in fluid communication with a second exit aperture formed in the end of the sleeve body and with a third exit aperture formed in the end of the sleeve body; the second and third exit apertures are positioned on opposite sides of the first exit aperture; the end of the sleeve body comprises a planar first surface that extends perpendicular to a longitudinal axis of the nozzle sleeve, a planar second surface that extends from the first surface and at an acute angle to the longitudinal axis of the nozzle sleeve, and a planar third surface that extends from the second surface and parallel to the longitudinal axis of the nozzle sleeve; the second exit aperture is formed through the first surface; the first exit aperture is formed through the second surface; and the third exit aperture is formed through the third surface. 15. A desuperheater including the spray nozzle assembly of claim 8 , the desuperheater comprising: a ring body defining an axial flow path; a plurality of the spray nozzle assemblies disposed around the ring body; a water manifold connected to each of the spray nozzle assemblies for providing cooling water to each of the spray nozzle assemblies; and a steam manifold connected to each of the spray nozzle assemblies for providing atomizing steam to each of the spray nozzle assemblies, separately from the cooling water.