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A severe service condition pressure reduction valve that is resistant to damage by debris carried by high-pressure process fluid stream and operates at acceptable noise levels includes a first stage annular member in the form of a tube or sleeve that is closely fitted into the axial annular opening

A severe service condition pressure reduction valve that is resistant to damage by debris carried by high-pressure process fluid stream and operates at acceptable noise levels includes a first stage annular member in the form of a tube or sleeve that is closely fitted into the axial annular opening of a disk stack trim or drag valve, the first stage member having a plurality of radial openings extending through the wall of the tube or sleeve that are aligned with, and correspond in radial and axial or longitudinal spacing to the flow paths in the disk stack valve. The external surface of the first stage member is provided with axially-spaced circumferential raised areas or rings that engage the internal surface of the disk stack annulus to prevent axial flow along the exterior surface of the sleeve.

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1. A pressure-reducing valve assembly for use in a high-pressure fluid piping system, the valve assembly comprising:a first stage annular cylindrical member having a plurality of regularly-spaced radial fluid passages extending to outlets in its exterior wall, the interior surface of the annular mem

1. A pressure-reducing valve assembly for use in a high-pressure fluid piping system, the valve assembly comprising:a first stage annular cylindrical member having a plurality of regularly-spaced radial fluid passages extending to outlets in its exterior wall, the interior surface of the annular member configured to receive a movable plug in sealing relation, and a second stage multiple-path stacked disk drag valve member having a circular opening extending along its axis, a plurality of regularly-spaced, tortuous fluid passages extending generally radially from inlet ports at the axial opening to discharge ports at the exterior surface, the axial opening configured to operably receive the first stage cylindrical member in close-fitting relation, the radial passages of the first stage member being in fluid communication with the fluid passages of the drag valve member, a plurality of radially extending circumferential seals on the exterior wall of the first stage member at positions intermediate the outlets of the plurality of radial fluid passages, whereby fluid flow is maintained in a radial direction between adjacent seals. 2. The valve assembly of claim 1, wherein the circumferential seals are integrally formed in the exterior surface of the first member.3. The valve assembly of claim 1, wherein the first stage member is fabricated from a material selected from the group consisting of series 400 hardened stainless steel, cobalt-based alloys, Inconel alloys and tungsten carbide.4. The valve assembly of claim 1, wherein the first stage member is removable in sliding engagement with the second stage member.5. The valve assembly of claim 4, wherein the first stage and second stage members are engaged in a press fit, a shrink fit or a thermal press fit.6. The valve assembly of claim 1, wherein the wall thickness of the first stage member is from 6 mm to 20 mm.7. The valve assembly of claim 1, wherein the plurality of radial fluid passages in the first stage member are cylindrical and range from 2 mm to 10 mm in diameter.8. The valve assembly of claim 1, wherein the outlets of the plurality of radial fluid passages of the first stage member are offset from the inlet ports of the axial passages of the drag valve, whereby the pressure loss across the valve assembly is further increased.9. The valve assembly of claim 1, wherein the plurality of radial fluid passages in the first stage member are of uniform size and configuration.10. The valve assembly of claim 1, wherein the plurality of radial fluid passages in the first stage member vary in diameter.11. The valve assembly of claim 1, wherein the first stage and second stage members are joined in a press fit, a shrink fit or a thermal press fit.12. A first stage pressure-reducing member for use with a second stage high-pressure annular stacked disk drag valve having a circular axial opening for receiving a flowing fluid through a plurality of regularly-spaced fluid inlet ports, the first stage member comprising:an annular cylindrical tube having a plurality of regularly-spaced radial fluid passages extending through the wall of the tube, the plurality of passages terminating in outlet ports aligned for fluid communication with the inlet ports of the drag valve, the exterior surface of the first stage member configured to contact the axial opening of the drag valve in a fluid-tight sealing relation, and the interior surface of the tube configured to receive a moveable plug in sealing relation; and a plurality of circumferential ring seals extending radially from the exterior surface of the tube, the ring seals being spaced from each other and intermediate the outlets of the plurality of radial fluid passages, the seals providing a fluid-tight fit with the surface of the axial opening of the drag valve. 13. The first stage member of claim 12 depending on the severity that is fabricated from a material selected from the group consisting of series 400 hardened stainless steel, cobalt based alloys, Inconel 625 and Tungsten Carbide.14. The first stage member of claim 12, wherein the ring seals are formed by machining the exterior surface of the tube.15. The first stage member of claim 12, wherein the radial passages are of uniform flow area.16. The first stage member of claim 15, wherein the radial passages are circular in cross-section.17. The first stage member of claim 12, wherein the radial passes have an outwardly tapering configuration.18. The first stage member of claim 12, wherein the radial spacing between adjacent longitudinal arrays of the radial passages is equal.19. The first stage member of claim 12, wherein the radial spacing between adjacent longitudinal arrays of the radial fluid passages varies.20. The first stage member of claim 16, wherein the diameter of the passages is from about 2 mm to 10 mm.21. The pressure reducing member of claim 12, wherein the ring seals extend a distance d from the exterior surface of the tube, d being the mean diameter of the fluid passages in the tube.