초록 ▼

A pressure reducing apparatus and a method of operating a pressure reducing apparatus are provided. The apparatus is operable to reduce the pressure and flow rate of oil being discharged from a well head to downstream processing equipment. The device has central flow channel configured to receive a

A pressure reducing apparatus and a method of operating a pressure reducing apparatus are provided. The apparatus is operable to reduce the pressure and flow rate of oil being discharged from a well head to downstream processing equipment. The device has central flow channel configured to receive a flow of oil and reduce the pressure in the oil. The apparatus has internal components formed of a ceramic material that resists erosion and wear caused by sand and other debris in the oil. In one embodiment of the invention, a ceramic outer sleeve is disposed in the central flow channel and cooperates with a ceramic inner sleeve having an orifice. The ceramic inner sleeve is interchangeable with other ceramic sleeves having different orifices to modify the pressure and flow characteristics of oil as it is discharged to the downstream processing equipment.

대표청구항 ▼

1. A pressure reducing assembly for a high pressure well comprisinga housing formed of a metallic material, said housing having an upstream channel, a downstream channel, and a central channel that interconnect with each other; a first ceramic liner disposed in said upstream channel for lining the i

1. A pressure reducing assembly for a high pressure well comprisinga housing formed of a metallic material, said housing having an upstream channel, a downstream channel, and a central channel that interconnect with each other; a first ceramic liner disposed in said upstream channel for lining the internal surface of said upstream channel; a second ceramic liner disposed in said downstream channel for lining the internal surface of the downstream channel; a third ceramic liner disposed in said central channel for lining the internal surface of the central channel, said third ceramic liner having an orifice formed therein that is positioned and dimensioned to align substantially coaxially with said first ceramic liner for providing a flow path between said upstream channel and said central channel; a ceramic pressure reducing insert disposed in said third ceramic liner, said ceramic pressure reducing insert having an inlet orifice formed therein that is aligned substantially coaxially with the orifice in said third ceramic liner and being fixed against axial and rotational movement relative to said third ceramic liner; and means for providing access to said central channel to facilitate insertion or removal of said third ceramic liner and said ceramic pressure reducing insert. 2. A pressure reducing assembly as set forth in claim 1, wherein said ceramic pressure reducing insert comprises:an outlet orifice; and an internal channel that extends coaxially with said third ceramic liner substantially from said inlet orifice to the outlet orifice, said internal channel having a reduced cross-sectional dimension relative to said third ceramic liner so that fluid flow through said internal channel can be substantially reduced relative to said inlet channel, thereby reducing the fluid pressure. 3. A pressure reducing assembly as set forth in any of claims 1 and 2, wherein said first, second, and third ceramic liners, and said ceramic pressure reducing insert are formed of a technical ceramic material selected from the group consisting of alumina, chromium oxide, titania, zirconia, partially stabilized zirconia, silicon nitride, silicon carbide, and combinations thereof.4. A pressure reducing assembly for a high pressure well as set forth in claim 1 comprisinga coupling configured for connecting said pressure reducing insert with said third ceramic liner in a locked position whereby the ceramic pressure reducing insert is restrained against rotation relative to the third ceramic liner, and means for providing access to said central channel to facilitate insertion or removal of said third ceramic liner and insert. 5. A pressure reducing assembly for a high pressure well comprisinga housing formed of a metallic material, said housing having an upstream channel, a downstream channel, and a central channel that interconnect with each other; a first ceramic liner disposed in said upstream channel for lining the internal surface of said upstream channel; a second ceramic liner disposed in said downstream channel for lining the internal surface of said downstream channel; a third ceramic liner disposed in said central channel for lining the internal surface of the central channel, said third ceramic liner having an orifice formed therein that is positioned and dimensioned to align substantially coaxially with said first ceramic liner for providing a flow path between said upstream channel and said central channel; means for providing access to said central channel to facilitate insertion or removal of said third ceramic liner, and a plurality of ceramic pressure reducing inserts configured for insertion into the flow path in said third ceramic liner, each of said pressure reducing inserts having; an inlet orifice formed therein that is positioned and dimensioned to align substantially coaxially with the orifice in said third ceramic liner; an outlet orifice; and an internal channel that extends substantially from said inlet orifice to the outlet orifice, said internal channel having a reduced cross-sectional dimension relative to said third ceramic liner so that fluid flow through said internal channel can be substantially reduced relative to said inlet channel, thereby reducing the fluid pressure, wherein each insert has an internal channel configuration that is distinct from the other inserts, said inserts being configured for selective placement in the flow path to provide a desired amount of fluid pressure reduction. 6. A pressure reducing assembly for a high pressure well as set forth in claim 5 wherein said first, second, and third ceramic liners, and said ceramic pressure reducing inserts are formed of a technical ceramic material selected from the group consisting of alumina, chromium oxide, titania, zirconia, partially stabilized zirconia, silicon nitride, silicon carbide, and combinations thereof.7. A pressure reducing assembly, comprising:A. a hollow body having an upstream channel, a downstream channel and a central flow channel between the upstream channel and the downstream channel; B. a first liner disposed in the upstream channel; C. a second liner disposed in the downstream channel; D. an outer sleeve disposed in the central flow channel and having an internal bore; and E. a first inner sleeve disposed in the internal bore of the outer sleeve and having a first internal configuration; and F. a locking pin removably coupled with the first inner sleeve and the outer sleeve to connect the first inner sleeve with the outer sleeve, wherein the first inner sleeve is removable from the internal bore of the outer sleeve by removing the locking pin, said first inner sleeve being interchangeable with a second inner sleeve configured for insertion in the internal bore of the outer sleeve, said second inner sleeve having a second internal configuration. 8. The pressure reducing assembly of claim 7, wherein the first liner, second liner, outer sleeve and first inner sleeve are formed of a technical ceramic material.9. The pressure reducing assembly of claim 7, further comprising an end cap releasably connected to the body and configured for removal from the body to provide access to the internal bore of the outer sleeve.10. A method for operating a pressure reducing assembly, comprising the steps of:A. providing a pressure reducing assembly having a hollow body and a central flow channel formed therein; B. placing a wear resistant outer sleeve formed of a ceramic material in the central flow channel; C. inserting a first inner sleeve in the outer sleeve, said first inner sleeve being operable to discharge oil from the pressure reducing assembly at a first pressure and a first flow rate; and D. removing the first inner sleeve from the outer sleeve and replacing the first inner sleeve with a second inner sleeve, said second inner sleeve being operable to discharge oil from the pressure reducing assembly at a second pressure and a second flow rate. 11. A flow control assembly, comprising:A. a hollow body having an upstream channel, a downstream channel, and a central flow channel between the upstream channel and the downstream channel; B. a first liner disposed in the upstream channel; C. a second liner disposed in the downstream channel; D. an outer sleeve disposed in the central flow channel and having an internal bore; E. an inner sleeve disposed in the internal bore of the outer sleeve, and F. a coupling configured for connecting said inner sleeve with said outer sleeve such that the inner sleeve is restrained against rotation relative to the outer sleeve.