Centrifuge and changeable weir inserts therefor

What is claimed: 1. A centrifuge, comprising: a flange closing off one axial end of a separation chamber; a plurality of apertures that traverse axially through the flange at a radial distance from a flange axis, wherein at least one aperture is in fluid communication with a first outlet passage; and a plurality of weir inserts removably disposed within the plurality of apertures to control a flow of one or more fluids from the separation chamber, wherein at least one weir insert disposed within the at least one aperture in fluid communication with the first outlet passage is configured to perform at least one of 1) both prevent and allow fluid communication between the separation chamber and the first outlet passage and 2) change the centrifuge operation from two-phase to three-phase; and wherein the at least one changeable weir insert comprises: a frame comprising: an outer portion; an inner portion located adjacent to the separation chamber and having a perimeter defined by an exterior wall having a height defined by a first end of the exterior wall located adjacent to the separation chamber and a second opposite end of the exterior wall located adjacent to the outer portion; a first fluid passage fluidly connecting the inner portion and the outer portion and in fluid communication with the separation chamber when the at least one weir insert is configured to allow fluid communication between the separation chamber and the first outlet passage such that the first fluid passage of the frame of the at least one changeable weir insert fluidly connects the separation chamber and the first outlet passage; and a second fluid passage fluidly connected and transverse to the first fluid passage, wherein the second fluid passage extends through the perimeter of the inner portion defined by the exterior wall of the inner portion and along the height of the exterior wall between the first and second ends of the exterior wall. 2. The centrifuge of claim 1 , wherein the first outlet passage extends radially from the at least one aperture to an outer periphery of the flange. 3. The centrifuge of claim 1 , wherein the at least one changeable weir insert further comprises: an inner weir disposed on the inner portion for control of a fluid flow from the separation chamber into the first fluid passage; and an outer weir disposed on the outer portion for control of a fluid flow from the first fluid passage through at least one of the outer portion and the second fluid passage. 4. The centrifuge of claim 3 , wherein the frame is cylindrical. 5. The centrifuge of claim 3 , wherein a rotation of the at least one changeable weir insert prevents fluid communication between the separation chamber and the first outlet passage. 6. The centrifuge of claim 3 , wherein the outer weir comprises at least one of a blind disk and a weir disk. 7. The centrifuge of claim 3 , wherein the inner weir is removably disposed on the inner portion. 8. The centrifuge of claim 3 , wherein the outer weir is removably disposed on the outer portion. 9. The centrifuge of claim 3 , wherein the inner weir comprises at least one of a blind disk and a weir disk. 10. A centrifuge, comprising: a flange closing off one axial end of a separation chamber; a plurality of apertures that traverse axially through the flange at a radial distance from a flange axis, wherein at least one aperture is in fluid communication with a first outlet passage; and a plurality of weir inserts removably disposed within the plurality of apertures to control a flow of one or more fluids from the separation chamber, wherein, when in a first position, a weir insert disposed within the at least one aperture in fluid communication with the first outlet passage provides for fluid communication between the separation chamber and the first outlet passage; wherein, when in a second position, the weir insert disposed within the at least one aperture in fluid communication with the first outlet passage blocks fluid communication between the separation chamber and the first outlet passage, wherein the weir insert disposed within the at least one aperture in fluid communication with the first outlet passage, in the first position or the second position, is changeable to allow the centrifuge to operate in two-phase or three-phase, wherein the weir insert disposed within the at least one aperture comprises: a frame comprising: an outer portion; and an inner portion comprising a first fluid passage, fluidly connecting the inner portion and the outer portion, and a second fluid passage fluidly connected and transverse to the first fluid passage, and wherein, when the weir insert disposed within the at least one aperture is located in the second position, a wall of the inner portion located opposite with respect to the second fluid passage blocks the fluid communication between the separation chamber and the first outlet passage. 11. The centrifuge of claim 10 , wherein the first outlet passage extends radially from the at least one aperture to an outer periphery of the flange. 12. The centrifuge of claim 10 , wherein the weir insert further comprises: an inner weir disposed on the inner portion for control of a fluid flow from the separation chamber into the first fluid passage; and an outer weir disposed on the outer portion for control of a fluid flow from the first fluid passage through at least one of the outer portion and the second fluid passage. 13. The centrifuge of claim 12 , wherein the frame is cylindrical. 14. The centrifuge of claim 12 , wherein the outer weir comprises at least one of a blind disk and a weir disk. 15. The centrifuge of claim 12 , wherein the inner weir comprises at least one of a blind disk and a weir disk. 16. The centrifuge of claim 12 , wherein the inner weir is removably disposed on the inner portion. 17. The centrifuge of claim 12 , wherein the outer weir is removably disposed on the outer portion. 18. A method for converting a centrifuge between two-phase and three-phase operations, wherein the centrifuge comprises: a flange closing off one axial end of a separation chamber; a plurality of apertures that traverse axially through the flange at a radial distance from a flange axis, wherein at least one aperture is in fluid communication with a first outlet passage; a plurality of weir inserts removably disposed within the plurality of apertures to control a flow of one or more fluids from the separation chamber; and at least one weir insert disposed within the at least one aperture in fluid communication with the first outlet passage, wherein the at least one weir insert comprises: a frame comprising: an outer portion; an inner portion located proximate with respect to the separation chamber; and a first fluid passage fluidly connecting the inner portion and the outer portion and fluidly connectible to at least one selected from the separation chamber and the first outlet passage, the method comprising: changing the at least one weir insert disposed within the at least one aperture in fluid communication with the first outlet passage to both prevent and allow fluid communication between the separation chamber and the first outlet passage, wherein, when the at least one weir is changed to allow the fluid communication between the separation chamber and the first outlet passage, the first fluid passage of the frame of the at least one weir insert provides the fluid communication between the separation chamber and the first outlet passage. 19. 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