Intermixing feedwater sparger nozzles and methods for using the same in nuclear reactors

What is claimed is: 1. A feedwater nozzle useable in a nuclear reactor, the nozzle comprising: a plurality of flow conduits originating at distinct coolant sources, wherein at least one of the coolant sources is feedwater for the nuclear reactor; a diffuser combining the plurality of flow conduits in the diffuser; and a bypassable filter system attached to the diffuser. 2. The nozzle of claim 1 , wherein at least one of the flow conduits connects to a coolant source remote from the diffuser, and wherein at least one of the flow conduits connects to a coolant source surrounding the diffuser. 3. The nozzle of claim 1 , wherein the plurality of flow conduits include, an inner central conduit originating at a first coolant source, a top flow conduit originating at a second coolant source, an outer central conduit surrounding the inner central conduit and originating at the first coolant source, and an annular opening in the diffuser originating at the second coolant source. 4. The nozzle of claim 3 , wherein the outer central conduit includes at least one swirl vane configured to swirl coolant flowing through the outer central conduit. 5. The nozzle of claim 3 , wherein the inner central conduit opens into a pre-diffuser at its terminal, and wherein the top flow conduit terminates in the pre-diffuser. 6. The nozzle of claim 3 , wherein the inner central conduit, the top flow conduit, the outer central conduit, and the annular opening are concentric with each other at a terminal in the diffuser. 7. The nozzle of claim 1 , wherein the bypassable filter system includes at least one of a momentum filter extending across an entire opening of the diffuser and a centrifugal filter lining a perimeter of the diffuser. 8. The nozzle of claim 7 , wherein the centrifugal filter includes magnetic material lining the perimeter of the diffuser, and wherein the diffuser includes at least one swirl vane configured to swirl coolant passing through the diffuser so as to drive debris toward the magnetic material. 9. The nozzle of claim 7 , wherein the momentum filter includes flow paths with debris traps in the flow paths at points of direction change in the flow paths. 10. The nozzle of claim 7 , wherein the bypassable filter system is continuous with the diffuser such that coolant must pass through the bypassable filter system until a threshold pressure is reached, and wherein a new flow path around the bypassable filter system is configured to open at the threshold pressure. 11. The nozzle of claim 1 , wherein the plurality of flow conduits are additively manufactured into the nozzle. 12. A sparger assembly for use in a nuclear reactor, the assembly comprising: a feedwater inlet; and a plurality of sparger nozzles configured to receive feedwater, wherein each of the plurality of sparger nozzles includes, a plurality of flow conduits originating at distinct coolant sources, wherein at least one of the coolant sources is the feedwater, a diffuser combining the plurality of flow conduits in the diffuser, and a bypassable filter system attached to the diffuser. 13. The sparger assembly of claim 12 , wherein the distinct coolant sources include the feedwater inlet and the downcomer annulus. 14. The sparger assembly of claim 12 wherein the plurality of flow conduits include, an inner central conduit originating at a first coolant source, a top flow conduit originating at a second coolant source, an outer central conduit surrounding the inner central conduit and originating at the first coolant source, and an annular opening in the diffuser originating at the second coolant source. 15. The sparger assembly of claim 12 , wherein the bypassable filter system includes at least one of a momentum filter extending across an entire opening of the diffuser and a centrifugal filter lining a perimeter of the diffuser. 16. The sparger assembly of claim 15 , wherein the centrifugal filter includes magnetic material lining the perimeter of the diffuser, and wherein the diffuser includes at least one swirl vane configured to swirl coolant passing through the diffuser so as to drive debris toward the magnetic material. 17. The sparger assembly of claim 15 , wherein the momentum filter includes flow paths with debris traps in the flow paths at points of direction change in the flow paths. 18. The sparger assembly of claim 15 , wherein the bypassable filter system is continuous with the diffuser such that coolant must pass through the bypassable filter system until a threshold pressure is reached, and wherein a new flow path around the bypassable filter system is configured to open at the threshold pressure.