Pressure exchangers with fouling and particle handling capabilities

What is claimed is: 1 . A system comprising: a pressure exchanger comprising: a rotor configured to exchange pressure between a first fluid and a second fluid; a housing disposed around the rotor; one or more flushing inlets coupled to the housing; and one or more flushing outlets coupled to the housing; and one or more first valves coupled to the one or more flushing outlets, wherein the one or more first valves in an open position are associated with a flushing operation, and wherein the one or more first valves in a closed position are associated with a lubrication operation. 2 . The system of claim 1 further comprising a lubrication outlet and a second valve coupled to the lubrication outlet, wherein: the one or more first valves and the second valve in the closed position are associated with an external lubrication operation; the one or more first valves in the closed position and the second valve in the open position are associated with an internal lubrication operation; and the one or more first valves in the open position and the second valve in the closed position are associated with the flushing operation. 3 . The system of claim 2 , wherein the lubrication outlet is fluidly coupled to HPOUT port of the pressure exchanger. 4 . The system of claim 2 further comprising a third valve associated with at least one of the one or more flushing inlets, wherein: the one or more first valves in the closed position, the second valve in the open position, and the third valve in the closed position are associated with lubrication fluid entering through a first flushing inlet of the one or more flushing inlets and exiting through a second flushing inlet of the one or more flushing inlets to a drainage line. 5 . The system of claim 1 , wherein the one or more flushing inlets are fluidly coupled with radial bearing gap between the rotor and a sleeve disposed around the rotor. 6 . The system of claim 1 , wherein the one or more flushing outlets are fluidly coupled with circumferential grooves between the rotor and end covers disposed at distal ends of the rotor. 7 . The system of claim 1 , wherein at least one of the one or more flushing inlets or the one or more flushing outlets are associated with flushing one or more of: radial bearing gap between the rotor and a sleeve of the pressure exchanger; circumferential grooves between the rotor and end covers disposed at distal ends of the rotor; axial bearing gap disposed between the rotor and the end covers; sleeve outside diameter disposed between the sleeve and the housing; or tension rod disposed in the rotor. 8 . The system of claim 1 , wherein: an inner surface of a sleeve of the pressure exchanger forms a collection groove; the sleeve is disposed around the rotor; the rotor forms a channel between a duct and an outside surface of the rotor; and particles are to be collected in the collection groove and flushed out through the duct responsive to the channel aligning with the collection groove. 9 . The system of claim 1 , wherein: a sleeve is disposed around the rotor; an outer surface of the rotor forms a collection groove; and the sleeve forms a passage that connects the collection groove with an outlet of the pressure exchanger responsive to the collection groove aligning with the passage. 10 . The system of claim 1 further comprising an end cap disposed at a distal end of the pressure exchanger and a bearing fluid filter disposed in the end cap, wherein the pressure exchanger is to direct a portion of fluid exiting the pressure exchanger through the bearing fluid filter to bearings of the pressure exchanger. 11 . The system of claim 1 further comprising a coating on one or more of: end-cover circumferential groove; rotor center bore; rotor duct; sleeve outer surface; rotor outer surface; or rotor axial surface. 12 . The system of claim 11 , wherein the coating is one or more of a hydrophobic coating, anti-adhesion coating, oleophobic coating, or silver nano particle coating. 13 . A pressure exchanger comprising: a rotor configured to exchange pressure between a first fluid and a second fluid; a housing disposed around the rotor; one or more flushing inlets coupled to the housing and associated with radial bearing gap of the pressure exchanger; and flushing outlets coupled to the housing and associated with circumferential grooves of the pressure exchanger, wherein one or more first valves are coupled to the flushing outlets, wherein the one or more first valves in an open position are associated with a flushing operation, and wherein the one or more first valves in a closed position are associated with a lubrication operation. 14 . The pressure exchanger of claim 13 further comprising a lubrication outlet and a second valve coupled to the lubrication outlet, wherein: the one or more first valves and the second valve in the closed position are associated with an external lubrication operation; the one or more first valves in the closed position and the second valve in the open position are associated with an internal lubrication operation; and the one or more first valves in the open position and the second valve in the closed position are associated with the flushing operation. 15 . The pressure exchanger of claim 13 , wherein: a sleeve of the pressure exchanger is disposed around the rotor; an inner surface of the sleeve forms a collection groove; the rotor forms a channel between a duct and an outside surface of the rotor; and particles are to be collected in the collection groove and flushed out through the duct responsive to the channel aligning with the collection groove. 16 . The pressure exchanger of claim 13 , wherein: a sleeve of the pressure exchanger is disposed around the rotor; an outer surface of the rotor forms a collection groove; and the sleeve forms a passage that connects the collection groove with an outlet of the pressure exchanger responsive to the collection groove aligning with the passage. 17 . The pressure exchanger of claim 13 further comprising an end cap disposed at a distal end of the pressure exchanger and a bearing fluid filter disposed in the end cap, wherein the pressure exchanger is to direct a portion of fluid exiting the pressure exchanger through the bearing fluid filter to bearings of the pressure exchanger. 18 . A method comprising: causing one or more first valves to be actuated to an open position, the one or more first valves being coupled to flushing outlets of a pressure exchanger, wherein the flushing outlets are coupled to housing of the pressure exchanger and are associated with circumferential grooves of the pressure exchanger; and causing a second valve to be actuated to a closed position, the second valve being associated with a lubrication outlet, wherein the one or more first valves in the open position and the second valve in the closed position are associated with a flushing operation of the pressure exchanger. 19 . The method of claim 18 further comprising causing cleaning-in-place fluid flow via one or more flushing inlets coupled to the housing and associated with radial bearing gap of the pressure exchanger to cause fluid flow through the radial bearing gap to the circumferential grooves and out via the flushing outlets. 20 . The method of claim 18 further comprising causing the one or more first valves to be actuated to the closed position and the second valve to be actuated to the open posi