Water treatment system

The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows: 1. An ultraviolet (UV) reactor for treating water, the UV reactor comprising: a water inlet operable to receive water; a water outlet for discharging water from the UV reactor; a water treatment chamber having an interior side surface defined between first and second end surfaces, the water treatment chamber having a longitudinal axis extending from the first end surface to the second end surface, the water treatment chamber having a chamber inlet in fluid communication with the water inlet to receive water to be decontaminated, the water treatment chamber having a chamber outlet in fluid communication with the water outlet; a laminar flow element disposed within the water treatment chamber to define the first end surface, the laminar flow element operable to condition water downstream of the laminar flow element to flow in a substantially laminar manner; the laminar flow element including a plurality of flow paths, a first flow path of the plurality of flow paths being larger than a second flow path of the plurality of flow paths and closer to the interior side surface of the water treatment chamber than the second flow path; and a flow director in fluid communication with the water inlet and upstream of the plurality of flow paths of the laminar flow element, the flow director being directly downstream of the water inlet and operable to redirect water laterally relative to the longitudinal axis of the water treatment chamber. 2. The UV reactor of claim 1 wherein: the laminar flow element is a plate disposed with a perimeter of the plate in proximity to the interior side surface of the water treatment chamber; the plate intersects the longitudinal axis of the water treatment chamber; the first flow path is farther from the longitudinal axis than the second flow path; and the plate includes a keepout region that intersects the longitudinal axis and in which the plurality of flow paths are absent. 3. The UV reactor of claim 2 wherein the flow director is upstream of the plate, wherein the longitudinal axis intersects the flow director, and wherein the flow director is positioned to direct water away from the keepout region. 4. The UV reactor of claim 3 wherein the flow director is operable to direct water radially relative to the longitudinal axis. 5. The UV reactor of claim 2 wherein the plurality of the flow paths are arranged in first and second concentric paths, wherein the first concentric path includes a first plurality of the flow paths, wherein the second concentric path includes a second plurality of the flow paths, wherein the first plurality of flow paths is evenly spaced along the first concentric path about the longitudinal axis, and wherein the second plurality of flow paths is evenly spaced along the second concentric path about the longitudinal axis. 6. The UV reactor of claim 1 wherein the plurality of flow paths define the chamber inlet, wherein the laminar flow element is operable as a flow restrictor to reduce a flow rate of water through the water treatment chamber. 7. The UV reactor of claim 3 wherein the flow director includes a deflector operable to change a direction of a flow of water and to generate turbulence in water. 8. The UV reactor of claim 7 wherein the flow director includes a plurality of vents arranged annularly with respect to the longitudinal axis and in fluid communication with the deflector. 9. A flow restrictor for an ultraviolet (UV) reactor operable to treat water, the UV reactor including a water treatment chamber with a longitudinal axis extending from a first end to a second end, the water treatment chamber including a chamber inlet in fluid communication with a water inlet and a chamber outlet in fluid communication with a water outlet, the flow restrictor comprising: a plate having a perimeter edge and a central axis, the plate including a downstream side and an upstream side relative to a flow direction of water; the plate including a plurality of openings that define a plurality of flow paths for water to pass through the plate, a first opening of the plurality of openings being farther from the central axis than a second opening of the plurality of openings, the first opening being larger than the second opening; and a flow director provided in a flow path of water received by the water inlet and being directly downstream of the water inlet, the flow director in fluid communication with the plurality of openings of the plate, the flow director being operable to direct water laterally relative to the central axis of the plate. 10. The flow restrictor of claim 9 wherein the plate is operable to condition water downstream of the plate to flow in a substantially laminar manner. 11. The flow restrictor of claim 9 wherein the flow director is upstream of the plurality of openings of the plate. 12. The flow restrictor of claim 9 wherein the flow director intersects the central axis of the plate. 13. The flow restrictor of claim 12 wherein the flow director is operable to direct water radially relative to the central axis of the plate. 14. The flow restrictor of claim 9 wherein the plurality of the openings are arranged in first and second concentric paths, wherein the first concentric path includes a first plurality of openings, wherein the second concentric path includes a second plurality of openings, wherein the first plurality of openings is evenly spaced along the first concentric path about the central axis, and wherein the second plurality of openings is evenly spaced along the second concentric path about the central axis. 15. The flow restrictor of claim 9 wherein the plurality of openings define a chamber inlet of the water treatment chamber. 16. The flow restrictor of claim 9 wherein the plate is operable as a flow restrictor to reduce a flow rate of water through the flow restrictor. 17. The flow restrictor of claim 9 wherein a perimeter of the plate includes a flange that defines the perimeter edge of the plate. 18. The flow restrictor of claim 9 wherein the plurality of openings are absent from the plate in a keep out region, and wherein the keep out region intersects the central axis of the plate. 19. The flow restrictor of claim 18 wherein the flow director is positioned to direct water away from the keep out region. 20. The flow restrictor of claim 9 wherein the flow director includes a deflector operable to change a direction of a flow of water and to generate turbulence in water.