Swept outlet noise reducing element

What is claimed is: 1. A noise and fluid pressure reduction device, comprising: a plurality of stacked disks comprising a first disk, a second disk, a third disk, and a fourth disk, each of the first, second, third, and fourth disks comprising; an inner perimeter edge; an outer perimeter edge; a plurality of inlet passages disposed along the inner perimeter edge, the plurality of inlet passages in fluid communication with a first plenum section of an adjacent disk; a second plenum section outwardly offset in a radial direction from the inner perimeter edge such that the second plenum section is in fluid communication with the first plenum section and an aperture of the adjacent disk; a third plenum section offset in a radial direction from the inner perimeter edge such that the third plenum section is in fluid communication with the aperture and an outlet passage of the adjacent disk; and a plurality of outlet passages disposed along the outer perimeter edge, the plurality of outlet passages positionable in fluid communication with a third plenum section of the adjacent disk and including a plurality of first outlet passages having a first width and a plurality of second outlet passages having a second width, greater than the first width, each of the plurality of outlet passages defining a longitudinal axis that is offset by a predetermined angle from a radial axis extending through a corresponding outlet passage; wherein: the second disk is positioned adjacent the first disk and is oriented such that the second disk is rotated 180 degrees about a vertical axis relative to the first disk and the plurality of outlet passages of the second disk are on an opposite side of the noise and fluid pressure reduction device from the plurality of outlet passages of the first disk; the third disk is positioned adjacent the second disk and is oriented such that the third disk is rotated 180 degrees about a first horizontal axis relative to the first disk, the plurality of outlet passage of the third disk are on a same side of the noise and fluid pressure reduction device from the plurality of outlet passages of the first disk, and the longitudinal axes of the plurality of outlet passages of the third disk are offset from the radial axes in a direction opposite that of the plurality of outlet passages of the first disk; and the fourth disk is positioned adjacent the third disk and is oriented such that the fourth disk is rotated 180 degrees about a second horizontal axis, perpendicular to the first horizontal axis, relative to the first disk, the plurality of outlet passage of the fourth disk are on the opposite side of the noise and fluid pressure reduction device from the plurality of outlet passages of the first disk, and the longitudinal axes of the plurality of outlet passage of the third disk are offset from the radial axes in a direction opposite that of the plurality of outlet passages of the second disk. 2. The noise and fluid pressure reduction device of claim 1 , wherein the predetermined angle is 15 degrees. 3. The noise and fluid pressure reduction device of claim 1 , wherein the plurality of outlet passages include a plurality of third outlet passages having a third width, greater than the second width. 4. The noise and fluid pressure reduction device of claim 3 , wherein each disk includes one or more outlet groups, each of the one or more outlet groups comprising at least one first outlet passage, at least one second outlet passage, and at least one third outlet passage. 5. The noise and fluid pressure reduction device of claim 1 , wherein: each of the plurality of first outlet passages and the plurality of second outlet passages are defined by a first lateral edge, a second lateral edge, and a circumferential inner edge; and the first lateral edge and the second lateral edge of each of the plurality of first outlet passages and the plurality of second outlet passages have the same length. 6. The noise and fluid pressure reduction device of claim 5 , wherein the first lateral edge and the second lateral edge of each of the plurality of first outlet passages and the plurality of second outlet passages are parallel to the corresponding longitudinal axis. 7. The noise and fluid pressure reduction device of claim 5 , wherein: the first lateral edge and the second lateral edge of each of the plurality of first outlet passages is separated by a first angular dimension and the first angular dimension is the first width; and the first lateral edge and the second lateral edge of each of the plurality of second outlet passages is separated by a second angular dimension and the second angular dimension is the second width. 8. The noise and fluid pressure reduction device of claim 1 , wherein the plurality of first outlet passages and the plurality of second outlet passages cooperate to shift the noise peak frequencies of fluid exiting the plurality of outlet passages, thereby reducing the overall noise level of fluid exiting the plurality of outlet passages. 9. The noise and fluid pressure reduction device of claim 1 , wherein each of the first, second, third, and fourth disks further comprises: a first plenum section positioned adjacent the inner perimeter edge and outwardly offset in a radial direction from the inner perimeter edge such that the first plenum section is in fluid communication with at least one inlet passage of the adjacent noise attenuating disk; and an aperture outwardly offset in a radial direction from the first plenum section such that the aperture is in fluid communication with a second plenum section of the adjacent noise attenuating disk. 10. The noise and fluid pressure reduction device of claim 9 , wherein fluid entering at least one of the plurality of inlet passages flows through the first plenum section of the adjacent noise attenuating disk, through the second plenum section, through the aperture of the adjacent noise attenuating disk, and through the third plenum section, to exit through the outlet passage of the adjacent noise attenuating disk. 11. The noise and fluid pressure reduction device of claim 9 , wherein fluid entering the inlet passage of the adjacent noise attenuating disk flows through the first plenum section, through the second plenum section of the adjacent noise attenuating disk, through the aperture, and through the third plenum section of the adjacent noise attenuating disk, to exit through at least one of the plurality of outlet passages. 12. The noise and fluid pressure reduction device of claim 9 , wherein each of the first, second, third, and fourth disks further comprises at least one second inlet passage extending from an outer edge of the first plenum section to provide the fluid communication between the first plenum section and the second plenum section of the adjacent noise attenuating disk. 13. The noise and fluid pressure reduction device of claim 9 , wherein: the plurality of inlet passages are positioned in a first disk portion, located on one side of a centerline of the stackable noise attenuating disk; and the plurality of outlet passages are positioned in a second disk portion, located on an opposite side of the centerline. 14. A vent diffuser, comprising: an elongated hollow pipe having a flange at one end of the pipe; an impermeable end plate coupled to the flange; and a plurality of stacked disks disposed between the flange and the end plate, the plurality of stacked disks comprising a first disk, a second disk, a third disk, and a fourth disk, each of the first, second, third, and fourth disks comprising: an inner perimeter edge; an outer perimeter edge;