Method of manufacturing a fluid pressure reduction device

The invention claimed is: 1. A fluid pressure reduction device for use in a fluid flow control device, the fluid pressure reduction device comprising: a unitary body having an inner wall and an outer wall spaced radially outward of the inner wall; a plurality of first flow paths defined between the inner wall and the outer wall of the body, each of the first flow paths comprising an inlet section, an outlet section, and a curved intermediate section between the inlet and outlet sections, wherein the inlet section of each of the first flow paths is oriented along a respective first inlet axis, and wherein the first inlet axes are arranged along a first plane; and a plurality of second flow paths defined between the inner wall and the outer wall of the body, each of the second flow paths comprising an inlet section, an outlet section, and a curved intermediate section between the inlet and outlet sections, wherein the inlet section of each of the second flow paths is oriented along a respective second inlet axis, and wherein the second inlet axes are arranged along a second plane that is parallel to but spaced from the first plane, wherein each flow path of the plurality of first flow paths shares a common inlet and a common outlet with one adjacent first flow path, wherein each flow path of the plurality of second flow paths shares a common inlet and a common outlet with one adjacent second flow path, wherein the curved intermediate section of each of the first flow paths extends radially outwardly from the respective inlet section along the first plane, wherein the curved intermediate section of each of the first and second flow paths has a semi-circular shape, wherein between the common inlet and the common outlet, each of the first flow paths intersects with another adjacent first flow path two different times, and wherein between the common inlet and the common outlet, each of the second flow paths intersects with another adjacent second flow path two different times. 2. The fluid pressure reduction device of claim 1 , wherein the inlet sections of the first flow paths and the inlet sections of the second flow paths are formed in the inner wall, and wherein the outlet sections of the first flow paths and the outlet sections of the second flow paths are formed in the outer wall. 3. The fluid pressure reduction device of claim 1 , wherein the unitary body comprises a central opening and a cylindrical perimeter surrounding the central opening, the central opening defining a central longitudinal axis of the unitary body, and wherein the first and second inlet axes are perpendicular to the central longitudinal axis. 4. The fluid pressure reduction device of claim 3 , wherein the plurality of second flow paths are rotated about the central longitudinal axis relative to the plurality of first flow paths, such that the plurality of second flow paths are offset from the plurality of first flow paths. 5. The fluid pressure reduction device of claim 1 , wherein for each of the first and second flow paths, the inlet section has a cross-sectional area that is smaller than a cross-sectional area of a respective outlet section associated with the inlet section. 6. The fluid pressure reduction device of claim 1 , wherein the curved intermediate section of each of the first and second flow paths comprises a first portion that is connected to and extends radially outwardly from the respective inlet section, and a second portion that is directly connected to the first portion and extends radially outwardly toward and is connected to the respective outlet section. 7. A fluid pressure reduction device for use in a fluid flow control device, the fluid pressure reduction device comprising: a unitary body comprising a central opening and a cylindrical perimeter surrounding the central opening, the central opening defining a central longitudinal axis, and the cylindrical perimeter having an inner wall and an outer wall spaced radially outward of the inner wall; a plurality of first flow paths defined between the inner wall and the outer wall of the body, each of the first flow paths comprising an inlet section, an outlet section, and a curved intermediate section between the inlet and outlet sections, wherein the inlet section of each of the first flow paths is oriented along a respective first inlet axis that is perpendicular to the central longitudinal axis, and wherein the first inlet axes are arranged along a first plane; and a plurality of second flow paths defined between the inner wall and the outer wall of the body, each of the second flow paths comprising an inlet section, an outlet section, and a curved intermediate section between the inlet and outlet sections, wherein the inlet section of each of the second flow paths is oriented along a respective second inlet axis, and wherein the second inlet axes are arranged along a second plane that is parallel to but spaced from the first plane, wherein each flow path of the plurality of first flow paths shares a common inlet and a common outlet with one adjacent first flow path, wherein each flow path of the plurality of second flow paths shares a common inlet and a common outlet with one adjacent second flow path, wherein the curved intermediate section of each of the first flow paths comprises a first portion that is connected to and extends radially outwardly from the respective inlet section, and a second portion that is directly connected to the first portion and extends radially outwardly toward and is connected to the respective outlet section, wherein the first and second portions of the curved intermediate section of each of the first flow paths extend radially outwardly along the first plane, wherein the curved intermediate section of each of the first and second flow paths has a semi-circular shape, wherein between the common inlet and the common outlet, each of the first flow paths intersects with another adjacent first flow path two different times, and wherein between the common inlet and the common outlet, each of the second flow paths intersects with another adjacent second flow path two different times. 8. The fluid pressure reduction device of claim 7 , wherein the plurality of second flow paths are rotated about the central longitudinal axis relative to the plurality of first flow paths, such that the plurality of second flow paths are offset from the plurality of first flow paths. 9. The fluid pressure reduction device of claim 7 , wherein for each of the first and second flow paths, the inlet section has a cross-sectional area that is smaller than a cross-sectional area of a respective outlet section associated with the inlet section. 10. The fluid pressure reduction device of claim 7 , wherein the curved intermediate section of each of the first flow paths consists of the first portion and the second portion. 11. A method of manufacturing, comprising: creating a unitary fluid pressure reduction device using an additive manufacturing technique, the creating comprising: forming a body having an inner wall and an outer wall spaced radially outward of the inner wall; forming a plurality of first flow paths in the body between the inner wall and the outer wall of the body, each of the first flow paths comprising an inlet section formed in the inner wall and oriented along a respective first inlet axis, an outlet section formed in the outer wall, and a curved intermediate section between the inlet and outlet sections, wherein the first inlet axes are arranged along a first plane; and forming a plurality of second flow paths in the body between the inner wall and the outer wall of the body, each of the second flow paths comprising an inl