Dual direction flow restrictor

What is claimed is: 1. A flow restrictor, comprising: a first flowbody defining a first end portion, a second end portion opposite the first end portion and an orifice between the first end portion and the second end portion, wherein the first end portion has a first circular wall defining a plurality of first slots spaced from each other around the first circular wall, wherein the first slots are shaped and disposed on the first circular wall to swirl fluid flowing through the first slots, and wherein the second end portion defines a counterbore having a first diameter; and a second flowbody having a second circular wall defining a plurality of second slots spaced from each around the second circular wall, and having a second diameter proximate the plurality of second slots that is greater than the first diameter of the first flowbody, and the second flowbody is configured to be received within the counterbore of the first flowbody. 2. The flow restrictor of claim 1 , wherein the second flowbody includes a third end portion and a fourth end portion opposite the third end portion, and the plurality of second slots are defined through the third end portion. 3. The flow restrictor of claim 2 , wherein the second diameter is an external diameter of the fourth end portion. 4. The flow restrictor of claim 1 , wherein each first slot of the plurality of first slots has the same orientation relative to a longitudinal axis of the flow restrictor. 5. The flow restrictor of claim 1 , wherein the plurality of first slots and the plurality of second slots each have the same shape and orientation relative to a longitudinal axis of the flow restrictor so that both the first and second slots swirl fluid flowing through the first and second slots, respectively. 6. The flow restrictor of claim 1 , wherein the plurality of first slots are spiral slots that wrap around a longitudinal axis of the flow restrictor at a first angle. 7. The flow restrictor of claim 6 , wherein the plurality of second slots are spiral slots that wrap around the longitudinal axis at a second angle, and the second angle is the same as the first angle. 8. The flow restrictor of claim 6 , wherein each first slot of the plurality of first slots has a first start point and a first end point, and the first start point of each first slot of the plurality of first slots is the same. 9. The flow restrictor of claim 8 , wherein the first end point of each first slot of the plurality of first slots is different. 10. The flow restrictor of claim 8 , wherein the first start point of each first slot of the plurality of first slots is a tip of the first end portion of the first flowbody. 11. The flow restrictor of claim 1 , wherein the counterbore defines a first tapered surface, the second flowbody defines a second tapered surface configured to contact the first tapered surface to couple the second flowbody to the first flowbody in a coupled state. 12. The flow restrictor of claim 11 , wherein in the coupled state, the plurality of second slots are proximate the orifice. 13. The flow restrictor of claim 1 , wherein the plurality of first slots are defined through the first end portion so as to be spaced apart about a circumference of the first end portion. 14. A flow restrictor, comprising: a first flowbody defining a first end portion, a second end portion opposite the first end portion and an orifice between the first end portion and the second end portion, wherein the first end portion has a first circular wall defining a plurality of first slots spaced from each other around the first circular wall, wherein the first slots are shaped and disposed on the first circular wall to swirl fluid flowing through the first slots, and wherein the second end portion defines a counterbore having a first diameter in an uncoupled state; and a second flowbody configured to be coupled to the first flowbody, wherein the second flowbody has a second circular wall defining a plurality of second slots spaced from each around the second circular wall, wherein the second slots are shaped and disposed on the second circular wall to swirl fluid flowing through the second slots, wherein the second flowbody has a second diameter proximate the plurality of second slots that is greater than the first diameter, wherein the second flowbody is received within the counterbore of the first flowbody in a coupled state and configured to expand the second end portion to a third diameter in the coupled state. 15. The flow restrictor of claim 14 , wherein the second flowbody includes a third end portion and a fourth end portion opposite the third end portion, the plurality of second slots are defined through the third end portion and the second diameter is an external diameter of the fourth end portion. 16. The flow restrictor of claim 14 , wherein the plurality of first slots and the plurality of second slots each have the same orientation relative to a longitudinal axis of the flow restrictor. 17. The flow restrictor of claim 14 , wherein the plurality of first slots are spiral slots that wrap around a longitudinal axis of the flow restrictor at a first angle, the plurality of second slots are spiral slots that wrap around the longitudinal axis at a second angle, and the second angle is the same as the first angle. 18. The flow restrictor of claim 17 , wherein each first slot of the plurality of first slots has a first start point and a first end point, the first start point of each first slot of the plurality of first slots is the same and the first end point of each first slot of the plurality of first slots is different. 19. The flow restrictor of claim 18 , wherein the first start point of each first slot of the plurality of first slots is a tip of the first end portion of the first flowbody. 20. The flow restrictor of claim 14 , wherein the counterbore defines a first tapered surface, the second flowbody defines a second tapered surface configured to contact the first tapered surface to couple the second flowbody to the first flowbody in the coupled state, and in the coupled state, the plurality of second slots are proximate the orifice.