Self-priming assembly for use in a multi-stage pump

The invention claimed is: 1. A self-priming assembly for a multi-stage pump, the self-priming assembly comprising: a first diffuser with a first central portion, a first diffuser axis, a first arcuate channel within the first central portion, and a first arcuate passage extending through the first central portion, wherein the first arcuate channel and the first arcuate passage are concentric with each other about the first diffuser axis; a second diffuser with a second central portion, a second diffuser axis, a second arcuate channel within the second central portion, and a second arcuate passage extending through the second central portion, wherein the second arcuate channel and the second arcuate passage are concentric with each other about the second diffuser axis, and wherein the first arcuate channel and the second arcuate channel each have a depth dimension, a width dimension, a first portion, a second portion, and a third portion, wherein each of the depth dimension and the width dimension is greater in the second portion than in the first portion and the third portion; and an impeller with a plurality of chambers radially spaced around a hub and an impeller axis; wherein the first diffuser and the second diffuser are configured to be combined and receive the impeller therebetween with the first diffuser axis, the second diffuser axis, and the impeller axis aligned. 2. The self-priming assembly of claim 1 , wherein the first diffuser and the second diffuser are substantially identical. 3. The self-priming assembly of claim 1 , wherein the impeller has an axle and the first diffuser and the second diffuser each have a through-hole configured to receive the axle. 4. The self-priming assembly of claim 1 , wherein the first arcuate passage is located between the first arcuate channel and the first diffuser axis, and the second arcuate passage is located between the second arcuate channel and the second diffuser axis. 5. The self-priming assembly of claim 1 , wherein the first arcuate channel extends around the first diffuser axis approximately 5π/3 radians, and the second arcuate channel extends around the second diffuser axis approximately 5π/3 radians. 6. The self-priming assembly of claim 1 , wherein the first arcuate passage extends around the first diffuser axis approximately 2π/3 radians, and the second arcuate passage extends around the second diffuser axis approximately 2π/3 radians. 7. The self-priming assembly of claim 1 , wherein the depth dimension and the width dimension of the first arcuate channel and the second arcuate channel gradually increases from the first portion to the second portion and gradually decreases from the second portion to the third portion. 8. The self-priming assembly of claim 1 , wherein the first arcuate channel has a first length and the first arcuate passage extends laterally along the first arcuate channel for less than a majority of the first length, and the second arcuate channel has a second length and the second arcuate passage extends laterally along the second arcuate channel for less than a majority of the second length. 9. The self-priming assembly of claim 1 , wherein the plurality of chambers in the impeller are wedge-shaped. 10. The self-priming assembly of claim 9 , wherein each chamber of the plurality of chambers extends around the impeller axis approximately it/ 6 radians. 11. A multi-stage pump comprising: an input member; an output member; a plurality of pump stage assemblies assembled along a pump axis; and a self-priming assembly having: a first diffuser with a first diffuser axis, the first diffuser including a first central portion, a first arcuate channel within the first central portion, and a first arcuate passage extending through the first central portion, wherein the first arcuate channel has a depth dimension, a width dimension, a first portion, a second portion, and a third portion, wherein each of the depth dimension and the width dimension is greater in the second portion than in the first portion and the third portion, wherein the first arcuate channel and the first arcuate passage are concentric with each other about the first diffuser axis, a second diffuser with a second diffuser axis configured to interface with the first diffuser, and an impeller with an impeller axis positioned between the first diffuser and the second diffuser and axially aligned with the first diffuser axis and the second diffuser axis; the self-priming assembly attached to the plurality of pump stage assemblies and axially aligned with the pump axis, the plurality of pump stage assemblies and the self-priming assembly positioned between the input member and the output member. 12. The multi-stage pump of claim 11 , wherein the self-priming assembly is positioned adjacent to the output member. 13. The multi-stage pump of claim 11 , wherein the first diffuser and the second diffuser are identical, the second diffuser including a second arcuate channel and a second arcuate passage concentric therewith. 14. The multi-stage pump of claim 13 , wherein the first and second arcuate channels of the first and second diffusers, respectively, have a length dimension and the first and second arcuate passages extend laterally along the first and second arcuate channels, respectively, for less than a majority of the length dimension. 15. The multi-stage pump of claim 14 , wherein the depth dimension and the width dimension of each of the first and second arcuate channels change over the length dimension. 16. The multi-stage pump of claim 15 , wherein the depth dimension and the width dimension of each of the respective first and second arcuate channels increase from the first portion to the second portion and decrease from the second portion to the third portion. 17. The multi-stage pump of claim 11 , wherein the impeller has a hub and a plurality of chambers extending outwardly from the hub. 18. The multi-stage pump of claim 17 , wherein the plurality of chambers are substantially equally sized and wedge-shaped. 19. The multi-stage pump of claim 18 , wherein each chamber of the plurality of chambers extends around the impeller axis approximately π/6 radians.