Piston fluid passages for reduced soot

What is claimed is: 1. An internal combustion engine, comprising: an engine block having a plurality of cylinders; a piston reciprocatingly mounted with each cylinder and defining a combustion chamber therebetween; a fuel injector communicating fuel to the combustion chamber, the fuel creating a plurality of flame plumes when ignited; a piston crown extending from the piston and defining a piston bowl, the piston crown including a circumferential wall terminating in a top ledge; and a plurality of fluid passageways in the piston crown, each fluid passageway including an ingress in the top ledge and an egress in the circumferential wall proximate the piston bowl. 2. The internal combustion engine of claim 1 , wherein the plurality of fluid passageways are completely enclosed. 3. The internal combustion engine of claim 1 , wherein the piston crown is configured to compress unburned gas into the plurality of fluid passageways. 4. The internal combustion engine of claim 1 , wherein the plurality of fluid passageways transport unburned gas to one or more fuel regions within the piston bowl. 5. The internal combustion engine of claim 1 , wherein the plurality of fluid passageways are configured to follow at least one of a curved and a straight path. 6. The internal combustion engine of claim 1 , wherein the plurality of fluid passageways are configured to accelerate a flow of the unburned gas. 7. The internal combustion engine of claim 1 , wherein the piston is configured with at least six fluid passageways. 8. A piston comprising: a cylindrical base; a circumferential wall extending from the cylindrical base and terminating in a top ledge; a piston bowl defined by the cylindrical base and the circumferential wall; and a fluid passageway configured within the circumferential wall to receive unburned gas from the piston bowl through an ingress in a top ledge of the circumferential wall and transport the unburned gas back to the piston bowl through an egress in the circumferential wall, wherein the fluid passageway guides the unburned gas to a region with a higher equivalence ratio. 9. The piston of claim 8 , wherein the circumferential wall is a top crown of the piston. 10. The piston of claim 8 , wherein the piston includes a plurality of fluid passageways in the circumferential wall. 11. The piston of claim 9 , wherein the top crown compresses the unburned gas into the fluid passageway. 12. The piston of claim 8 , wherein fluid passageway is configured to have a plurality of ingresses and a plurality of egresses. 13. The piston of claim 8 , wherein the fluid passageway is configured to guide the unburned gas to a plurality of fuel regions within the piston bowl. 14. The piston of claim 8 , wherein the fluid passageway is configured to guide the unburned gas on a straight and curved path to the piston bowl. 15. A method for operating an internal combustion engine, the method comprising: providing a piston within a cylinder, the piston having a piston crown with a plurality of fluid passageways therein, the piston crown defining a piston bowl; injecting fuel into the piston bowl; igniting the fuel and generating a plurality of flame plumes; compressing unburned gas flowing away from the piston bowl into one of the plurality of fluid passageways; and guiding the unburned gas within each fluid passageway to exit into the piston bowl to interact with the plurality of flame plumes travelling within the piston bowl. 16. The method for claim 15 , wherein a number of the plurality of fluid passageways is greater than a number of the plurality of flame plumes travelling within the piston. 17. The method of claim 15 , wherein the plurality of fluid passageways are configured in between the plurality of flame plumes travelling within the piston bowl. 18. The method of claim 15 , wherein the fluid passageway is configured to guide the unburned gas toward a center of the piston bowl. 19. The method of claim 15 , wherein the fluid passageway accelerates the unburned gas toward the piston bowl. 20. The method of claim 15 , wherein the unburned gas continuously interacts with the plurality of flame plumes.