Piston having combustion bowl shaped to balance combustion efficiency and emission properties

What is claimed is: 1. A piston for an internal combustion engine, the piston comprising: a piston body including an outer cylindrical surface defining a longitudinal piston axis; a combustion face defining a compound combustion bowl; and a compound rim extending radially outward from the compound combustion bowl to the outer cylindrical surface, the compound combustion bowl including a convex inner bowl surface defining a conical projection and a concave outer bowl surface, the compound rim including a flat outer rim surface adjoining the outer cylindrical surface, and a convex inner rim surface adjoining the compound combustion bowl, a cone angle of the conical projection is less than or equal to about 135 degrees, the concave outer bowl surface has a first radius of curvature ranging from 7 mm to 20 mm, and the convex inner bowl surface transitions smoothly to the concave outer bowl surface, and the convex inner rim surface transitions abruptly to the concave outer bowl surface at an edge of the compound combustion bowl, and the convex inner rim surface has a second radius of curvature ranging from 40 mm to 70 mm, such that the edge of the compound combustion bowl is recessed from a plane defined by the flat outer rim surface along the longitudinal piston axis. 2. The piston of claim 1 , wherein the second radius of curvature is equal to about 50 mm. 3. The piston of claim 1 , wherein the edge of the compound combustion bowl is located on an annular re-entrant protrusion. 4. The piston of claim 3 , wherein the concave outer bowl surface includes an outer concave bowl surface defining the first radius of curvature, and an inner concave bowl surface defining a third radius of curvature, the first radius of curvature being different from third radius of curvature. 5. The piston of claim 4 , wherein the first radius of curvature is greater than the third radius of curvature. 6. The piston of claim 4 , wherein the third radius of curvature is greater than the first radius of curvature. 7. The piston of claim 4 , wherein the convex inner bowl surface defines a fourth radius of curvature which is smaller than the first radius of curvature, the second radius of curvature, and the third radius of curvature. 8. The piston of claim 3 , wherein the first radius of curvature has a value ranging from about 10 mm to about 16.7 mm. 9. The piston of claim 1 , wherein a ratio of a diameter of the compound combustion bowl to a diameter of the outer cylindrical surface ranges from about 0.68 to about 0.74. 10. A method for operating a compression ignition internal combustion engine, the engine including a piston having a compound combustion bowl disposed within a cylinder of the engine, the method comprising: conveying air into the cylinder such that the air swirls about the cylinder; advancing the piston toward a top dead center position in the cylinder, wherein a ratio of a diameter of the compound combustion bowl to a diameter of the cylinder ranges from 0.68 to 0.74, and the compound combustion bowl includes a convex inner bowl surface continuously transitioning with a concave outer bowl surface defining a first radius of curvature ranging from 7 mm to 20 mm; squishing a gas from a crevice defined in part by a cylinder head of the engine and in part by a compound rim of the piston while advancing the piston toward the top dead center position, the compound rim having a flat outer rim surface and a convex inner rim surface defining a second radius of curvature which ranging from 40 mm to 70 mm; conveying the gas past an abrupt transition between the compound rim and the compound combustion bowl after squishing the gas; and injecting a fuel directly into the cylinder such that the air and the fuel autoignite therein. 11. The method of claim 10 , wherein the conveying the gas further includes conveying a mixture of air and exhaust gases into the cylinder such that the mixture of air and exhaust gases swirls about the cylinder at a speed equal to or less than a speed of rotation of the engine, the method further comprising increasing a pressure of the mixture of air and exhaust gases by a factor of 15 to 17 by advancing the piston toward the top dead center position. 12. The method of claim 10 , wherein the injecting the fuel further includes commencing injecting the fuel at an engine timing such that a center axis of each of a total of five or six fuel spray plumes points at the abrupt transition. 13. A direct injection compression ignition internal combustion engine, comprising: an engine housing defining a cylinder bore, and including an intake passage and an exhaust passage each being in fluid communication with the cylinder bore; a cylinder head coupled with the engine housing; a fuel injector mounted in the cylinder head and configured to directly inject a fuel into the cylinder bore, the fuel injector having a plurality of spray orifices defining a spray angle; and a piston including a piston body having an outer cylindrical surface defining a longitudinal piston axis, and a combustion face defining a compound combustion bowl, wherein a ratio of a diameter of the compound combustion bowl to a diameter of the cylinder bore ranges from 0.68 to 0.74, the piston further including a conical projection within the compound combustion bowl, and a compound rim extending in a radially outward direction from the compound combustion bowl to the outer cylindrical surface, the compound combustion bowl including a convex inner bowl surface located on the conical projection and a concave outer bowl surface, the compound rim including a flat outer rim surface adjoining the outer cylindrical surface and a convex inner rim surface adjoining the compound combustion bowl, wherein the conical projection defines a cone angle which is smaller than the spray angle and is equal to about 135 degrees or less, the concave outer bowl surface defines a first radius of curvature ranging from 7 mm to 20 mm, and the convex inner bowl surface continuously transitions to the concave outer bowl surface; wherein the convex inner rim surface abruptly transitions to the concave outer bowl surface at an edge of the compound combustion bowl, and the convex inner rim surface defines a second radius of curvature ranging from 40 mm to 70 mm, such that a crevice having a narrowing taper in the radially outward direction is defined in part by the cylinder head and in part by the compound rim when the piston is at a top dead center position. 14. The engine of claim 13 , further comprising an exhaust gas recirculation loop fluidly connecting the exhaust passage with the intake passage. 15. The piston of claim 13 , wherein the edge of the compound combustion bowl is located on an annular re-entrant protrusion. 16. The piston of claim 15 , wherein the concave outer bowl surface includes an outer concave bowl surface defining the first radius of curvature, and an inner concave bowl surface defining a third radius of curvature, the first radius of curvature being different from third radius of curvature. 17. The piston of claim 16 , wherein the first radius of curvature is greater than the third radius of curvature. 18. The piston of claim 16 , wherein the third radius of curvature is greater than the first radius of curvature. 19. The piston of claim 16 , wherein the convex inner bowl surface defines a fourth radius of curvature which is smaller than the first radius of curvature, the second radius of curvature, and the third radius of curvature.