Piston for compression-ignition engine having antebowl and engine operating strategy utilizing same

What is claimed is: 1. A method of operating a compression ignition internal combustion engine comprising: moving a piston within a cylinder of the internal combustion engine toward a top dead center position, such that a pressure within the cylinder is increased to an autoignition threshold in a first engine cycle; injecting spray plumes of a first charge of a liquid fuel at a spray angle into the cylinder in the first engine cycle, such that the spray plumes of the first charge enter a combustion bowl formed by a piston end face in the piston and having a bowl diameter that is greater than 75% of a cylinder bore diameter of the cylinder; combusting the first charge of the liquid fuel at least predominantly within the combustion bowl; moving the piston within the cylinder toward the top dead center position such that a pressure within the cylinder is increased to an autoignition threshold in a second engine cycle; injecting spray plumes of a second charge of the liquid fuel larger than the first charge at the spray angle into the cylinder in the second engine cycle, such that the spray plumes of the second charge enter the combustion bowl; advancing the spray plumes of the second charge through the cylinder, such that unburned liquid fuel in tails of the spray plumes of the second charge enters an antebowl defined by a rounded inner rim surface of the piston, the rounded inner rim surface having a rounded profile from a planar outer rim surface to an edge of the combustion bowl, a radius of curvature from about 40% to about 55% of the bowl diameter and an antebowl volume that is about 0.8% or greater of a total volume of the combustion bowl and the antebowl together; combusting the second charge of the liquid fuel within the combustion bowl and within the antebowl; burning liquid fuel in the tails within the antebowl so as to limit conveying unburned liquid fuel to a crevice volume in the internal combustion engine; limiting smoke production by the internal combustion engine based upon the burning of the liquid fuel in the tails within the antebowl; the piston end face has a uniform profile of rotation circumferentially around a longitudinal center axis of the piston, and includes a center cone within the combustion bowl defining a cone angle, and the spray angle is larger than the cone angle; and the cylinder bore diameter is from about 160 millimeters to about 180 millimeters, and a total volume of the combustion bowl and the antebowl together is from about 200×10 3 cubic millimeters to about 260×10 3 cubic millimeters. 2. The method of claim 1 wherein the advancing of the spray plumes of the second charge further includes impinging the tails of the spray plumes of the second charge upon an edge of the combustion bowl having a radius of curvature from about 1 millimeter to about 2 millimeters. 3. The method of claim 1 further comprising increasing an amount of the fuel injected from the first engine cycle to the second engine cycle in response to a transient demand to operate the internal combustion engine at an increased engine load that is about 50% or less of an available engine load. 4. The method of claim 1 wherein the cylinder bore diameter is about 170 millimeters, the bowl diameter is about 130 millimeters, and the radius of curvature of the rounded inner rim surface is about 60 millimeters. 5. A direct-injected compression ignition internal combustion engine comprising: an engine housing having a cylinder formed therein with a cylinder bore diameter; a fuel injector including an injector tip positioned within the cylinder; a piston movable within the cylinder from a bottom dead center position to a top dead center position to increase a pressure of fuel and air within the cylinder to an autoignition threshold; the piston including a piston body defining a longitudinal center axis extending between a first axial piston body end and a second axial piston body end having a piston end face including a uniform profile of rotation circumferentially around the longitudinal center axis; the piston end face forming a combustion bowl including a convex center section defining a cone angle and transitioning radially outward from the longitudinal axis and axially downward to a combustion bowl floor, and a concave outer section transitioning radially outward and axially upward from the combustion bowl floor toward a combustion bowl edge defining an edge plane; the fuel injector is centered on the longitudinal center axis and includes spray orifices defining a spray angle larger than the cone angle; the piston end face further including an annular piston rim having a planar outer rim surface that is oriented normal to the longitudinal axis and defines a rim plane, and a rounded inner rim surface that extends radially inward and axially downward from the planar outer rim surface to the combustion bowl edge and has a rounded profile from the planar outer rim surface to the combustion bowl edge; an antebowl defined by the rounded inner rim surface and extending between the rim plane and the edge plane; the combustion bowl having a bowl diameter that is greater than 75% of the cylinder bore diameter; the rounded inner rim surface having a radius of curvature that is from about 40% to about 55% of the bowl diameter; the antebowl having an antebowl volume that is about 0.8% or greater of a total volume of the combustion bowl and the antebowl together; the cylinder bore diameter is from about 160 millimeters to about 180 millimeters, and a total volume of the combustion bowl and the antebowl together is from about 200×10 3 cubic millimeters to about 260×10 3 cubic millimeters. 6. The internal combustion engine of claim 5 wherein the antebowl volume is about 2000 cubic millimeters. 7. The internal combustion engine of claim 5 wherein the antebowl has an antebowl diameter that is about 120% of the bowl diameter or greater. 8. The internal combustion engine of claim 5 wherein the bowl diameter is about 77% of the cylinder bore diameter. 9. The internal combustion engine of claim 5 wherein the cylinder bore diameter is about 170 millimeters, the bowl diameter is about 130 millimeters, and the radius of curvature is about 60 millimeters. 10. The internal combustion engine of claim 9 wherein the antebowl diameter is about 160 millimeters. 11. The internal combustion engine of claim 5 wherein the concave outer section has a single radius of curvature and extends from the convex center section to a straight vertical section that adjoins the combustion bowl edge and is oriented parallel to the longitudinal piston axis. 12. The internal combustion engine of claim 11 wherein the straight vertical section has a length from about 1 millimeter to about 2 millimeters, and the combustion bowl edge has a radius of curvature from about 1 millimeter to about 2 millimeters. 13. A piston for a compression ignition internal combustion engine comprising: a piston body defining a longitudinal center axis and including a piston crown, the piston crown having an outer piston surface extending circumferentially around the longitudinal center axis and having a plurality of piston ring grooves formed therein, and a piston end face having a uniform profile of rotation circumferentially around the longitudinal center axis and forming a combustion bowl; the combustion bowl including a convex center section, centered on the longitudinal center axis, transitioning radially outward from the longitudinal piston axis and axially downward to a combustion bowl floor, and a concave outer section transitioning radially outward and axially upward from the combustion bowl floo