Refiner plate having inter-bar wear protrusions

What is claimed is: 1. A refiner plate segment comprising: an inner arc; an outer arc distally disposed from the inner arc; a first end distally disposed from a second end, the first end and second end extending between the inner arc and the outer arc; a substrate disposed between the inner arc, first end, second end, and the outer arc; a refiner side and a backside distally disposed from the refiner side; refiner bars engaged to the substrate on the refiner side, wherein the refiner bars have a refiner bar height, and wherein a first pair of adjacent refiner bars and the substrate define a first groove between the adjacent refiner bars and additional pairs of adjacent refiner bars and the substrate define a plurality of second grooves; a plurality of protrusions disposed in the first groove, the protrusions each having a protrusion height, wherein a protrusion height is no more than 30% of the refiner bar height; and a plurality of dams disposed in each of the second grooves, wherein the dams include surface dams and subsurface dams, wherein a spacing between adjacent protrusions in the first groove is less than a spacing between adjacent subsurface dams in the second grooves that include subsurface dams, and wherein the plurality of protrusions are configured to wear at a rate substantially equal to a rate of wear of the refiner bars so as to maintain an effectively constant groove depth. 2. The refiner plate segment of claim 1 , wherein at least one of the protrusion has a shape and the shape is selected from the group consisting of: a rectangle, a rectangular prism, a rectangular prism segment, a triangular prism, a triangular prism segment, a prism where a number of sides exposed to feed material is four or more or a segment thereof, a polyhedron, a polyhedral segment, a triangular pyramid, a triangular pyramid segment, a quadrilateral pyramid, a quadrilateral pyramid segment, a pyramid having five or more faces exposed to feed material or a segment thereof, a pyramidal frustum, a pyramidal frustum segment, a spherical dome, a spherical dome segment, a spheroid dome, a spheroid dome segment, a parabolic prism, a parabolic prism segment, a frustum parabolic prism, a frustum parabolic prism segment, a cone, a cone segment, a spheroid cone, a spheroid cone segment, an elliptical cone, an elliptical cone segment, a conical frustum, a capsule, a cylindrical segment, an ellipsoid conical frustum, an ellipsoid conical frustum segment, a cylinder, a cylinder segment, an elliptic cylinder, an elliptic cylinder segment, a sphere, a sphere segment, a spheroid, a spheroid segment, —or combinations thereof. 3. The refiner plate segment of claim 1 further comprising multiple protrusions, wherein the protrusions are disposed at regular intervals of between 6 millimeters to 25 millimeters within the groove. 4. The refiner plate segment of claim 1 , wherein the protrusions are disposed at irregular intervals. 5. The refiner plate segment of claim 1 , wherein at least one of the protrusion has a shape of a rectangular prism, wherein the protrusion has a leading face disposed at an angle relative to the substrate on the refiner side of the refiner plate segment, and wherein the angle is an obtuse angle. 6. The refiner plate segment of claim 1 , wherein the protrusions comprise a material selected from the group consisting of: aluminum, copper, brass, steel, plastic, wood, and epoxy resin. 7. The refiner plate segment of claim 1 , wherein the refiner bars have an initial bar height of 10 mm-20 mm and the protrusion has an initial protrusion height of 2 mm-5 mm. 8. The refiner plate segment of claim 1 , wherein each refiner bar further comprises a reference bar volume comprising a volume of a portion of the refiner bar sharing a length with a longest length of a protrusion and a reference bar base coextending with an adjacent protrusion base along the longest protrusion length, wherein the protrusion further comprises a protrusion volume, and wherein the protrusion volume is less than 40% of the reference bar volume. 9. The refiner plate segment of claim 1 , wherein the refiner bars have an initial bar height of 12 mm-15 mm and the protrusion has an initial protrusion height of 2 mm-3.5 mm. 10. A refiner plate segment comprising: an inner arc; an outer arc distally disposed from the inner arc; a first end distally disposed from a second end, the first end and the second end extending between the inner arc and the outer arc; a substrate disposed between the inner arc, first end, second end, and the outer arc; a refiner side of the substrate and a back side of the substrate distally disposed from the refiner side; refiner bars engaged to the substrate on the refiner side, wherein the refiner bars have a refiner bar height, and wherein a first pair of adjacent refiner bars and the substrate define a first groove between the adjacent refiner bars and additional pairs of adjacent refiner bars and the substrate define a plurality of second grooves; protrusions disposed in the first groove, the protrusions each having a protrusion top, a protrusion base, and a protrusion height between the protrusion top and the protrusion base, and a side connecting the protrusion top and the protrusion base, wherein each protrusion of the protrusions has a longitudinal cross-sectional area measured from a plane disposed along a longest length of the protrusion as measured from a portion of the protrusion disposed closest to the inner arc to a portion of the protrusion disposed closest to the outer arc, wherein an adjacent refiner bar of the refiner bars has a lateral cross-sectional area measured from a plane intersecting a refining section transversely to a refiner bar length, wherein the protrusion longitudinal cross-sectional area is less than 20% of a lateral cross-sectional area of the adjacent refiner bar, and a plurality of dams disposed in each of the second grooves, wherein the dams include surface dams and subsurface dams, wherein a spacing between adjacent protrusions in the first groove is less than a spacing between adjacent subsurface dams in the second grooves that include subsurface dams, and wherein the protrusions are configured to wear at a rate substantially equal to a rate of wear of the refiner bars so as to maintain an effectively constant groove depth. 11. The refiner plate segment of claim 10 further comprising a difference between the protrusion height and the refiner bar height, wherein the difference between the protrusion height and the refiner bar height is an effective groove depth. 12. The refiner plate segment of claim 10 further comprising dams, wherein the dams have a dam longitudinal cross-sectional area and wherein the dam longitudinal cross-sectional area is greater than 20% of a reference bar longitudinal area, wherein the reference bar longitudinal area comprises a length and a height, wherein the reference bar length coextends with a longest length of the dam. 13. The refiner plate segment of claim 10 , wherein the protrusions have a shape and the shape is selected from the group consisting of a rectangular prism, a rectangular prism segment, a triangular prism, a triangular prism segment, a prism where a number of sides exposed to feed material is four or more or a segment thereof, a polyhedron, a polyhedral segment, a triangular pyramid, a triangular pyramid segment, a quadrilateral pyramid, a quadrilateral pyramid segment, a pyramid having five or more faces exposed to feed material or a segment thereof, a pyramidal frustum, a pyramidal frustum segment, a spherical dome, a spherical dome segment, a spheroid dome, a spheroid dome