Classifier and method for separating particles

What is claimed is: 1. A classifier for separating particles comprising: a rotor having a direction of rotation defined by a rotational axis of the rotor; a plurality of blades disposed on the rotor around the rotational axis; and wherein at least one blade of the plurality has a swept orientation in the direction of rotation, the at least one blade arranged to contact and direct a first plurality of the particles each having a larger size than a desired fineness grade away from the classifier and thereby restrict the first plurality of particles from concentrating in areas adjacent to the classifier while allowing a second plurality of the particles each having a size equal to or smaller than the desired fineness grade to pass between two blades of the plurality of blades; and wherein the at least one blade has a leading surface with at least one of a curved and angled shape having an apex that faces the direction of rotation of the rotor. 2. The classifier of claim 1 , wherein a leading surface of the at least one blade is angled down such that a top edge of the at least one blade leads a bottom edge of the at least one blade along the direction of rotation, the top edge and the bottom edge being adjacent to a downstream side of the classifier and an upstream side of the classifier, respectively. 3. The classifier of claim 1 , wherein the shaped leading surface is angled. 4. The classifier of claim 1 , wherein the shaped leading surface is curved. 5. The classifier of claim 1 , wherein the at least one blade has an adjustable pitch. 6. The classifier of claim 1 , wherein the at least one blade has a shaped outer profile having a shape that is at least one of conical, semi-cylindrical, concaved, bell, and cup. 7. The classifier of claim 1 , wherein the classifier is disposed in a pulverizer mill and the particles are produced via pulverizing a fuel in the pulverizer mill. 8. A method for separating particles comprising: forcing the particles against an upstream side of a classifier that includes a rotor and a plurality of blades disposed on the rotor around a rotational axis of the rotor that defines a direction of rotation of the rotor; rotating the rotor in the direction of rotation such that a first stream of the particles flows between the plurality of blades from the upstream side to a downstream side of the classifier, and such that a second stream of the particles is restricted from flowing between the plurality of blades from the upstream side to the downstream side; and restricting particles of the second stream from concentrating in areas adjacent to the classifier via contacting the particles of the second stream with at least one blade of the plurality that has a swept orientation in the direction of rotation that directs the particles of the second stream away from the classifier; wherein the particles of the first stream are each of a size equal to or smaller than a desired fineness grade and the particles of the second stream are each of a size larger than the desired fineness grade; and wherein the at least one blade has a leading surface with at least one of a curved and angled shape having an apex that faces the direction of rotation of the rotor. 9. The method of claim 8 , wherein a leading surface of the at least one blade is angled down such that a top edge of the at least one blade leads a bottom edge of the at least one blade along the direction of rotation, the top edge and the bottom edge being adjacent to the downstream side and the upstream side, respectively. 10. The method of claim 8 , wherein the shaped leading surface is angled. 11. The method of claim 8 , wherein the shaped leading surface is curved. 12. The method of claim 8 , wherein the at least one blade has an adjustable pitch, and the method further comprises: adjusting the pitch of the at least one blade. 13. The method of claim 8 , wherein the at least one blade has a shaped outer profile having a shape that is at least one of conical, semi-cylindrical, concaved, bell, and cup. 14. The method of claim 8 , wherein the classifier is disposed in a pulverizer mill and the method further comprises: pulverizing a fuel so as to generate the particles. 15. A pulverizer mill comprising: a classifier that includes a rotor having a direction of rotation defined by a rotational axis of the rotor, the classifier further includes a plurality of blades disposed on the rotor around the rotational axis; and wherein at least one blade of the plurality has a swept orientation in the direction of rotation, the at least one blade arranged to contact and direct a first plurality of particles each having a size larger than a desired fineness grade away from the classifier and thereby restrict the first plurality of particles from concentrating in areas adjacent to the classifier while allowing a second plurality of particle each having a size equal to or smaller than the desired fineness grade to pass between two blades of the plurality of blades wherein the at least one blade has a leading surface with at least one of a curved and angled shape having an apex that faces the direction of rotation of the rotor, and the at least one blade exhibits a shaped outer profile that is substantially the same from a top edge to a bottom edge. 16. The pulverizer mill of claim 15 , wherein the pulverizer mill forms part of a boiler and generates the particles by pulverizing a solid fuel arranged to be burned by the boiler. 17. The pulverizer mill of claim 15 , wherein the swept orientation of the at least one blade is between about 5° to 80° with respect to the direction of rotation.