Rotary feeder with cleaning nozzles

What is claimed is: 1. A rotary feeder comprising: a stationary, cylindrical housing having disposed therein a number of injection nozzles, and within which rotate a plurality of vanes about a central axis, wherein pairs of adjacent vanes of the plurality of vanes define wedge volumes, wherein the housing extends a width along the central axis, wherein each of the vanes has a length along the central axis, and wherein the injection nozzles are positioned across the width of the housing, such that a spray pattern of a gas injected via the number of injection nozzles spans substantially the entire length of the vanes, wherein each of the number of injection nozzles is fluidly connected with a gas source via a gas feed line. 2. The rotary feeder of claim 1 , wherein the number of injection nozzles are positioned such that the wedge volumes defined by the pairs of adjacent vanes are substantially full when they rotate past the location of the number of injection nozzles within the housing. 3. The rotary feeder of claim 2 , wherein each of the number of injection nozzles is located at a position along a circumference of the housing that is in the range of from about 50° to about 170° from an inlet of the rotary feeder, along the direction of rotation of the plurality of vanes. 4. The rotary feeder of claim 1 , wherein the stationary, cylindrical housing defines an inlet and an outlet of the rotary feeder, wherein the inlet is positioned at a top of the housing, and the outlet is positioned at a bottom of the housing. 5. The rotary feeder of claim 1 , wherein the length of each of the plurality of vanes is slightly less than the width of the housing along the central axis, such that the each of the plurality of vanes extends almost to the end walls of the housing and can rotate freely within the housing. 6. The rotary feeder of claim 1 , wherein the number of injection nozzles are located in a line across the width of the housing. 7. The rotary feeder of claim 6 , wherein the number of injection nozzles are positioned substantially equidistantly apart across the width of the housing. 8. The rotary feeder of claim 7 , wherein a center-to-center distance between adjacent injection nozzles is equal to the width of the housing divided by the number of injection nozzles. 9. The rotary feeder of claim 1 , wherein a first injection nozzle and a last injection nozzle across the width of the housing are located a distance along the central axis from an end of the housing closest thereto that is about equal to the width of the housing divided by two times the number of injection nozzles. 10. The rotary feeder of claim 1 , wherein each of the number of injection nozzles is configured to provide a spray pattern selected from fan patterns, air-knife patterns, or combinations thereof. 11. The rotary feeder of claim 10 , wherein each of the number of injection nozzles is configured to provide a fan spray pattern, wherein a spray pattern provided by each of the number of injection nozzles comprises a spray angle in the range of from about 15° to about 120°. 12. The rotary feeder of claim 1 , wherein the number of injection nozzles are positioned across the width of the housing such that the spray pattern of each of the number of injection nozzles overlaps the spray pattern of at least one adjacent nozzle. 13. The rotary feeder of claim 1 , wherein, of the number of injection nozzles, a first injection nozzle and a last injection nozzle across the width of the housing are located a distance along the central axis from an end of the housing closest thereto that is about equal to the width of the housing divided by two times the number of injection nozzles. 14. A rotary feeder comprising: a stationary, cylindrical housing having disposed therein a number of injection nozzles, and within which rotate a plurality of vanes about a central axis, wherein the housing extends a width along the central axis, wherein each of the vanes has a length along the central axis, wherein the injection nozzles are positioned across the width of the housing, such that a spray pattern of a gas injected via the number of injection nozzles spans substantially the entire length of the vanes, wherein each of the number of injection nozzles is located at a position along a circumference of the housing that is in the range of from about 50° to about 170° from an inlet of the rotary feeder, along a direction of rotation of the plurality of vanes, and wherein each of the number of injection nozzles is fluidly connected with a gas source via a gas feed line. 15. The rotary feeder of claim 14 , wherein each of the number of injection nozzles is located at a position along a circumference of the housing that is in the range of from about 90° to about 160° from the inlet, along the direction of rotation of the plurality of vanes. 16. The rotary feeder of claim 14 , wherein the stationary, cylindrical housing defines the inlet and an outlet, wherein the inlet is positioned at a top of the housing, and the outlet is positioned at a bottom of the housing. 17. The rotary feeder 14 , wherein the length of each of the plurality of vanes is slightly less than the width of the housing along the central axis, such that the each of the plurality of vanes extends almost to the end walls of the housing and can rotate freely within the housing. 18. The rotary feeder of claim 14 , wherein pairs of adjacent vanes of the plurality of vanes define wedge volumes. 19. A rotary feeder comprising: a stationary, cylindrical housing having disposed therein a number of injection nozzles, and within which rotate a plurality of vanes about a central axis, wherein the housing extends a width along the central axis from end walls thereof, wherein each of the vanes extends a length along the central axis, wherein the length each of the plurality of vanes extends along the central axis is slightly less than the width of the housing along the central axis, such that the each of the plurality of vanes extends almost to the end walls of the housing and can rotate freely within the housing, wherein the injection nozzles are positioned across the width of the housing, such that a spray pattern of a gas injected via the number of injection nozzles spans substantially the entire length of the vanes, and wherein each of the number of injection nozzles is fluidly connected with a gas source via a gas feed line. 20. The rotary feeder of claim 19 , wherein the length of each of the plurality of vanes is less than 1.0 inch (25.4 mm) less than the width of the housing.