Removable unit for selective powder delivery for additive manufacturing

What is claimed is: 1. A dispensing system for an additive manufacturing apparatus, the dispensing system comprising: a frame; a base plate releasably attached to the frame, a powder reservoir joined to the frame and configured to store powder to be dispensed over a top surface of a platen, wherein the powder reservoir has a base; an array of dispensing units releasably coupled to the frame of the dispensing system, each dispensing unit including a motor, a nozzle block secured to the motor, the nozzle block having a passage extending through the nozzle block that defines a nozzle and provides a path for the powder to flow from the powder reservoir to the top surface of the platen, and a valve positioned in the passage in the nozzle block and connected to the motor so that the valve is drivable by the motor to controllably release powder through the nozzle; wherein the base plate at least partially supports multiple dispensing units of the array of dispensing units, and the nozzle blocks of the multiple dispensing units, which are partially supported by the base plate, contact the base of the powder reservoir to prevent the multiple dispensing units from moving vertically with respect to the top surface of the platen. 2. The dispensing system of claim 1 , wherein the multiple dispensing units are releasably coupled to the base plate with a mechanical fastener to prevent the multiple dispensing units from moving horizontally with respect to the top surface of the platen. 3. The dispensing system of claim 1 , wherein, for each of the dispensing units, the respective valve comprises a powder wheel connected to the respective motor, the respective powder wheel having a plurality of troughs on a surface of the respective powder wheel to deliver the powder from the powder reservoir to the top surface of the platen when the respective powder wheel is rotated by the respective motor. 4. The dispensing system of claim 3 , wherein each respective powder wheel is positioned between an inlet and an outlet of the respective nozzle. 5. The dispensing system of claim 1 , wherein the array of dispensing units continuously spans at least a portion of a width of the top surface of the platen, and wherein each of the respective nozzle blocks are releasably attachable to the frame of the dispensing system. 6. The dispensing system of claim 1 , wherein each dispensing unit further comprise a belt-driven wheel that is axially connected to the respective valve and is configured to be driven by a belt connected to the respective motor. 7. The dispensing system of claim 1 , wherein the powder reservoir is a hopper that includes a paddle wheel or agitator along a width of the hopper, the paddle wheel or agitator configured to distribute the powder uniformly across the array of dispensing units. 8. The dispensing system of claim 1 , wherein the nozzles are arranged in a single row, the nozzles being positioned at the base of the powder reservoir. 9. The dispensing system of claim 1 , wherein the array of dispensing units includes a first row of dispensing units opposite a second row of dispensing units, the two rows of dispensing units disposed at a same elevation with respect to the platen and arranged in a staggered configuration such that the nozzle blocks of the dispensing units of the first row alternate, along a width of the top surface, with the nozzle blocks of the dispensing units of the second row. 10. The dispensing system of claim 9 , wherein the motors in the first row are disposed adjacent to each other and wherein the motors of the second row are disposed adjacent to each other. 11. The dispensing system of claim 1 , wherein the frame comprises an enclosure housing the array of dispensing units. 12. The dispensing system of claim 1 , further comprising a heat shield disposed under the frame of the dispensing system. 13. The dispensing system of claim 1 , wherein each motor is coupled to a tachometer configured to detect a stall condition. 14. An additive manufacturing system, comprising: a platen to support an object during fabrication; a dispensing system for an additive manufacturing apparatus, the dispensing system including a frame, a base plate releasably attached to the frame, a powder reservoir attached to the frame and configured to store powder to be dispensed over a top surface of the platen, wherein the powder reservoir has a has a base, and an array of dispensing units releasably coupled to the frame of the dispensing system, each dispensing unit including a motor, a nozzle block secured to the motor, the nozzle block having a passage that defines a nozzle and provides a path for the powder to flow from the powder reservoir through the nozzle to the top surface of the platen, and a valve positioned in the passage in the nozzle block and connected to the motor so that the valve is drivable by the motor to controllably release powder through the nozzle; an actuator coupled to the frame to drive the frame, powder reservoir and array of dispensing units laterally across the top surface of the platen; an energy source to selectively fuse powder dispensed over the top surface of the platen, wherein the base plate at least partially supports multiple dispensing units of the array of dispensing units, and the nozzle blocks of the multiple dispensing units, which are partially supported by the base plate, contact the base of the powder reservoir to prevent the multiple dispensing units from moving vertically with respect to the top surface of the platen. 15. The system of claim 14 , wherein the array of dispensing units extends along a first axis, and the actuator is configured to drive the frame along a second axis perpendicular to the first axis. 16. The system of claim 14 , wherein the nozzles are arranged in a single row, the nozzles being positioned at the base of the powder reservoir. 17. The system of claim 14 , wherein the array of dispensing units includes a first row of dispensing units opposite a second row of dispensing units, the two rows of dispensing units disposed at a same elevation with respect to the platen and arranged in a staggered configuration such that the nozzle blocks of the dispensing units of the first row alternate, along a width of the top surface, with the nozzle blocks of the dispensing units of the second row. 18. The system of claim 17 , wherein the motors in the first row are disposed adjacent to each other and wherein the motors of in the second row are disposed adjacent to each other.