Systems and methods for fluidizing an abrasive material

We claim: 1. An abrasive jet system comprising: an abrasive container configured to hold abrasives; a nozzle assembly configured to combine a fluid with the abrasives; and an abrasive fluidizer assembly configured to be operably coupled to the abrasive container and the nozzle assembly to meter abrasives to the nozzle assembly from the abrasive container, wherein the fluidizer assembly comprises— a distributor having a distributor body with a first end portion upstream of a second end portion, the distributor body further comprising— a metering orifice at the first end portion; an internal bore extending through the distributor body from the metering orifice to the second end portion and positioned to direct abrasives from the metering orifice, through the distributor body, and toward the nozzle assembly; and a flow passage having an exit opening at the first end portion, wherein the flow passage extends through at least a portion of the distributor body to the exit opening, and wherein the exit opening is positioned to deliver gas upstream of the internal bore; and a distributor coupler configured to be operably coupled to the first end portion of the distributor body and to receive accumulated abrasives at a collection portion proximate to the first end portion of the distributor body; wherein gas exiting the distributor body via the exit opening passes through at least a portion of the accumulated abrasives. 2. The abrasive jet system of claim 1 wherein the flow passage is a first flow passage and wherein the distributor body further comprises a plurality of flow passages extending through at least a portion of the distributor body to the first end portion, wherein the plurality of flow passages are radially spaced apart from the metering orifice. 3. The abrasive jet system of claim 2 wherein the abrasive fluidizer assembly further comprises a filter assembly configured to be positioned proximate to the first end portion of the distributor body between the distributor coupler and the distributor, wherein the filter assembly comprises: an opening aligned with the metering orifice; and a screen at least partially covering the exit opening of the flow passage. 4. The abrasive jet system of claim 1 wherein the distributor body further comprises an inlet port in fluid communication with the flow passage, wherein the inlet port extends circumferentially around the distributor body and the flow passage extends from the inlet port to the first end portion of the distributor body. 5. The abrasive jet system of claim 1 wherein the abrasive container includes an exit port and wherein the abrasive jet system further comprises: at least one aerator positioned in the abrasive container and configured to direct gas through abrasives proximate to the exit port; and a connector operably coupled to the exit port and the distributor coupler, wherein the connector is configured to deliver abrasives from the abrasive container to the collection portion of the distributor coupler. 6. The abrasive jet system of claim 1 wherein the gas passing through at least a portion of the accumulated abrasives is configured to at least partially fluidize the abrasives proximate to the metering orifice. 7. The abrasive jet system of claim 1 , further comprising a controller operably coupled to the fluidizer assembly, wherein the controller is configured to direct pulses of gas through the flow passage at predetermined intervals. 8. A distributor for an abrasive jet system, the distributor comprising: a body having a first end portion and a second end portion, wherein the first end portion is configured to be positioned proximate to an accumulation of particles that are to be delivered to a nozzle assembly of the abrasive jet system, wherein the body further comprises— a metering orifice at the first end portion configured to receive particles from the accumulation of particles; a particle flow passage extending from the metering orifice toward the second end portion and positioned to direct abrasives from the metering orifice, through the body, and toward the nozzle assembly, wherein the particle flow passage is in fluid communication with the metering orifice; and a gas flow passage having an exit opening at the first end portion, wherein the gas flow passage extends through at least a portion of the body to the exit opening, wherein the exit opening is positioned to deliver gas upstream of the particle flow passage, and wherein gas exiting the exit opening passes through at least a portion of the accumulation of particles. 9. The distributor of claim 8 wherein the body has a longitudinal axis and the metering orifice and particle flow passage are at least generally aligned with the longitudinal axis and the gas flow passage is radially spaced apart from the longitudinal axis. 10. The distributor of claim 8 wherein the gas flow passage is a first gas flow passage and wherein the body further comprises a plurality of spaced apart gas flow passages extending through at least a portion of the body to the first end portion. 11. The distributor of claim 8 wherein the body further comprises a channel formed in a surface of the first end portion, wherein the channel extends radially outwardly from the metering orifice. 12. The distributor of claim 11 wherein the channel extends between the metering orifice and the gas flow passage. 13. The distributor of claim 8 , further comprising a gas inlet passage extending circumferentially around an exterior surface of the body, wherein the gas inlet passage is in fluid communication with the gas flow passage. 14. The distributor of claim 8 , further comprising a filter positioned at the first end portion of the body. 15. The distributor of claim 14 wherein the filter at least partially covers the gas flow passage and includes a central opening generally aligned with the metering orifice. 16. The distributor of claim 8 wherein the first end portion is configured to be operably coupled to a connector extending from an abrasive container, wherein the connector is configured to receive abrasives from the abrasive container at a collection zone that at least partially contains the accumulation of particles. 17. A method of operating an abrasive jet system, the method comprising: conveying pressurized gas through a gas flow passage of a distributor to an accumulation of particles upstream of and proximate to an end portion of the distributor, wherein the gas flow passage exits the end portion of the distributor at a location spaced apart from a metering orifice of the distributor, wherein the metering orifice is configured to receive particles from the accumulation of particles; and conveying particles from the accumulation of particles to a nozzle assembly via the distributor, wherein the particles pass through the metering orifice. 18. The method of claim 17 wherein conveying gas through the gas flow passage comprises pulsing gas through the gas flow passage to the accumulation of particles. 19. The method of claim 17 wherein conveying gas through the gas flow passage comprises conveying gas through the gas flow passage at a first pressure and subsequently conveying gas through the gas flow passage at a second pressure that is different than the first pressure. 20. The method of claim 19 wherein conveying gas through the gas flow passage at the first pressure comprises conveying at least one pulse of gas at the first pressure and conveying gas through the gas flow passage at the second pr