Bulk material receiving, conveying, storing, and dispensing

The invention claimed is: 1. A bulk material dispenser, comprising: a dispenser inlet configured for coupling with and receiving bulk material from an outlet of a bulk material storage container; a dispenser outlet configured for coupling with and discharging the bulk material into a transport bin; a conveyor that moves bulk material received at the dispenser inlet toward the dispenser outlet; and a filter assembly configured to filter solids from air displaced from the transport bin during dispenser operation, wherein the conveyor receives bulk material via the dispenser inlet at one end of the conveyor and receives the solids filtered from the air at an opposite end of the conveyor via a solids outlet of the filter assembly. 2. The dispenser of claim 1 , further comprising: a dosing assembly comprising the dispenser inlet and the conveyor; and a docking assembly comprising the dispenser outlet, wherein the dispenser outlet is moveable toward and away from the dosing assembly to couple with and decouple from the transport bin. 3. The dispenser of claim 2 , wherein the docking assembly comprises an inlet coupled with an outlet of the dosing assembly and an actuator that moves the dispenser outlet with respect to the docking assembly inlet. 4. The dispenser of claim 2 , wherein an inlet of the filter assembly is coupled with an internal volume of the docking assembly so that an internal pressure of said internal volume is less than atmospheric pressure when the dispenser is coupled with the transport bin. 5. The dispenser of claim 4 , further comprising an adjustable vent that permits air flow into said internal volume, wherein adjustment of the vent changes said internal pressure. 6. The dispenser of claim 1 , wherein the filter assembly comprises: a filter inlet in fluidic communication with the dispenser outlet; a filter outlet; a filter element between the filter inlet and filter outlet; a turbine arranged to force air from the filter inlet, through the filter element, and toward the filter outlet; and the solids outlet coupled with the conveyor, wherein the solids filtered from the air in the filter assembly are routed to the conveyor for movement toward the dispenser outlet. 7. The dispenser of claim 1 , wherein the conveyor is a screw conveyor comprising a screw having a first flight that moves bulk material in a first direction from the dispenser inlet toward the dispenser outlet and second flight that moves filtered solids in an opposite second direction from the solids outlet toward the dispenser outlet. 8. A bulk material dispensing module, comprising: a dispensing module frame having a longitudinal axis, the frame further comprising a plurality of transverse frame members spaced along the longitudinal axis, wherein a dispensing cell is defined between each pair of transverse frame members; at least one bulk material dispenser according to claim 1 supported within the frame, each bulk material dispenser being supported in a different dispensing cell, wherein the dispenser inlet is accessible through a first side of the frame, and the dispenser outlet is accessible through an opposite side of the frame; and a controller carried by the frame for each bulk material dispenser, wherein the module is configured to be attached side-by-side with one or more other bulk material dispensing modules, each of the modules having identical frames, dispenser inlets, and dispenser outlets, and wherein the module has external dimensions less than or equal to an intermodal freight container. 9. A dispensing module array comprising a plurality of the dispensing modules of claim 6 arranged side-by-side with a top and a bottom of each frame lying in common respective planes. 10. A bulk material storage and dispensing system comprising a storage module array arranged atop the dispensing module array of claim 9 , wherein each of a plurality of bulk material storage modules of the array is aligned with a different one of the dispensing cells, and each dispenser inlet is coupled with the outlet of a respective bulk material storage container. 11. A glass manufacturing facility comprising a ground level floor and no basement, a main frame on the floor, and the system of claim 10 supported from below by the main frame such that a habitable space is defined between the floor and the system. 12. The dispenser of claim 3 , wherein the actuator is a lost-motion actuator that limits an amount force applied to the transport bin by the docking assembly. 13. The dispenser of claim 2 , wherein the docking assembly further comprises a collapsible sleeve extending between a receiving portion and a docking portion of the docking assembly and defining an internal volume of the docking assembly that changes with movement of the receiving portion relative to the docking portion. 14. The dispenser of claim 13 , the docking assembly further comprising a vacuum port in fluidic communication with the internal volume defined by the collapsible sleeve to reduce an internal pressure of the internal volume when the docking portion is in contact with the transport bin and a negative pressure is applied at the vacuum port. 15. The dispenser of claim 14 , further comprising a vent that is operable to adjust the magnitude of the internal pressure for a given applied negative pressure. 16. The dispenser of claim 14 , wherein the receiving portion further comprises a coupling sleeve comprising the vacuum port, a first end of the coupling sleeve being configured for attachment to the dosing assembly, and a second end of the coupling sleeve extending into said internal volume. 17. The dispenser of claim 16 , wherein the coupling sleeve comprises an inner sleeve and an outer sleeve, the vacuum port being located on the outer sleeve and the inner sleeve being arranged to isolate the bulk material from the outer sleeve. 18. The dispenser of claim 1 , wherein the filter assembly comprises a housing and internal filter element located above the conveyor such that the solids filtered from the air can be returned to the conveyor via the solids outlet of the filter assembly under the force of gravity. 19. The dispenser of claim 1 , wherein the conveyor is a screw conveyor comprising a screw that moves bulk material received via the dispenser inlet in a first direction toward the dispenser outlet, and the same screw moves solids filtered from the air in an opposite second direction toward the dispenser outlet. 20. The dispenser of claim 1 , further comprising an accumulator tank configured to be pulsed or discharged to cause the solids filtered from the air to fall into the conveyor. 21. The dispenser of claim 1 , wherein the filter assembly is operable to force the air from a filter inlet, through a filter element, and out of a filter outlet to atmosphere. 22. The dispenser of claim 1 , further comprising an adjustable vent that permits atmospheric air from outside the bulk material dispenser and outside the transport bin to be drawn into the filter assembly along with the air displaced from the transport bin. 23. The dispenser of claim 22 , wherein the vent includes at least one aperture and an adjuster movable between a fully closed position, in which each aperture is closed-off, and an open position, in which at least a portion of each aperture is open to permit atmospheric air through the aperture. 24. The dispenser of claim 1 , wherein the dispenser outlet is moveable a