A system for handling particulate material includes a vessel and an outflow conveyor. The vessel includes an inlet configured for receipt of particulate material into the vessel, and a plurality of discharge conveyors. Each discharge conveyor is configured to move particulate material in the vessel towards a corresponding discharge valve. The outflow conveyor is configured to receive particulate material from each discharge valve.

The module (19) for a conveyor system for bulk goods has at least one first tubular section (20). A second tubular section (23), which is provided with at least one coupling piece (21), branches away from said first tubular section. The second tubular section (23) adjoins a valve (13) which has three connections (25, 26). The first connection forms a flow-connection with the second tubular section (23). The second connection (26) of the valve (13) can be selectively connected to the first connection (25) by means of a first line and to the third connection (25) by means of a second line (48).

The module (19) for a conveyor system for bulk goods has at least one first tubular section (20). A second tubular section (23), which is provided with at least one coupling piece (21), branches away from said first tubular section. The second tubular section (23) adjoins a valve (13) which has three connections (25, 26). The first connection forms a flow-connection with the second tubular section (23). The second connection (26) of the valve (13) can be selectively connected to the first connection (25) by means of a first line and to the third connection (25) by means of a second line (48).

A system for temporary storage and offloading of granular materials is presented. The system comprises a tank for storage of a granular material and a suction head for offloading granular material from the tank. The suction head comprises a lower end, an outlet for removing granular material from the suction head, and sidewalls, extending from the lower end to the outlet. The suction head ) further comprises at least one opening for the inflow of granular material into the suction head and one or more nozzles configured to emit a pressurized fluid. The one or more nozzles comprise one or more inner nozzles, configured to generate a helical flow within the suction head, and one or more outer nozzles, configured to generate a helical flow around the suction head in the same direction as the inner nozzles. Also presented is a method for storage and offloading of granular materials.

A magnetic separator for a pneumatic conveyor system may include a duct, at least one face plate assembly, at least one magnet assembly, and a wave-shaped deflector. The duct may define a passage through which an airflow and a powder material suspended in the airflow is flowable. The powder material may include non-ferrous material and ferrous material. The face plate assembly and the magnet assembly may be disposed on a side of the duct. The magnet assembly may provide at least one magnetic field that draws the ferrous material toward the face plate assembly and retains the ferrous material on the face plate assembly. The wave-shaped deflector may be arranged in the passage. The wave-shaped deflector may be structured and arranged to direct and/or guide the airflow and the powder material suspended therein through the passage and, at least in some sections, toward the face plate assembly.

A system for temporary storage and offloading of granular materials is presented. The system comprises a tank for storage of a granular material and a suction head for offloading granular material from the tank. The suction head comprises a lower end, an outlet for removing granular material from the suction head, and sidewalls, extending from the lower end to the outlet. The suction head further comprises at least one opening for the inflow of granular material into the suction head and one or more nozzles configured to emit a pressurized fluid. The one or more nozzles comprise one or more inner nozzles, configured to generate a helical flow within the suction head, and one or more outer nozzles, configured to generate a helical flow around the suction head in the same direction as the inner nozzles. Also presented is a method for storage and offloading of granular materials.