The present invention provides an air blaster 100 for removing jammed materials. The air blaster 100 includes a tank 110 filled with compressed air and a dual piston assembly 400 inside the tank 110 for triggering a blast with minimum energy loss and high impact force. The piston assembly 400 includes an inlet piston 320 connected to an outlet piston 250 with a coupling mechanism such that the inlet piston 320 and the outlet piston 250 move in tandem and pressure acting on the inlet piston 320 and outlet piston 250 pushes the assembly 400 towards top of the tank 110 thereby compressing a dampening device/spring 360. The force produced by the instant discharge of air creates a strong blast of air in the tank 110.

The present invention provides an air blaster 100 for removing jammed materials. The air blaster 100 includes a tank In 110 filled with compressed air and a dual piston assembly 400 inside the tank 110 for triggering a blast with minimum energy loss and high impact force. The piston assembly 400 includes an inlet piston 320 connected to an outlet piston 250 with a coupling mechanism such that the inlet piston 320 and the outlet piston 250 move in tandem and pressure acting on the inlet piston 320 and outlet piston 250 pushes the assembly 400 towards top of the tank 110 thereby compressing a dampening device/spring 360. The force produced by the instant discharge of air creates a strong blast of air in the tank 110.

A bin sweep system for moving particulate matter across a floor surface of a bin may include a sweep assembly positionable on the floor surface of the bin and movable across the floor surface. The sweep assembly has an inboard end for locating toward to a central area of the bin and an outboard end for locating toward a peripheral area of the bin, and a forward side oriented toward a direction of movement for orienting toward particulate matter to be moved. The system may also include a particle agglomeration breakup assembly configured to expel a fluid adjacent to the sweep assembly to impact particulate matter located adjacent to the forward side of the sweep assembly and facilitate breakup of any particle agglomerations positioned forwardly of the sweep assembly.