A deployable bulk material distribution apparatus for discharging from a designated height an amount of a flowable bulk material into a discharge location is provided. In one embodiment, the apparatus comprises an auger section; a bucket elevator section configured so as to be movable between: an upright position; and a reclined position wherein the bucket elevator section is substantially reclined for transport; and a joint assembly coupling the exit aperture of the auger section to the boot inlet of the bucket elevator section so as to allow the flowable bulk material to move from the exit aperture to the boot inlet when the bucket elevator section is in the upright position, the joint assembly being rotatably coupled to the boot inlet. The auger section and container operable to freely move along the bucket elevator section when it is moved between the upright and reclined positions.

A deployable bulk material distribution apparatus for discharging from a designated height an amount of a flowable bulk material into a discharge location is provided. In one embodiment, the apparatus comprises an auger section; a bucket elevator section configured so as to be movable between: an upright position; and a reclined position wherein the bucket elevator section is substantially reclined for transport; and a joint assembly coupling the exit aperture of the auger section to the boot inlet of the bucket elevator section so as to allow the flowable bulk material to move from the exit aperture to the boot inlet when the bucket elevator section is in the upright position, the joint assembly being rotatably coupled to the boot inlet. The auger section and container operable to freely move along the bucket elevator section when it is moved between the upright and reclined positions.

A powder feed assembly comprises a powder hopper, a motor, an auger housing, an auger, a porous gas-permeable powder filter, a carrier gas inlet, an auger sleeve, and a powder hose. The auger housing receives a powder from the opening in the hopper floor into a powder chamber defined in the auger housing. The auger is selectively rotatable to propel the powder from the powder chamber past the distal end of the auger and into the auger sleeve. The carrier gas inlet introduces carrier gas into an inner chamber of the auger housing. The wall of the auger sleeve allows at least some of the carrier gas to flow or permeate into the internal bore of the auger sleeve to pick up and carry the propelled powder out of the auger housing. The powder hose directs the carrier gas and carried powder from the auger housing to a powder dispenser.

An example bulk material dispensing apparatus includes: a frame; a hopper supported in the frame, the hopper configured to contain a bulk material for dispensing by the dispensing apparatus and having a hopper outlet; a feeding unit interconnected with the hopper outlet, the feeding unit configured to receive the bulk material from the hopper outlet and comprising: a feeding tube; and an auger disposed in the feeding tube, the auger configured to rotate to drive the bulk material received from the hopper outlet to be dispensed from a dispensing outlet; and a controller interconnected with the auger, the controller configured to: receive a dispensing request specifying a quantity of bulk material to dispense; and control the auger to rotate to dispense the quantity of bulk material.

An example bulk material dispensing apparatus includes: a frame; a hopper supported in the frame, the hopper configured to contain a bulk material for dispensing by the dispensing apparatus and having a hopper outlet; a feeding unit interconnected with the hopper outlet, the feeding unit configured to receive the bulk material from the hopper outlet and comprising: a feeding tube; and an auger disposed in the feeding tube, the auger configured to rotate to drive the bulk material received from the hopper outlet to be dispensed from a dispensing outlet; and a controller interconnected with the auger, the controller configured to: receive a dispensing request specifying a quantity of bulk material to dispense; and control the auger to rotate to dispense the quantity of bulk material.

The present invention provides an apparatus for storing gas hydrate pellets that includes: a storage tank having an inlet formed at a top portion thereof for having gas hydrate pellets injected therein; a transfer part formed at a lower portion of the storage tank so as to transfer the injected gas hydrate pellets to an outside of the storage tank; a rotating shaft vertically formed in the storage tank; a plurality of division plates coupled to the rotating shaft to partition an internal space of the storage tank, each having a bottom portion thereof formed above a top portion of the transfer part; an extension plate coupled to a lower portion of each of the division plates in such a way that the extension plate is movable up and down; and a guide formed at an upper portion of the transfer part and configured to guide the extension plate so as to allow the extension plate to be revolved by rotation of the rotating shaft without an interruption with the transfer part.

The present invention provides an apparatus for storing gas hydrate pellets that includes: a storage tank having an inlet formed at a top portion thereof for having gas hydrate pellets injected therein; a transfer part formed at a lower portion of the storage tank so as to transfer the injected gas hydrate pellets to an outside of the storage tank; a rotating shaft vertically formed in the storage tank; a plurality of division plates coupled to the rotating shaft to partition an internal space of the storage tank, each having a bottom portion thereof formed above a top portion of the transfer part; an extension plate coupled to a lower portion of each of the division plates in such a way that the extension plate is movable up and down; and a guide formed at an upper portion of the transfer part and configured to guide the extension plate so as to allow the extension plate to be revolved by rotation of the rotating shaft without an interruption with the transfer part.

A material-conveying system comprising a conveyor for conveying material to a bin and a conveyor positioning system associated with the conveyor. The conveyor positioning system comprises a processor for positioning the conveyor relative to the bin. The conveyor comprises a spout and the bin comprises an opening. The conveyor positioning system positions the spout of the conveyor over the opening of the bin. The conveyor positioning system in one implementation comprises a Global Navigation Satellite System-Real Time Kinematic (GNSS-RTK) positioning system that includes a fixed base station and a GNSS receiver on the conveyor.

The disclosure provides a bulk material unloading system and method. The system includes a bulk material container containing a bulk material and an unloading device. The unloading device is configured to engage the bulk material container and at least partially invert the bulk material container. The method includes engaging a bulk material container containing a bulk material with an unloading device and emptying the bulk material container. Emptying the bulk material into the hopper includes lifting the bulk material container using the unloading device and rotating the bulk material container using the unloading device.

A material-conveying system comprises a main conveyor for conveying material, a swing conveyor for conveying the material to the main conveyor and a processor for controlling a speed of the swing conveyor based on a feedback signal. The feedback signal may be indicative of a speed of the swing conveyor and/or a speed of a main conveyor. The feedback signal may be indicative of material level, belt slippage, flow rate, belt angle and/or material rollback.