A fill under tarp for grain and grain storage system is disclosed. The fill under has a tarp body with a plurality of tarp sections having an inner edge extending to a terminal outer edge defining an outer perimeter. A tarp section seam is disposed between tarp sections. A yoke having a center and opposing inner and outer terminal edges is disposed generally in the center of the tarp body and configured for strengthening the tarp body. A corner of the outer terminal edge of the yoke is disposed coincident with the tarp section seam. A transition seam is disposed between the outer terminal edge of the yoke and inner edge of the tarp body. An opening in the yoke has an outer circumference coincident with the inner edge of the yoke so that the opening is configured to receive grain for storing underneath the fill under tarp.

A fill under tarp for grain and grain storage system is disclosed. The fill under has a tarp body with a plurality of tarp sections having an inner edge extending to a terminal outer edge defining an outer perimeter. A tarp section seam is disposed between tarp sections. A yoke having a center and opposing inner and outer terminal edges is disposed generally in the center of the tarp body and configured for strengthening the tarp body. A corner of the outer terminal edge of the yoke is disposed coincident with the tarp section seam. A transition seam is disposed between the outer terminal edge of the yoke and inner edge of the tarp body. An opening in the yoke has an outer circumference coincident with the inner edge of the yoke so that the opening is configured to receive grain for storing underneath the fill under tarp.

In one embodiment, the present disclosure includes a cloud computer system for controlling a plurality of remote devices comprising a cloud server including a cloud based operating system comprising a data model stored in a computer memory. The data model includes commands that may be performed by a plurality of remote devices in a remote system and, for each remote device, one or more operations for triggering processes executed by the remote device. The cloud based operating system generates a set of instructions from the plurality of commands and corresponding operations to control a portion of the remote devices to perform a task.

According to one aspect of the disclosure, a bulk material handling method includes receiving bulk material on a first level of a system at receiving stations equipped with dust control filtration equipment, pneumatically conveying the bulk material up to a third level into bulk material storage hoppers, storing the bulk material, dispensing the stored bulk material to a bulk material transporter on the first level, including dosing the stored bulk material to an interior of a bulk material dosing hopper to create a bulk material dose, docking the dosing hopper with the transporter via a docking apparatus, and releasing the dose into the interior of the transporter, through a reduced pressure region in an internal volume of the docking apparatus. Other disclosed aspects include a related system, subsystems, and apparatuses.

According to one aspect of the disclosure, a bulk material handling method includes receiving bulk material on a first level of a system at receiving stations equipped with dust control filtration equipment, pneumatically conveying the bulk material up to a third level into bulk material storage hoppers, storing the bulk material, dispensing the stored bulk material to a bulk material transporter on the first level, including dosing the stored bulk material to an interior of a bulk material dosing hopper to create a bulk material dose, docking the dosing hopper with the transporter via a docking apparatus, and releasing the dose into the interior of the transporter, through a reduced pressure region in an internal volume of the docking apparatus. Other disclosed aspects include a related system, subsystems, and apparatuses.

A bulk material transport system includes one or more bulk material transport bins, weighing platforms, and vehicles arranged in various combinations as bulk material transporters, assemblies, and units. The system is useful for coupling with a bulk material container, forming a reduced pressure region at an inlet of the transport bin, and dispensing bulk material into the transport bin through the reduced pressure region.

A bulk material transport system includes one or more bulk material transport bins, weighing platforms, and vehicles arranged in various combinations as bulk material transporters, assemblies, and units. The system is useful for coupling with a bulk material container, forming a reduced pressure region at an inlet of the transport bin, and dispensing bulk material into the transport bin through the reduced pressure region.

A bulk material discharging system includes a transmission station including a transmitting vessel having a transmitting vessel inlet configured to receive bulk material from an outlet of a bulk material transporter, and a transmitting vessel outlet to transmit bulk material therefrom. The system also includes a transporter handling station located operatively upstream of the transmission station and including at least a portion of a transporter handler including at least one carriage with transporter couplings configured to engage corresponding carriage couplings of the bulk material transporter and configured to convey the bulk material transporter over the transmitting vessel.

A bulk material discharging system includes a transmission station including a transmitting vessel having a transmitting vessel inlet configured to receive bulk material from an outlet of a bulk material transporter, and a transmitting vessel outlet to transmit bulk material therefrom. The system also includes a transporter handling station located operatively upstream of the transmission station and including at least a portion of a transporter handler including at least one carriage with transporter couplings configured to engage corresponding carriage couplings of the bulk material transporter and configured to convey the bulk material transporter over the transmitting vessel.

A bulk material handling method includes: a) receiving and pneumatically conveying bulk material via pressurized dilute phase, dense phase, and/or hybrid dilute/dense phase, and/or vacuum drawn conveyance into bulk material containers (a112, c276); b) storing the bulk material in the containers (a112, c276); c) dispensing the bulk material from the containers (a112, c276) into a bulk material transporter (b100); d) transporting the transporter (b100) from the containers to a bulk material transmitting vessel (d240); and e) discharging the bulk material from the transporter (b100) into the transmitting vessel (d240), including releasing the bulk material from the transporter (b100) into the transmitting vessel (d240), and pneumatically transmitting the bulk material out of the transmitting vessel (d240) to downstream bulk material processing equipment. Discharging also may include rejecting the bulk material from the transporter (b100) to a waste container (W). A related system, subsystems, and apparatuses are also disclosed.