A material handling methodology for forming cells of material includes a series of mobile telescoping conveyors feeding a mobile bridge conveyor and mobile radial stacker using a set of mobile bridge transfer conveyors. The method involves transferring material from an infeed point to a cell area in a systematic manner that allows for stacking each cell continuously with no interruption to material flow.

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.

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.

Methods, apparatuses, devices, and computer program products are disclosed for container transportation. An example system includes a conveyor network that includes a plurality of conveyors and each conveyor supports one or more containers thereon. Each conveyor defines a conveyor length and a conveyor operating speed. The system further includes a computing device operably coupled to the conveyor network. The computing device receives a starting location and a destination location of a first container within the conveyor network and receives an operating density for each conveyor in the conveyor network. The computing device determines a first travel path for the first container between the starting location and the destination location based upon the conveyor length, the conveyor operating speed, and the operating density for each conveyor in the conveyor network. The first travel path minimizes a total travel time for the first container between the starting location and the destination location.

The invention provides a management system of coal and/or steelmaking dust being managed outdoors. The management system includes an imaging unit, a threshold information acquiring unit, and a determining unit. The imaging unit is configured to perform imaging of heat distribution image information indicating a heat distribution image of a surface layer of a pile of the coal and/or steelmaking dust from a position where imaging of an entire surface layer of the pile can be performed. The threshold information acquiring unit is configured to acquire threshold information indicating a threshold of a temperature of the surface layer of the pile. The determining unit is configured to determine heat generation of the pile based on the heat distribution image information and the threshold information.

The invention provides a management system of coal and/or steelmaking dust being managed outdoors. The management system includes an imaging unit, a threshold information acquiring unit, and a determining unit. The imaging unit is configured to perform imaging of heat distribution image information indicating a heat distribution image of a surface layer of a pile of the coal and/or steelmaking dust from a position where imaging of an entire surface layer of the pile can be performed. The threshold information acquiring unit is configured to acquire threshold information indicating a threshold of a temperature of the surface layer of the pile. The determining unit is configured to determine heat generation of the pile based on the heat distribution image information and the threshold information.

A method for storing a modified coal includes a pile forming step of forming a pile by stacking a blended coal of an agglomerate-shaped coal and a powdery modified coal. The modified coal has a content of particles having a particle diameter of 2 mm or less of 35% by mass or more. The pile formed in the pile forming step has a packing density of 1.0 g/cm.sup.3 or more.

A method for storing a modified coal includes a pile forming step of forming a pile by stacking a blended coal of an agglomerate-shaped coal and a powdery modified coal. The modified coal has a content of particles having a particle diameter of 2 mm or less of 35% by mass or more. The pile formed in the pile forming step has a packing density of 1.0 g/cm.sup.3 or more.

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.