In accordance with presently disclosed embodiments, systems and methods for using containers, instead of pneumatic transfer, to move bulk material from a transportation unit to a blender receptacle (e.g., hopper or mixer of a blender) are provided. A transportation unit may deliver multiple containers of bulk material to the well site, where multiple conveyors may deliver the containers to a location proximate the blender receptacle. Openings at the bottom of the containers are arranged adjacent one another so that the load of two containers may be delivered to the tight space occupied by the blender receptacle. Since the transportation unit is able to unload the containers of bulk material without pneumatic transfer, the containers may enable a cleaner and more efficient bulk material transfer at the site.

In accordance with presently disclosed embodiments, systems and methods for using containers, instead of pneumatic transfer, to move bulk material from a transportation unit to a blender receptacle (e.g., hopper or mixer of a blender) are provided. A transportation unit may deliver multiple containers of bulk material to the well site, where multiple conveyors may deliver the containers to a location proximate the blender receptacle. Openings at the bottom of the containers are arranged adjacent one another so that the load of two containers may be delivered to the tight space occupied by the blender receptacle. Since the transportation unit is able to unload the containers of bulk material without pneumatic transfer, the containers may enable a cleaner and more efficient bulk material transfer at the site.

Various embodiments of the present invention are directed towards a system and method for synchronized markers. A multiple-scanner X-ray system includes a belt passing by an upper X-ray scanner and a lower X-ray scanner. An upper belt portion is conveyed in a first direction by the upper X-ray scanner and a lower belt portion is conveyed in a second direction opposite the first direction by the lower X-ray scanner, to obtain upper and lower X-rays. A plurality of X-ray reactive markers are positionally synchronized relative to each other and the belt and conveyed by the belt to cause upper visual marker information, corresponding to a visual appearance of the upper scanned belt section, to be consistent with i) upper X-ray marker information of the upper X-ray, and ii) lower X-ray marker information of the lower X-ray.

Various embodiments of the present invention are directed towards a system and method for synchronized markers. A multiple-scanner X-ray system includes a belt passing by an upper X-ray scanner and a lower X-ray scanner. An upper belt portion is conveyed in a first direction by the upper X-ray scanner and a lower belt portion is conveyed in a second direction opposite the first direction by the lower X-ray scanner, to obtain upper and lower X-rays. A plurality of X-ray reactive markers are positionally synchronized relative to each other and the belt and conveyed by the belt to cause upper visual marker information, corresponding to a visual appearance of the upper scanned belt section, to be consistent with i) upper X-ray marker information of the upper X-ray, and ii) lower X-ray marker information of the lower X-ray.

A system for cooling rolling mill material is provided that includes a conveyor system that receives rolling mill material and passes the rolling mill material through one or more cooling regions. A cooling structure that operates uniformly across the central and edge regions of the conveyor system. The cooling structure uses a first jet of air for cooling the central portion of the rolling mill material. A nozzle deck is positioned on the edge regions of the conveyor system produces a second of jet of air for cooling the edge portions of the rolling mill. The nozzle deck includes one or more adjustable nozzle structures for controlling the air flow produced by the second jet of air by varying the size of their air passage regions.

A system for cooling rolling mill material is provided that includes a conveyor system that receives rolling mill material and passes the rolling mill material through one or more cooling regions. A cooling structure that operates uniformly across the central and edge regions of the conveyor system. The cooling structure uses a first jet of air for cooling the central portion of the rolling mill material. A nozzle deck is positioned on the edge regions of the conveyor system produces a second of jet of air for cooling the edge portions of the rolling mill. The nozzle deck includes one or more adjustable nozzle structures for controlling the air flow produced by the second jet of air by varying the size of their air passage regions.

A method for improving the delivery of items based on the likelihood of shoplifting, theft history, security threat level, and identifying information is presented. The information is stored an online order system that receives data, reads data, and performs computations from a data storage system. The online order system assigns a level of security to the items in order to implement delivery of the items at a specific conveyor belt within a store that is equipped with a pre-delivery alert system that cooperates with the online order system. The pre-delivery alert system produces a specific alert based on the contents of the customer's order.

A method for improving the delivery of items based on the likelihood of shoplifting, theft history, security threat level, and identifying information is presented. The information is stored an online order system that receives data, reads data, and performs computations from a data storage system. The online order system assigns a level of security to the items in order to implement delivery of the items at a specific conveyor belt within a store that is equipped with a pre-delivery alert system that cooperates with the online order system. The pre-delivery alert system produces a specific alert based on the contents of the customer's order.

A load port including: a base as part of a wall partitioning a transportation space from an external space; an opening provided to the base; a door configured to open and close the opening and securing a lid to, and releasing a lid from, a container containing contents; and a first seal member for sealing the space between the base and the container. At least some of the container-side end surface of the door is located nearer to the transportation space than the container-side end part of the first seal member. The load port can keep a surrounding space clean when a FOUP is connected to a casing.

A load port including: a base as part of a wall partitioning a transportation space from an external space; an opening provided to the base; a door configured to open and close the opening and securing a lid to, and releasing a lid from, a container containing contents; and a first seal member for sealing the space between the base and the container. At least some of the container-side end surface of the door is located nearer to the transportation space than the container-side end part of the first seal member. The load port can keep a surrounding space clean when a FOUP is connected to a casing.