A dry bulk tank and a method of carrying a load and discharging a load therefrom. The dry bulk tank includes a tank assembly having a first wall that bounds and defines a first compartment for carrying a load therein and a second wall spaced outwardly from at least a portion of the first wall; wherein a second compartment is defined between the first wall and the second wall. The tank assembly includes an air piping system that is selectively actuated to place the first compartment and the second compartment under a substantially similar or substantially equal air pressure. In one example the air piping system pumps air into the first compartment and the second compartment. In another example the air piping system evacuates air from the first and second compartments.

A tank and a method of carrying a load and discharging a load therefrom. The tank includes a tank having a first wall that bounds and defines a first compartment for carrying a load therein and a second wall spaced outwardly from at least a portion of the first wall; wherein a second compartment is defined between the first wall and the second wall. The tank assembly includes an air piping system that is selectively actuated to place the first compartment and the second compartment under equal air pressure. In one example the air piping system pumps air into the first compartment and the second compartment. In another example the air piping system evacuates air from the first and second compartments.

A tank and a method of holding a load and discharging a load therefrom. The tank includes a first wall that bounds and defines a first compartment for holding a load therein and a second wall spaced outwardly from at least a portion of the first wall; wherein a second compartment is defined between the first wall and the second wall. The tank assembly includes an air piping system that is selectively actuated to place the first compartment and the second compartment under substantially similar or substantially equal air pressure. In one example the air piping system pumps air into the first compartment and the second compartment. In another example the air piping system evacuates air from the first and second compartments.

A transport system for hauling non-hazardous bulk liquids via dry van with a trailer that contains two or more deflatable, flexible bladder tanks that are pressure tested and welded to the trailer bed of the dry van. The bed is pre-lined to avoid puncture. Upon delivery to its destination, the flexible, deflatable bladder tanks are drained completely and deflated, ready for re-use.

A trailer that includes a tank with an enclosed interior space configured to hold fluid. The trailer can include a chassis that supports the tank and wheels for moving to desired locations. The tank can include planar opposing sides with rounded corners. One or more baffles can be located within the interior space. The baffles restrict the movement of the fluid within the interior space while the trailer is being moved between locations. This restriction reduces the forces that the moving fluid exerts on the tank which could cause damage to the tank that could result in leaks and failure.

A trailer for transporting granular material, such as sand or proppant, has a purpose-built shape, and loading and unloading hatches at top and bottom. The trailer includes a hollow vessel for holding granular material. The vessel is enclosed with top and bottom hatches. The vessel has a tapered lower section and a domed upper section, allowing bulk material to be piled and concentrated horizontally below and above the hatches. A chassis extends fore and aft of the vessel, and potentially through an interior of the vessel. The chassis may extend upward from a wheeled section so as to pass through a vertically central part of the vessel. The chassis may also act as a trailer suspension system. The vessel may be made of aluminium and mounted to the steel chassis.

The current disclosure relates to a tank trailer for transporting meat packaging by-products. The tank trailer has a cylindrical body having a sloped rear end. An opening is formed in the sloped rear end, and a gate selectively blocks the opening. A locking mechanism is provided to securely lock the gate to the cylindrical body, thereby sealing the cylindrical body. The sloped rear end forms a chute through which meat by-products can be poured. The chute extends for a distance rearwardly of the trailer's rear wheel assembly.

A transportation trailer can include a cargo tank with a shell that includes an outer wall, an inner wall, and an insulating core between the outer wall and the inner wall. The shell can be unsupported by structural rings, and the cargo tank can be a frameless cargo tank. The cargo tank can be formed by decoiling respective coils of inner-wall material, outer-wall material, and insulating-core material, joining the inner-wall material, the insulating-core material, and the outer-wall material to form a sandwich-type panel, and welding the sandwich-type panel to form the shell.

A mobile cart includes a frame; a front pair of wheels and a rear pair of wheels. At least one carrier is movably attached to the frame and configured to receive a drum thereon. The carrier is movable between a transport position, wherein the carrier is supported upon the frame, and a loading position, wherein the carrier is oriented generally upright. A corresponding at least one motorized drive member is attached to the frame and to the carrier, the motorized drive member being configured, when actuated, to move the corresponding carrier between the transport position and the loading position.

The present invention relates to a self-propelled vessel assembly (3) that includes a self-propelled vehicle (11) that includes an open-box bed (14). The self-propelled vessel assembly (3) further includes, a vessel (50) that is reversibly received (and reversibly resides) within the open-box bed (14) of the self-propelled vehicle (11). The self-propelled vessel assembly (3) additionally includes, a pump assembly (59) that includes at least one pump (62) and at least one conduit (e.g., 71) that is in fluid communication with the interior volume (56) of the vessel (50). The pump assembly (59) resides on a support structure (47) that is reversibly attached to the self-propelled vehicle (11).