A container for use with a vacuum truck includes a container body. The container body defines a door opening and a container closure including a door panel sized to fit the door opening. The door panel is hingedly attached relative to rear frame elements at the hinge side and is movable to occupy the door opening. The door panel defines a drain port under a horizontal beam. The drain port includes a stopcock having an open and a closed state. The stopcock is selectably movable from the open to the closed state or from the closed to the open state. The container body defines at least two additional ports situated above the midpoints of the frames and includes fittings to engage vacuum hoses such that any volume the vacuum truck draws through one of the hoses, the container body draws a corresponding volume through the other of the two ports.

Systems, methods and apparatuses for inspecting a tank containing a flammable fluid are provided. A vehicle configured to inspect the tank can include a propeller, a battery, a control unit, an inspection device, and a ranging device. The battery provides power to the propeller, the control unit, the inspection device, and the ranging device. The control unit generates a map of the tank. The control unit determines a first position of the vehicle on the map of the tank. The propeller moves the vehicle through the flammable fluid in the tank. The inspection device determines a quality metric of a portion of the tank. The control unit causes the propeller to move the vehicle from the first position to a second position within the tank. The control unit determines the quality metric for the portion of the tank at the second position within the tank, and stores the quality metric.

A bulk fluid storage container includes a frame assembly having a lower rectangular frame, first and second wheel assemblies extending from opposite ends of the lower rectangular frame, and an upper rectangular frame member arranged in spaced relation to the lower rectangular frame member by a plurality of vertically extending posts. The bulk fluid storage container also includes a fluid storage vessel having first and second end walls held in spaced relation by first and second side walls, a top wall and a bottom wall, which defines a fluid storage volume. A baffle assembly having a plurality of baffle plates is disposed in a space relationship in the fluid storage volume. The frame assembly provides an exoskeletal structure which surrounds the fluid storage vessel and is configured to support a second bulk fluid storage container in a vertically stacked relationship.

A closure assembly is disclosed for a work machine having a supply tank with a tank opening. The closure assembly has a lid and lift, actuator and latch mechanisms. When the closure assembly is attached to the tank, the lift mechanism is configured to support the lid off of the tank opening. The actuator mechanism mounts to the lid to move the lid with respect to the tank opening between first and second positions in which in the first position the lid overlies the tank opening and in the second position the lid is substantially clear of the tank opening. The latch mechanism may be moved into a latched orientation in which when the lid is in the first position the latch mechanism latches the lid into engagement with the tank opening.

A spill containment system for container tanks which include a liquid container and a steel frame surrounding the liquid container. The overall dimensions of the container tank are approximately twenty feet long, eight feet wide and eight and a half feet high. Beneath one or more stacked container tanks is a containment pan assembly including a liquid-tight pan having an interior capable of holding at least a portion of the contents of one liquid container. The containment pan assembly has an upper rectangular section that supports the container tanks and also has a length of about twenty feet and a width of eight feet. However, the entire height of the containment pan assembly is between eight inches and twenty-four inches. Additional similarly constructed containment pan assemblies are arranged adjacent the first assembly with hoses interconnecting the interiors of the several liquid-tight pans of the several containment pan assemblies.

The invention is based on using existing approved tanks and shipping containers for transportation of liquids. It is a combination rotomolded plastic tanks customized for industrial, petrochemical and agricultural applications placed in a secured standard shipping container (20′/40′/53′). As well as custom outfitted with inlets and outlet for top and side filling and extraction from the bottom side. The tanks are equipped to be bolted on the floor or braced from the sides of the container. Each tank is elliptically shaped outfitted with four legs for stability. The top center of the tank has an inlet which also functions as ventilation for the tank. The inlets are custom made to ensure easy access for top loading and side loading purposes. The extraction will be from the bottom of the tank and run to the exit access doors to the side of the container.

A heavy duty container includes a plastic base having a plurality of vertical corrugations. A separate plastic liner is placed inside the base. The liner is smooth to allow materials to fall out easy and not catch or build up in corners. The container can be moved with a fork lift and serviced with a front loader truck.

This invention relates to a transportable modular container system for fluid freight. The transportable modular container system comprises a container module including a reservoir configured to hold a fluid; an adjustable support for the container module, removably securable to a load area of a freight carrying transport and reciprocatingly adjustable between proximate and distal positions, the container module being located relatively closer to the load area in the proximate position than in the distal position, and wherein a zone for secondary freight is defined between the container module and the load area when the adjustable support is in the distal position and removably secured to the load area of the freight carrying transport; and a removable fluid flow control module for controlling fluid flow of the fluid between an external reservoir and the container module reservoir and releasably connectable to the container module.

A walking mud handling system may include a walking mud tank and a plurality of hydraulic walkers coupled to the walking mud tank. Each hydraulic walker may include a walking foot, a hydraulic lift, and a sliding actuator. The hydraulic lift may include a hydraulic cylinder coupled to the walking foot such that extension of the hydraulic cylinder extends the walking foot into contact with the ground. The sliding actuator may include one or more hydraulic cylinders coupled to the walking foot such that extension of the sliding actuator moves the walking foot laterally relative to the hydraulic lift.

A method of transporting waxy crude hydrocarbon includes: providing a container having an internal chamber with at least one port for receiving flowable waxy crude, wherein the container is provided at a refinery location; filling the internal chamber of the container with a filling system for loading the waxy crude hydrocarbon into the container; allowing the waxy crude hydrocarbon to cool and solidify into a non-flowable state; transporting the container having the non-flowable waxy crude hydrocarbon with at least one transport vehicle, wherein the transporting is performed without actively heating the waxy crude hydrocarbon with an active heating system, wherein the transporting is along a transportation route having a beginning at the refinery location and an ending; heating the waxy crude hydrocarbon at the ending of the transportation route until flowable; and removing the flowable waxy crude hydrocarbon from the container with an emptying system.