Abstract: Disclosed is a blast containment vessel. A body has an opening. An external door is configured to form a seal surrounding the opening when the external door is in a closed position. A yoke is configured to retain the door in the closed position. A first automatic system is configured to automatically move the external door into and out of the closed position. A second automatic system is configured to automatically move the yoke when the external door is in the closed position. During and after a blast event, the body and the external door contain products of the blast event and the seal remains intact.
Abstract: Disclosed is a blast containment vessel. A body has an opening. An external door is configured to form a seal surrounding the opening when the external door is in a closed position. A yoke is configured to retain the door in the closed position. A first automatic system is configured to automatically move the external door into and out of the closed position. A second automatic system is configured to automatically move the yoke when the external door is in the closed position. During and after a blast event, the body and the external door contain products of the blast event and the seal remains intact.
Abstract: Disclosed is a blast containment vessel. A body has an opening. An external door is configured to form a seal surrounding the opening when the external door is in a closed position. A yoke is configured to retain the door in the closed position. A first automatic system is configured to automatically move the external door into and out of the closed position. A second automatic system is configured to automatically move the yoke when the external door is in the closed position. During and after a blast event, the body and the external door contain products of the blast event and the seal remains intact.
Abstract: Disclosed is a blast containment vessel. A body has an opening. An external door is configured to form a seal surrounding the opening when the external door is in a closed position. A yoke is configured to retain the door in the closed position. A first automatic system is configured to automatically move the external door into and out of the closed position. A second automatic system is configured to automatically move the yoke when the external door is in the closed position. During and after a blast event, the body and the external door contain products of the blast event and the seal remains intact.
Abstract: Disclosed is a vessel for storing explosives and containing an explosion which includes a container having a top and a bottom attached to a side wall. The container is cylindrically-shaped. The top and bottom are elliptically-shaped. A base surrounds the bottom to provide support. The top includes at least one exhaust vent. Lifts may be provided on the top of the container for lifting and transporting the vessel. A door on a side of the vessel provides access to an interior of the vessel. A door closing system secures the door during storage or an explosion. Another embodiment of the vessel further includes a liner positioned within the container, defining a gap between the liner and the container. A fragment arresting lining (i.e., sand) fills the gap. Another embodiment of the vessel further includes a layer of insulation between the container and the fragment arresting lining.