Abstract: A design and construction method for a Collapsible Cryogenic Storage Vessel can be used for storing cryogenic liquids. The vessel provides the ability to be packed for transport in a compact state and erected at the point of use. The vessel can be used multiple times. The vessel's volume can also be adjusted during use to minimize or eliminate head space in the vessel.

Abstract: This invention describes novel design and construction method for inflatable, pressure intensifier equipment that can be used for processing composites structures. The equipment can be used as a manufacturing and processing platform wherever low pressure and high temperature inputs are required in an enclosed volume.

Abstract: This invention describes a novel design and construction method for a Collapsible Cryogenic Storage Vessel that can be used for storing cryogenic liquids. The vessel provides the ability to be packed for transport in a compact state and erected at the point of use. The vessel can be used multiple times. The vessel's volume can also be adjusted during use to minimize or eliminate head space in the vessel.

Abstract: A lightweight watertight cover that is easily installed and positively secured in place, which provides a reliable seal to prevent flood water from entering openings such as subway ventilation shaft gratings and other porous openings that serve as entry point for flood water.

Abstract: A novel extendible flexible flood barrier manufactured from textile and membrane materials has been developed which comprises a textile/membrane wall and support posts configured to be movable between a stowed position and a deployed position and wherein, in the deployed position, forms a leak-free barrier against flood water or other fluids. The flexible wall is stored in a container on one side of the opening to be protected and extended to the receiver on the opposite of the opening to deploy the barrier. Structural members, such as posts or a building itself will react to the load from the flood water impinging on the wall. Intermediate posts or bollards can be added to lengthen the wall so larger spans can be closed-off with the flexible wall. The flexible wall can be configured for use in many applications including entire buildings, building entrances, transit system passages, such as ventilation shafts or elevator shafts, stairwells, and other openings that can be threatened by flooding.

Abstract: A novel extendible flexible flood barrier manufactured from textile and membrane materials has been developed which comprises a textile/membrane wall and support posts configured to be movable between a stowed position and a deployed position and wherein, in the deployed position, forms a leak-free barrier against flood water or other fluids. The flexible wall is stored in a container on one side of the opening to be protected and extended to the receiver on the opposite of the opening to deploy the barrier. Structural members, such as posts or a building itself will react to the load from the flood water impinging on the wall. Intermediate posts or bollards can be added to lengthen the wall so larger spans can be closed-off with the flexible wall. The flexible wall can be configured for use in many applications including entire buildings, building entrances, transit system passages, such as ventilation shafts or elevator shafts, stairwells, and other openings that can be threatened by flooding.

Abstract: A novel design and construction method for the creation of a deployable flexible flood mitigation wall manufactured from textile and membrane materials. The flexible flood mitigation wall system comprises a textile/membrane wall and support posts configured to be movable between a stowed position and a deployed position and wherein, in the deployed position, the wall forms a leak-free barrier against flood water or other fluids. A series of posts that are manually deployed is used to support the fabric wall when hydrostatically challenged, and transfer loads to the ground. The wall is stored at the point of use in a surface box or trench box and keeps the loading from the flood water off the building, structure or equipment being protected.

Abstract: This invention describes novel design and construction methoc for inflatable, pressure intensifier equipment that can be used for processing composites structures. The equipment can be used as a manufacturing and processing platform wherever low pressure and high temperature inputs are required in an enclosed volume.

Abstract: A lightweight watertight cover that is easily installed and positively secured in place, which provides a reliable seal to prevent flood water from entering openings such as subway ventilation shaft gratings and other porous openings that serve as entry point for flood water.

Abstract: A novel design and construction method for the creation of a Deployable Flexible Flood Mitigation Device manufactured from textile and membrane materials. The Flexible Flood Mitigation Device comprises a textile/membrane panel configured to be movable between an opened position and a closed position, wherein in the closed position, the panel forms a barrier against flood water; and a spool that is manually or electrically operated is used to move the panel from the closed position to the opened position. The spool can also be eliminated and the panel can be manually folded for storage. The Flexible Flood Mitigation Device can be configured for use in many applications including subway tunnels, vehicular tunnels, stairwells, ventilation shafts, and other openings that can be threatened by flooding. It can be used in any orientation (vertical, horizontal or at an angle with respect to gravity), and can stop fluids approaching from either side. It can also be shaped to fit any opening.

Abstract: A novel design and construction method for the creation of a deployable flexible flood mitigation wall manufactured from textile and membrane materials. The flexible flood mitigation wall system comprises a textile/membrane wall and support posts configured to be movable between a stowed position and a deployed position and wherein, in the deployed position, the wall forms a leak-free barrier against flood water or other fluids. A series of posts that are manually deployed is used to support the fabric wall when hydrostatically challenged, and transfer loads to the ground. The wall is stored at the point of use in a surface box or trench box and keeps the loading from the flood water off the building, structure or equipment being protected.

Abstract: A novel design and construction method for the creation of a Deployable Flexible Flood Mitigation Device manufactured from textile and membrane materials. The Flexible Flood Mitigation Device comprises a textile/membrane panel configured to be movable between an opened position and a closed position, wherein in the closed position, the panel forms a barrier against flood water; and a spool that is manually or electrically operated is used to move the panel from the closed position to the opened position. The spool can also be eliminated and the panel can be manually folded for storage. The Flexible Flood Mitigation Device can be configured for use in many applications including subway tunnels, vehicular tunnels, stairwells, ventilation shafts, and other openings that can be threatened by flooding. It can be used in any orientation (vertical, horizontal or at an angle with respect to gravity), and can stop fluids approaching from either side. It can also be shaped to fit any opening.