Abstract: An apparatus, system and method for the continuous flow extraction, collection and analysis of small amounts of energetic substance/s and their reacted/unreacted residue/s in real time are provided. The apparatus includes an agitator that generates a particulate material from a surface. A vacuum gathers particulate material which is provided to a mixing module. The mixing module creates a supercritical matrix containing the particulate matter. A separator separates and removes waste in the supercritical matrix from the supercritical matrix. Concentrated particulate material from the supercritical matrix is provided to a mass spectrometer for analysis and detection of a target material in proximate real-time. In one embodiment, the separator provides the supercritical matrix to a tube arm. The tube arm is heated to reduce solvent in the supercritical matrix. A collector in the tube arm concentrates particulate material, which is volatilized by a laser.

Abstract: An apparatus, system and method for the continuous flow extraction, collection and analysis of small amounts of energetic substance/s and their reacted/unreacted residue/s in real time are provided. The apparatus includes an agitator that generates a particulate material from a surface. A vacuum gathers particulate material which is provided to a mixing module. The mixing module creates a supercritical matrix containing the particulate matter. A separator separates and removes waste in the supercritical matrix from the supercritical matrix. Concentrated particulate material from the supercritical matrix is provided to a mass spectrometer for analysis and detection of a target material in proximate real-time. In one embodiment, the separator provides the supercritical matrix to a tube arm. The tube arm is heated to reduce solvent in the supercritical matrix. A collector in the tube arm concentrates particulate material, which is volatilized by a laser.

Abstract: An apparatus, system and method for the continuous flow extraction, collection and analysis of small amounts of energetic substance/s and their reacted/unreacted residue/s in real time are provided. The apparatus includes an agitator that generates a particulate material from a surface. A vacuum gathers particulate material which is provided to a mixing module. The mixing module creates a supercritical matrix containing the particulate matter. A separator separates and removes waste in the supercritical matrix from the supercritical matrix. Concentrated particulate material from the supercritical matrix is provided to a mass spectrometer for analysis and detection of a target material in proximate real-time. In one embodiment, the separator provides the supercritical matrix to a tube arm. The tube arm is heated to reduce solvent in the supercritical matrix. A collector in the tube arm concentrates particulate material, which is volatilized by a laser.

Abstract: An apparatus, system and method for the continuous flow extraction, collection and analysis of small amounts of energetic substance/s and their reacted/unreacted residue/s in real time are provided. The apparatus includes an agitator that generates a particulate material from a surface. A vacuum gathers particulate material which is provided to a mixing module. The mixing module creates a supercritical matrix containing the particulate matter. A separator separates and removes waste in the supercritical matrix from the supercritical matrix. Concentrated particulate material from the supercritical matrix is provided to a mass spectrometer for analysis and detection of a target material in proximate real-time. In one embodiment, the separator provides the supercritical matrix to a tube arm. The tube arm is heated to reduce solvent in the supercritical matrix. A collector in the tube arm concentrates particulate material, which is volatilized by a laser.

Abstract: An apparatus, system and method for the continuous flow extraction, collection and analysis of small amounts of energetic substance/s and their reacted/unreacted residue/s in real time are provided. The apparatus includes an agitator that generates a particulate material from a surface. A vacuum gathers particulate material which is provided to a mixing module. The mixing module creates a supercritical matrix containing the particulate matter. A separator separates and removes waste in the supercritical matrix from the supercritical matrix. Concentrated particulate material from the supercritical matrix is provided to a mass spectrometer for analysis and detection of a target material in proximate real-time. In one embodiment, the separator provides the supercritical matrix to a tube arm. The tube arm is heated to reduce solvent in the supercritical matrix. A collector in the tube arm concentrates particulate material, which is volatilized by a laser.

Abstract: A system and method for supercritical fluid enrichment of radioactive isotope/s are disclosed. The method involves pressurizing an outer chamber and an inner centrifugal chamber of a stage to supercritical pressure; supplying material including target isotope/s at supercritical pressure to the inner chamber; spinning the inner chamber to centrifuge the material including target isotope/s; providing a differential pressure between the inner chamber and the outer chamber; wherein windows in the inner chamber enable passage of the target isotope or an undesired isotope from the inner chamber to the outer chamber in response to the differential pressure.

Abstract: A system and method are provided which enable the joining of two materials via ultrasonic welding, including materials normally considered incompatible in traditional ultrasonic welding techniques. The system permits ultrasonic welding of a first material to a second material, the second material including material types normally considered incompatible with the first material and includes an abrader for altering the surface of the material/s to be joined. A first pressure device is operative to vary the position of the abrader and thereby vary the abrasion applied to the materials. An ultrasonic source provides acoustic energy to a weld interface between the materials. A second pressure device is operative to vary the force applied to the interface between the materials while a sensor senses the weld interface temperature.

Abstract: A system and method for supercritical fluid enrichment of radioactive isotope/s are disclosed. The method involves pressurizing an outer chamber and an inner centrifugal chamber of a stage to supercritical pressure; supplying material including target isotope/s at supercritical pressure to the inner chamber; spinning the inner chamber to centrifuge the material including target isotope/s; providing a differential pressure between the inner chamber and the outer chamber; wherein windows in the inner chamber enable passage of the target isotope from the inner chamber to the outer chamber in response to the differential pressure.

Abstract: An apparatus, system and method for the continuous flow extraction, collection and analysis of small amounts of energetic substance/s and their reacted/unreacted residue/s in real time are provided. The apparatus includes an agitator that generates a particulate material from a surface. A vacuum gathers particulate material which is provided to a mixing module. The mixing module creates a supercritical matrix containing the particulate matter. A separator separates and removes waste in the supercritical matrix from the supercritical matrix. Concentrated particulate material from the supercritical matrix is provided to a mass spectrometer for analysis and detection of a target material in proximate real-time. In one embodiment, the separator provides the supercritical matrix to a tube arm. The tube arm is heated to reduce solvent in the supercritical matrix. A collector in the tube arm concentrates particulate material, which is volatilized by a laser.

Abstract: A vessel hull transducer modular mounting system enables transducers to be replaced and upgraded without necessitating the further modification of the hull and thus not necessitating the dry-docking of the vessel. A further feature includes the ability to reduce and dampen acoustic shock impact on the transducer. Another feature includes the ability to extend and retract the transducer which can operate in bottom scan, forward looking, side scan, searchlight, and sweep modes.

Abstract: A system and method are provided which enable the joining of two materials via ultrasonic welding, including materials normally considered incompatible in traditional ultrasonic welding techniques. The system permits ultrasonic welding of a first material to a second material, the second material including material types normally considered incompatible with the first material and includes an abrader for altering the surface of the material/s to be joined. A first pressure device is operative to vary the position of the abrader and thereby vary the abrasion applied to the materials. An ultrasonic source provides acoustic energy to a weld interface between the materials. A second pressure device is operative to vary the force applied to the interface between the materials while a sensor senses the weld interface temperature.

Abstract: A system and method for determining porosity of a material enables rapid testing of materials by detecting test particle penetration. The material is held by a test chamber wherein a test particle solution covers a surface of the material. The test chamber is pressurized to a predetermined pressure, predetermined temperature and for a predetermined time. After the pressure is released the test particle penetration/diffusion into the material is then detected through differential fluorescence of the test particle.

Abstract: A vessel hull transducer modular mounting system enables transducers to be replaced and upgraded without necessitating the further modification of the hull and thus not necessitating the dry-docking of the vessel. A further feature includes the ability to reduce and dampen acoustic shock impact on the transducer. Another feature includes the ability to extend and retract the transducer which can operate in bottom scan, forward looking, side scan, searchlight, and sweep modes.