Abstract: Disclosed is a pit cover and method of installing the same. The pit cover includes a plate having a hole defining an area. A block having a threaded hole may be affixed to a bottom surface of the plate such that the threaded hole aligns with the area. A support is associated with the foundation and a groove is defined by one of the pit cover or the support. A protrusion is defined by the other one of the pit cover or the support. The groove narrows from a first width towards a second width. The first width is disposed relative to the second width such that insertion of the protrusion into the groove causes an end of the protrusion to pass the first width prior to passing the second width. The protrusion interacts with the groove to align the pit cover at a predetermined position relative to the foundation.

Abstract: The present disclosure relates generally to carbon fibers having high tensile strength and modulus of elasticity, as well as a process for the manufacture of such carbon fiber. The process comprises spinning a polymer/solvent solution into a solvent/water bath in the range of 78%-85% solvent, thereby producing a dense fiber structure, and subsequently carbonizing the polymer precursor fiber at a lower than typical carbonization temperature to form carbon fibers.

Abstract: In one embodiment, the invention utilizes computer models to calculate predicted spectral estimates that may be encountered during a hydraulic fracturing operation. Seismic events generated by hydraulic fracturing are mapped and displayed upon a graphic user interface. Spectral attributes of selected seismic wave field data from the fracture operation are derived and compared to predicted spectral estimates that match one or more characteristics of the formation. The comparison may be utilized to generate a predicted hydrocarbon content for the fracture zone of the formation and to adjust or alter the hydraulic fracturing operation in order to maximize hydrocarbon recovery.

Abstract: The present disclosure relates generally to systems, devices and methods for disinfection of space and equipment. In particular, the present disclosure relates to systems, devices and methods, such as rolling enclosures, which use light sources, such as ultraviolet (UV) light, and more specifically UV-C light, to disinfect larger scale equipment or spaces. Systems and methods of the present disclosure are particularly useful in medical facilities for treating medical equipment or spaces, where the prevalence of pathogens requires frequent disinfecting.

Abstract: A charged particle detector array includes one or more pairs of super modules, one super module in a pair of super modules is positioned above a volume of interest (VOI), and the other super module in the pair of super modules is positioned below the VOI. This calibration technique first calibrates individual super modules in the one or more pairs of super modules while treating each super module being calibrated as a rigid body. Each super module in the one or more pairs of super modules further includes multiple vertically-stacked modules, and each module in the multiple vertically-stacked modules is composed of multiple layers of drift tubes. The calibration technique then calibrates individual modules in each of the super modules while treating each module being calibrated as a rigid body. Next, the calibration technique calibrates individual drift tubes in each layer of the modules.

Abstract: Methods, devices, systems and computer program products produce and utilize improved momentum estimates for charged particles such as electrons and muons. One method for measuring momentum includes obtaining charged particle tomographic data at one or more charged particle position detectors corresponding to scattering angles of charged particles that pass through an object volume. The distribution of scattering angles associated with the charged particles is determined using measured data collected from the position detectors, based on deviations of local trajectories of the charged particles in one or more planes relative to a reference trajectory. The method also includes determining a length of the scattering material based on the characteristics of the position detectors and the charged particles' angle of incidence on the position detectors, and obtaining charged particle momentum estimates based on the determined distribution of scattering angles and the length of the scattering material.

Abstract: The present application includes embodiments for a belt adjustment system. The belt adjustment system can be configured to engage a belt comprising a plurality of belt teeth. The belt engagement system can include a buckle portion that includes a belt clamp configured to couple the belt to the buckle, a lever pivotally movable between a first position and a second position, and a belt-engaging tab, the tooth-engaging tab positionable between a tooth-engaging position and a tooth-disengaging position responsive to the position of the lever on. The belt adjustment system can include a tool housing having a first wall and a second wall that form a slot. A tool comprising a distal end and a proximal end can be coupled to the tool housing, the tool positionable within the slot between a closed position and an open position.

Abstract: Systems and methods are disclosed for notifying users of vehicle conditions. According to certain embodiments, the system comprises at least one processor configured to determine whether an ambient temperature associated with a vehicle exceeds a temperature threshold and detect a sound associated with the vehicle. The at least one processor is further configured to output a notification based on the determined ambient temperature and detected sound.

Abstract: Described herein are antibody conjugates and methods of making antibody conjugates.

Abstract: The present invention provides for separation of bacterial species and serotypes using electrophoretic methods.

Abstract: The present disclosure relates generally to carbon fibers having high tensile strength and modulus of elasticity, as well as a process for the manufacture of such carbon fiber. The process comprises spinning a polymer/solvent solution into a solvent/water bath in the range of 78%-85% solvent, thereby producing a dense fiber structure, and subsequently carbonizing the polymer precursor fiber at a lower than typical carbonization temperature to form carbon fibers.

Abstract: A belt adjustment system includes a belt; a plurality of belt teeth carried by the belt; a belt clamp carried by the belt; a buckle carried by the belt clamp, the buckle accommodating the belt; a lever pivotally carried by the buckle; a tooth-engaging tab carried by the lever, the tooth-engaging tab positional between a tooth-engaging position wherein the tooth-engaging tab engages one of the plurality of belt teeth and a tooth-disengaging position wherein the tooth engaging tab disengages one of the plurality of belt teeth responsive to pivoting of the lever on the buckle; and a tab biasing mechanism normally biasing the tooth-engaging tab in the tooth-engaging position.

Abstract: A belt includes an inside belt surface, a belt coating layer provided on the inside belt surface and a plurality of belt teeth in the belt coating layer. A belt adjustment system and a belt fabrication method are also disclosed.

Abstract: Systems and methods are disclosed for notifying users of vehicle conditions. According to certain embodiments, the system comprises at least one processor configured to determine whether an ambient temperature associated with a vehicle exceeds a temperature threshold and detect a sound associated with the vehicle. The at least one processor is further configured to output a notification based on the determined ambient temperature and detected sound.

Abstract: Methods, devices, systems and computer program products produce and utilize improved momentum estimates for charged particles such as electrons and muons. One method for measuring momentum includes obtaining charged particle tomographic data at one or more charged particle position detectors corresponding to scattering angles of charged particles that pass through an object volume. The distribution of scattering angles associated with the charged particles is determined using measured data collected from the position detectors, based on deviations of local trajectories of the charged particles in one or more planes relative to a reference trajectory. The method also includes determining a length of the scattering material based on the characteristics of the position detectors and the charged particles' angle of incidence on the position detectors, and obtaining charged particle momentum estimates based on the determined distribution of scattering angles and the length of the scattering material.

Abstract: A charged particle detector array includes one or more pairs of super modules, one super module in a pair of super modules is positioned above a volume of interest (VOI), and the other super module in the pair of super modules is positioned below the VOI. This calibration technique first calibrates individual super modules in the one or more pairs of super modules while treating each super module being calibrated as a rigid body. Each super module in the one or more pairs of super modules further includes multiple vertically-stacked modules, and each module in the multiple vertically-stacked modules is composed of multiple layers of drift tubes. The calibration technique then calibrates individual modules in each of the super modules while treating each module being calibrated as a rigid body. Next, the calibration technique calibrates individual drift tubes in each layer of the modules.

Abstract: The present invention provides for separation of bacterial species and serotypes using electrophoretic methods.