Abstract: In one embodiment, a method for detecting contaminants in a liquid comprises: contacting a sensor with a liquid, generating electrical information based upon a concentration of the contaminant in the liquid, transmitting the electrical information to a controller, and determining the concentration of a contaminant in the liquid. The sensor can comprise a film, a purge chamber, and a transducer, which are configured such that a first surface of the film is in fluid communication with the liquid and the purge chamber is in fluid communication with a second surface of the film that is opposite the first surface, and wherein the transducer is in fluid communication with the purge chamber.

Abstract: A sensing device for sensing one or more conditions inside a container is provided. The sensing device comprises a radio frequency based sensor; a support for positioning the sensor in operative proximity to the inside of the container, and a pick-up coil in operative association with the sensor.

Abstract: A method for detecting contaminants in a liquid is provided. The method can include filling at least a portion of a sample container interior chamber with a liquid sample and submerging a sensor probe of a hand-held portable sensing device in a liquid sample. The method can additionally include sensing an electrical conductivity of the liquid sample utilizing at least one conductivity sensor and automatically selecting a particular one of a plurality of contaminant concentration detection (CCD) algorithms based on the sensed conductivity. The method can further include setting a sensitivity of at least one ionic species sensor to a sensitivity level particular to the selected CCD algorithm and sensing non-desired contaminants in the liquid sample utilizing the at least one ionic species sensor. A concentration of the non-desired contaminant in the liquid sample is then determined in accordance with the selected CCD algorithm.

Abstract: A sensing device adapted to detect environmental changes and/or an analyte is provided. The sensing device comprising radio frequency sensor circuitry, a protection material disposed on the radio frequency sensor circuitry, and a metallic layer disposed on the protection material. A detection system for detecting an environmental change or an analyte in an article is provided.

Abstract: A boiling water reactor includes a reactor pressure vessel having a feedwater inlet for the introduction of recycled steam condensate and/or makeup coolant into the vessel, and a steam outlet for the discharge of produced steam for appropriate work. A fuel core is located within a lower area of the pressure vessel. The fuel core is surrounded by a core shroud spaced inward from the wall of the pressure vessel to provide an annular downcomer forming a coolant flow path between the vessel wall and the core shroud. A probe system that includes a combination of conductivity/resistivity probes and/or one or more time-domain reflectometer (TDR) probes is at least partially located within the downcomer. The probe system measures the coolant level and flow velocity within the downcomer.

Abstract: In one embodiment, a method for detecting contaminants in a liquid comprises: contacting a sensor with a liquid, generating electrical information based upon a concentration of the contaminant in the liquid, transmitting the electrical information to a controller, and determining the concentration of a contaminant in the liquid. The sensor can comprise a film, a purge chamber, and a transducer, which are configured such that a first surface of the film is in fluid communication with the liquid and the purge chamber is in fluid communication with a second surface of the film that is opposite the first surface, and wherein the transducer is in fluid communication with the purge chamber.

Abstract: An outlet valve for a melt-containing vessel includes a lower insert piece mounted in the base of the vessel having an outlet bore passing therethrough from the inside to the outside of the vessel, and an elongate shaft located above and pressed down upon the lower insert piece. The shaft has a lower face mating with an upper face of the lower insert piece and is rotatable relative to the lower insert piece about a generally vertical axis. The bore through the lower insert piece is offset, at least at its upper end, from the axis of rotation. The shaft has a side opening at the lower end thereof capable of aligning with the top of the bore through the lower insert piece in at least one rotational position.