Abstract: Presently disclosed is a power production plant that is operable to store and generate power. In a “charge mode” (when electricity price is low), an air separation unit (ASU) cools and liquefies ambient air into liquid oxygen (LOx), which is then stored in a storage vessel. In a “discharge mode” (when electrical price is high), the stored LOx is used by the power production plant to combust a fuel and form a combustion product stream that can be expanded in a turbine to generate power. The power production plant particularly can utilize carbon dioxide as a recycled, circulating or working fluid so that substantially all carbon dioxide produced in the power production can be captured.

Abstract: An apparatus is used for determining at least one parameter relating to an elongate member disposed within a vessel. The apparatus includes at least one measurement unit having a light emitting component and a corresponding light receiving component. The light receiving component is positioned apart from the light emitting component such that the elongate member is positionable between the light emitting component and the light receiving component. Additionally, the light emitting component is adapted to emit light towards the light receiving component, and the light receiving component is adapted to generate a signal corresponding to the light received from the light emitting component. A method for determining at least one parameter relating to the elongate member disposed within the vessel is also provided.

Abstract: A filter assembly includes a housing and filter elements. The housing includes internal chambers between first and second parallel outside surfaces, fluid inlet bores, and fluid outlet bores. Each internal chamber includes a filter element that partitions the internal chamber into an inlet chamber section and an outlet chamber section. The housing establishes a plurality of fluid flow channels from the inlet bores, through the inlet chamber sections, through the filter elements, through the outlet chamber sections and to the outlet bores, respectively. Each fluid channel includes a transverse fluid flow component in the inlet chamber section and the outlet chamber section. The filter assembly may be loaded into a filtering apparatus such that a plurality of separate fluid flow channels is established through the filter assembly.

Abstract: An apparatus for holding a contact lens during in vitro testing includes a first support member, a second support member, an alignment rod, and a cage member. The first support member includes a first end cap and a body portion. The body portion includes grooves formed in a lateral surface extending from the first end cap. The alignment rod is configured for interconnecting the body portion and a second end cap of the second support member. The cage member is positionable about the body portion between the first and second end caps, and includes an inner surface, an outer surface, and a plurality of openings between the inner surface and the outer surface. The inner surface and the lateral surface cooperatively define an annular space therebetween and a plurality of fluid flow paths between the inner space and the openings. The annular space is configured for receiving the contact lens.

Abstract: A vessel includes a cylindrical section, a bottom section, a lower ring, and an upper ring. The cylindrical section includes an inside and, an outside vessel surfaces, an upper end region terminating at a rim circumscribing a vessel opening, a vessel groove formed at the outside vessel surface in the upper end region, and a lower end region axially spaced from the upper end region. The bottom section is disposed at the lower end region. The lower ring includes annular lateral and an annular flange portions. The lateral portion is disposed in the vessel groove and includes an outer lateral surface concentric with the inside vessel surface. The flange portion includes an upper and a lower flange surfaces perpendicular to the inside vessel surface. The upper ring includes an inner section extending over at least a portion of the rim, and an outer section securely engaging the upper flange surface.

Abstract: A vessel includes a cylindrical section coaxially disposed about a central axis of the vessel. The cylindrical section includes an inside vessel surface, an outside vessel surface opposing the inside vessel surface, an upper end region circumscribing a vessel opening, and a lower end region axially spaced from the upper end region. A bottom section is disposed at the lower end region. A flange is coaxially disposed about the central axis and extends radially outward from the outside vessel surface at the upper end region. The flange includes a bottom surface facing generally toward the lower end region and perpendicular to the inside vessel surface. A ring may be coaxially disposed about the central axis and provide the bottom surface. An annular shoulder may protrude from the outside vessel surface, and may be spaced from or integrally adjoined to the flange.

Abstract: A filter assembly includes a housing and filter elements. The housing includes internal chambers between first and second parallel outside surfaces, fluid inlet bores, and fluid outlet bores. Each internal chamber includes a filter element that partitions the internal chamber into an inlet chamber section and an outlet chamber section. The housing establishes a plurality of fluid flow channels from the inlet bores, through the inlet chamber sections, through the filter elements, through the outlet chamber sections and to the outlet bores, respectively. Each fluid channel includes a transverse fluid flow component in the inlet chamber section and the outlet chamber section. The filter assembly may be loaded into a filtering apparatus such that a plurality of separate fluid flow channels is established through the filter assembly.

Abstract: An apparatus for holding a contact lens during in vitro testing includes a first support member, a second support member, an alignment rod, and a cage member. The first support member includes a first end cap and a body portion. The body portion includes grooves formed in a lateral surface extending from the first end cap. The alignment rod is configured for interconnecting the body portion and a second end cap of the second support member. The cage member is positionable about the body portion between the first and second end caps, and includes an inner surface, an outer surface, and a plurality of openings between the inner surface and the outer surface. The inner surface and the lateral surface cooperatively define an annular space therebetween and a plurality of fluid flow paths between the inner space and the openings. The annular space is configured for receiving the contact lens.

Abstract: An apparatus is used for determining at least one parameter relating to an elongate member disposed within a vessel. The apparatus includes at least one measurement unit having a light emitting component and a corresponding light receiving component. The light receiving component is positioned apart from the light emitting component such that the elongate member is positionable between the light emitting component and the light receiving component. Additionally, the light emitting component is adapted to emit light towards the light receiving component, and the light receiving component is adapted to generate a signal corresponding to the light received from the light emitting component. A method for determining at least one parameter relating to the elongate member disposed within the vessel is also provided.

Abstract: A vessel includes a cylindrical section, a bottom section, a lower ring, and an upper ring. The cylindrical section includes an inside and, an outside vessel surfaces, an upper end region terminating at a rim circumscribing a vessel opening, a vessel groove formed at the outside vessel surface in the upper end region, and a lower end region axially spaced from the upper end region. The bottom section is disposed at the lower end region. The lower ring includes annular lateral and an annular flange portions. The lateral portion is disposed in the vessel groove and includes an outer lateral surface concentric with the inside vessel surface. The flange portion includes an upper and a lower flange surfaces perpendicular to the inside vessel surface. The upper ring includes an inner section extending over at least a portion of the rim, and an outer section securely engaging the upper flange surface.

Abstract: A vessel includes a cylindrical section coaxially disposed about a central axis of the vessel. The cylindrical section includes an inside vessel surface, an outside vessel surface opposing the inside vessel surface, an upper end region circumscribing a vessel opening, and a lower end region axially spaced from the upper end region. A bottom section is disposed at the lower end region. A flange is coaxially disposed about the central axis and extends radially outward from the outside vessel surface at the upper end region. The flange includes a bottom surface facing generally toward the lower end region and perpendicular to the inside vessel surface. A ring may be coaxially disposed about the central axis and provide the bottom surface. An annular shoulder may protrude from the outside vessel surface, and may be spaced from or integrally adjoined to the flange.

Abstract: A dissolution test vessel configured for direct vessel heating includes a lateral wall, a resistive heating element, and a temperature-sensing element. The resistive heating element and the temperature-sensing element are bonded directly to the lateral wall, and may be formed by dispensing flowable materials onto the lateral wall. The resistive heating element includes a contiguous first heating element end, heating element section, and second heating element end. The temperature-sensing element includes a contiguous first sensing element end, sensing element section, and second sensing element end. The vessel may communicate with a heater control system, which may be provided with a dissolution test apparatus at which the vessel is mounted.

Abstract: A vessel includes a cylindrical section, a bottom section, a flange, and a shoulder between the flange and the bottom section. The shoulder extends from an outside vessel surface and is concentric with an inside vessel surface relative to a central axis of the vessel. The vessel may be mounted at a dissolution test apparatus by inserting the vessel in an aperture such that the shoulder abuts an inside edge defining the vessel plate. The concentric shoulder enables the vessel to be centered in the aperture, or relative to an instrument inserted in the vessel along the central axis.

Abstract: A vessel includes a cylindrical section, a bottom section, and a shoulder. The shoulder extends from an outside vessel surface and is concentric with an inside vessel surface relative to a central axis of the vessel. The vessel may be mounted at a dissolution test apparatus by inserting the vessel in an aperture such that the shoulder abuts an inside edge of a vessel support member defining the aperture. The concentric shoulder enables the vessel to be centered in the aperture, or relative to an instrument inserted in the vessel along the central axis. The shoulder may support the vessel at the aperture, or the vessel may include an annular flange above shoulder and the flange may support the vessel.

Abstract: A rotatable vessel includes a rotary member secured to a vessel body and drivable to rotate the vessel about a central axis. The rotary member may be supported by a bearing at a dissolution test apparatus at which the vessel is mounted. The dissolution test apparatus may include a drive system coupled to the rotary member for driving the rotation of the vessel at a desired speed or according to a desired speed profile. The rotation of the vessel agitates media contained in the vessel, thus eliminating the need for a stirring element operating within the vessel.

Abstract: In the present invention, hollow thermoplastic foam tubes of any desired diameter are easily achieved as well as large sheets or planks of thermoplastic foam material in any width and thickness desired by spirally wrapping and fusing a thermoplastic foam profile having a desired size and shape. By employing a thermoplastic foam extruder to produce a profile having a desired cross-sectional shape or configuration, and advancing the profile onto a rotating support member for being wrapped peripherally surrounding the rotating support and continuously bonding the abutting edges of the profile as the profile is spirally wound, a unique spiral forming and product manufacturing procedure and system is realized. By employing this unique spiral forming process, a hollow cylindrical thermoplastic foam tube is formed on a continuous basis, with the length thereof being controlled only by the needs of the customer.