Abstract: There is disclosed a liquid filter system that includes a liquid filter apparatus configured to self-clean without removal of the filter apparatus from the filter system. The filter apparatus uses both a filter media for filtering solids as well as a spin motion imparted to fluid being filtered so that centrifugal force can remove solids from the liquid being filtered. The liquid filter system also includes a gas pulse nozzle in fluid communication with the liquid filter apparatus and is configured to flow gas into the filter media to expel water and debris trapped in the filter media without removing the filter media from the filter system.

Abstract: A method for managing a metrology system includes receiving a part, identifying, with a processing device, a part type associated with the part, retrieving, with the processing device, test rule logic associated with the part type from a database, retrieving, with the processing device, measurement data associated with the identified part type, processing, with the processing device, the measurement data, applying, with the processing device, the test rule logic to the processed measurement data to determine whether the part should be measured, outputting the part responsive to determining that the part should not be measured, and incrementing, with the processing device, a counter and saving a value of the counter in the database responsive to outputting the part responsive to determining that the part should not be measured.

Abstract: There is disclosed a liquid filter system that includes a liquid filter apparatus configured to self-clean without removal of the filter apparatus from the filter system. The filter apparatus uses both a filter media for filtering solids as well as a spin motion imparted to fluid being filtered so that centrifugal force can remove solids from the liquid being filtered. The liquid filter system also includes a gas pulse nozzle in fluid communication with the liquid filter apparatus and is configured to flow gas into the filter media to expel water and debris trapped in the filter media without removing the filter media from the filter system.

Abstract: There is disclosed a method and apparatus for treating fluid in a fluid treatment system with self-cleaning filters. The liquid treatment system includes a tank defining an interior volume of at least 25 gallons. The tank includes a gravity settling portion proximate a lower end of the tank and generally configured in a frustoconical shape. A self-cleaning filter device is coupled to a top portion of the tank. The self-cleaning filter device is configured to filter out solids from fluid entering the tank and return filtered solids to the tank. Solids in the fluid, entering the tank, are removed from the fluid both by the filter device and by gravity.

Abstract: A method for managing a metrology system includes receiving a part, identifying, with a processing device, a part type associated with the part, retrieving, with the processing device, test rule logic associated with the part type from a database, retrieving, with the processing device, measurement data associated with the identified part type, processing, with the processing device, the measurement data, applying, with the processing device, the test rule logic to the processed measurement data to determine whether the part should be measured, outputting the part responsive to determining that the part should not be measured, and incrementing, with the processing device, a counter and saving a value of the counter in the database responsive to outputting the part responsive to determining that the part should not be measured.

Abstract: A contaminant adsorption is provided that includes a self-assembled monolayers on mesoporous supports (SAMMS) on a lattice support structure such as sintered metal wire mesh. Individual wire fibers of the sintered wire mesh may have a film coating of mesoporous material that is functionalized for a target metal. The mesh material is formed into filtration elements with or without particulate filtration media. Systems employing such filtration elements in one or multiple stages are also disclosed with an optional acid was stripping system for regenerating SAMMS and to facilitate reclamation of contaminants that can be refined into usable commercial materials.

Abstract: A system for use in the treatment of contaminated fluid is provided. The system includes a source from which contaminated fluid may be introduced into the system, and a reservoir for an adsorbent material designed to remove contaminants from the fluid. The system also includes a reactor within which the adsorbent material and the contaminated fluid may be accommodated for treatment. A separation device may further be included for removing spent adsorbent materials from the system. A method for treating contaminated fluid is also provided.

Abstract: An apparatus for use in the treatment of contaminated fluid is provided. The apparatus includes a body portion, made from a mixture of a waste adsorbent material and a binder material, for use in the removal of contaminants. The adsorbent material may be a nanosorbent material manufactured from self-assembled monolayers on mesoporous supports (SAMMS). The binder material, on the other hand, may include any thermoplastic material capable of binding the adsorbent material together to subsequently provide a composite material that can be shaped into a block. A method for treatment of contaminated fluid is also provided.

Abstract: A contaminant adsorption is provided that includes a self-assembled monolayers on mesoporous supports (SAMMS) on a lattice support structure such as sintered metal wire mesh. Individual wire fibers of the sintered wire mesh may have a film coating of mesoporous material that is functionalized for a target metal. The mesh material is formed into filtration elements with or without particulate filtration media. Systems employing such filtration elements in one or multiple stages are also disclosed with an optional acid was stripping system for regenerating SAMMS and to facilitate reclamation of contaminants that can be refined into usable commercial materials.

Abstract: An apparatus for use in the treatment of contaminated fluid is provided. The apparatus includes a body portion, made from a mixture of a waste adsorbent material and a binder material, for use in the removal of contaminants. The adsorbent material may be a nanosorbent material manufactured from self-assembled monolayers on mesoporous supports (SAMMS). The binder material, on the other hand, may include any thermoplastic material capable of binding the adsorbent material together to subsequently provide a composite material that can be shaped into a block. A method for treatment of contaminated fluid is also provided.

Abstract: A system for use in the removal of heavy metal contaminants from fluid is provided. The system includes a source from which contaminated fluid may be introduced into the system, a first station for removal by physical separation of a targeted heavy metal contaminant from the flow of fluid, including elemental species of the targeted heavy metal contaminant, and a second station positioned downstream of the first station and in fluid communication therewith for adsorptive separation of the targeted heavy metal contaminant from the fluid flow, including additional amount of the elemental species along with the other species of the targeted heavy metal contaminant. A method for removing heavy metal contaminants from fluid is also provided.

Abstract: An apparatus for use in the treatment of contaminated fluid is provided. The apparatus includes a body portion, made from a mixture of a waste adsorbent material and a binder material, for use in the removal of contaminants. The adsorbent material may be a nanosorbent material manufactured from self-assembled monolayers on mesoporous supports (SAMMS). The binder material, on the other hand, may include any thermoplastic material capable of binding the adsorbent material together to subsequently provide a composite material that can be shaped into a block. A method for treatment of contaminated fluid is also provided.

Abstract: Automated tool recipe verification and correction are disclosed. A tool recipe is intercepted during uploading or downloading of the tool recipe. A determination whether an associated parameter verification set (PVS) template for the tool recipe exists is performed, and if it exists, a determination whether to verify the tool recipe is performed. Each parameters of the tool recipe having an auditable corresponding parameter is compared to the auditable corresponding parameter of the associated PVS template. Where no non-matching parameter sets exist, the tool recipe is verified; otherwise, a determination as to whether of all of the non-matching parameter sets are indicated as modifiable in the associated PVS template is made. If all of the parameters of the non-matching parameter sets are modifiable, then they are modified to match the respective auditable corresponding parameter and the tool recipe is verified, otherwise, the verification is inhibited.

Abstract: Automated tool recipe verification and correction are disclosed. A tool recipe is intercepted during uploading or downloading of the tool recipe. A determination whether an associated parameter verification set (PVS) template for the tool recipe exists is performed, and if it exists, a determination whether to verify the tool recipe is performed. Each parameters of the tool recipe having an auditable corresponding parameter is compared to the auditable corresponding parameter of the associated PVS template. Where no non-matching parameter sets exist, the tool recipe is verified; otherwise, a determination as to whether of all of the non-matching parameter sets are indicated as modifiable in the associated PVS template is made. If all of the parameters of the non-matching parameter sets are modifiable, then they are modified to match the respective auditable corresponding parameter and the tool recipe is verified, otherwise, the verification is inhibited.

Abstract: A mass transfer column is provided with an external shell defining an internal region. Packing elements are positioned within the internal region of the mass transfer column. The packing elements have one or more plates formed from sheet material that has been shaped to form a plurality of corrugations on each side of the plate as a series of peaks separated by valleys. A plurality of apertures are arranged across at least a portion of the plate and a plurality of tangs extend outwardly from the surface of the plate surrounding at least some of the apertures. At least some of the outwardly extending tangs are deformed toward the plate.

Abstract: A vane-type mist eliminator is provided with pocket-like channels extending along the lengths fo the vanes. The pockets allow droplets entrained in a gas stream to impinge and cling to the vane, and then drain, without being re-entrained in the gas stream because they are protected from the gas stream by a portion of the pocket which defines the channel. The device does not increase the pressure drop when compared with a similar device lacking the pockets, and allows for a higher throughput before breakthrough occurs.

Abstract: A mass transfer column is provided with an external shell defining an internal region. Packing elements are positioned within the internal region of the mass transfer column. The packing elements have one or more plates formed from sheet material that has been shaped to form a plurality of corrugations on each side of the plate as a series of peaks separated by valleys. A plurality of apertures are arranged across at least a portion of the plate and a plurality of tangs extend outwardly from the surface of the plate surrounding at least some of the apertures. At least some of the outwardly extending tangs are deformed toward the plate.

Abstract: A vane-type mist eliminator is provided with pocket-like channels extending along the lengths fo the vanes. The pockets allow droplets entrained in a gas stream to impinge and cling to the vane, and then drain, without being re-entrained in the gas stream because they are protected from the gas stream by a portion of the pocket which defines the channel. The device does not increase the pressure drop when compared with a similar device lacking the pockets, and allows for a higher throughput before breakthrough occurs.

Abstract: Disclosed is a method for recovering carboxylic acids having from one to ten carbon atoms, and particularly formic acid, acetic acid and mixtures of formic and acetic acids, from aqueous solutions, in which the aqueous solution is contacted with solvent consisting essentially of mixed trialkylphosphine oxides in counter-current liquid-liquid extraction flow in a contacting step to thereby transfer the acids from the aqueous solution to the solvent, thus producing a raffinate relatively low in acid content and a rich solvent. The rich solvent is preferably dehydrated to separate water therefrom and yield a dehydrated rich solvent. The dehydrated rich solvent then has the acids stripped from it and the resulting lean solvent is then returned to the liquid-liquid extraction step, while the separated acids are split into their constituent components in a distillation operation.

Abstract: Process tower vapor/liquid flow distributor and packing bed comprising a plurality of relatively thin corrugated layers stacked one atop the other. The corrugated sheets are disposed in face to face contact with respective corrugations inclined to the horizontal and facing one another for the countercurrent passage of vapor and liquid therethrough. At least two layers are utilized and rotationally offset for diverting the vapor liquid in two separate directions to effect maximum vapor liquid distribution for countercurrent fluid flow passing therethrough. An improved homogenous mixture of vapor/liquid within the process tower packing sections may thus be provided. The assembly affords optimal pressure drop characteristic while maximizing even vapor/liquid distribution into the packing regions.