Processes for recovering a purified aromatic carboxylic acid include contacting a crude aromatic carboxylic acid with hydrogen in the presence of a catalyst in a hydrogenation reactor to form a purified aromatic carboxylic acid; crystallizing the purified aromatic carboxylic acid to form a solid/liquid mixture comprising purified aromatic carboxylic acid solids; filtering the solid/liquid mixture in a rotary pressure filter apparatus to remove a liquid filtrate, washing the solid/liquid mixture in the rotary pressure apparatus with a wash fluid to form a washed solid/liquid mixture, and drying the washed solid/liquid mixture in the rotary pressure apparatus with an inert gas to form a filter cake comprising purified aromatic carboxylic acid solids and a wet gas stream; withdrawing the wet gas stream from the rotary pressure filter apparatus while maintaining the wet gas stream at a pressure above ambient; and recovering the purified aromatic carboxylic acid solids from the filter cake.

A continuous process for filtering a suspension of 2-acrylamido-2-methylpropane sulfonic acid crystals by means of a rotary pressure filter equipped with a drum, a surface of which is provided with cells covered with a filter medium, the drum rotating within a fixed concentric cylinder comprising at least three zones sealed from each other, respectively a filtration zone, a washing zone and a discharge zone, each zone opening onto the cells.

A continuous process for filtering a suspension of 2-acrylamido-2-methylpropane sulfonic acid crystals by means of a rotary pressure filter equipped with a drum, a surface of which is provided with cells covered with a filter medium, the drum rotating within a fixed concentric cylinder comprising at least three zones sealed from each other, respectively a filtration zone, a washing zone and a discharge zone, each zone opening onto the cells.

The present invention is directed to a drilling fluid reclaimer. The reclaimer has at least one adjustable screen assembly for providing a leveling filter for reclaimed drill fluid. Used drill fluid is placed at the screen assembly at the front the of the screen assembly. The at least one screen is vibrated to separate large particulate matter from liquid drilling fluid. A second screen is provided for additional filtering. Large particulate matter is expelled by a chute at the back of the screen assembly. Drilling fluid passing through the screen is reclaimed for use with a drilling system.

The present invention is directed to a drilling fluid reclaimer. The reclaimer has at least one adjustable screen assembly for providing a leveling filter for reclaimed drill fluid. Used drill fluid is placed at the screen assembly at the front the of the screen assembly. The at least one screen is vibrated to separate large particulate matter from liquid drilling fluid. A second screen is provided for additional filtering. Large particulate matter is expelled by a chute at the back of the screen assembly. Drilling fluid passing through the screen is reclaimed for use with a drilling system.

The invention is related to a method and vibratory apparatus for the improved solid-liquid filtration of filter cakes, especially for dewatering finely divided thixotropic filter cakes, with the aid of a vibratory apparatus. Further, the invention relates to a filtration apparatus having a vibratory apparatus as described herein, and to the use of the vibratory apparatus for the solid-liquid filtration of filter cakes.

The present invention is directed to a drilling fluid reclaimer. The reclaimer has at least one adjustable screen assembly for providing a leveling filter for reclaimed drill fluid. Used drill fluid is placed at the screen assembly at the front the of the screen assembly. The at least one screen is vibrated to separate large particulate matter from liquid drilling fluid. A second screen is provided for additional filtering. Large particulate matter is expelled by a chute at the back of the screen assembly. Drilling fluid passing through the screen is reclaimed for use with a drilling system.

The present invention is directed to a drilling fluid reclaimer. The reclaimer has at least one adjustable screen assembly for providing a leveling filter for reclaimed drill fluid. Used drill fluid is placed at the screen assembly at the front the of the screen assembly. The at least one screen is vibrated to separate large particulate matter from liquid drilling fluid. A second screen is provided for additional filtering. Large particulate matter is expelled by a chute at the back of the screen assembly. Drilling fluid passing through the screen is reclaimed for use with a drilling system.

A microparticle filter, textile treatment apparatus, use and method is disclosed. The microparticle filter comprises i) a filter chamber, the filter chamber comprising: an inlet for supplying effluent into the filter chamber and an outlet for filtered effluent to leave the filter chamber; a first set of chamber walls and a second set of chamber walls, wherein the first set of chamber walls and the second set of chamber walls in a first configuration are sealed together so that effluent cannot pass between the first set of chamber walls and the second set of chamber walls, and wherein the first set of chamber walls and the second set of chamber walls in a second configuration provide an opening; ii) a filter cage contained within the filter chamber, wherein the filter cage comprises one or more than one filter medium, the filter medium to filter microparticles from the effluent, and wherein the filter cage is rotatable around an axis, and wherein the filter cage defines an interior volume, and wherein the inlet is arranged to provide effluent to the interior volume of the filter cage and the outlet is arranged to receive filtered effluent from the filter cage; iii) a transfer member rotatable around the axis; iv) an actuator connected to the first set of chamber walls, and one of the filter cage or the transfer member and operable to move between the first configuration and the second configuration; v) a drive unit arranged to rotate the transfer member in at least the second configuration; wherein in the first configuration, the transfer member is located in the interior volume of the filter cage; and wherein in a second configuration, the transfer member is removed from the interior volume of the filter cage along the axis and the transfer member is rotatable to throw transferred filter residue off the transfer member through the opening, and wherein the transfer member comprises a filter residue collector to remove filter residue from the filter medium when the filter is changed from the first configuration from the second configuration.

A microparticle filter, textile treatment apparatus, use and method is disclosed. The microparticle filter comprises i) a filter chamber, the filter chamber comprising: an inlet for supplying effluent into the filter chamber and an outlet for filtered effluent to leave the filter chamber; a first set of chamber walls and a second set of chamber walls, wherein the first set of chamber walls and the second set of chamber walls in a first configuration are sealed together so that effluent cannot pass between the first set of chamber walls and the second set of chamber walls, and wherein the first set of chamber walls and the second set of chamber walls in a second configuration provide an opening; ii) a filter cage contained within the filter chamber, wherein the filter cage comprises one or more than one filter medium, the filter medium to filter microparticles from the effluent, and wherein the filter cage is rotatable around an axis, and wherein the filter cage defines an interior volume, and wherein the inlet is arranged to provide effluent to the interior volume of the filter cage and the outlet is arranged to receive filtered effluent from the filter cage; iii) a transfer member rotatable around the axis; iv) an actuator connected to the first set of chamber walls, and one of the filter cage or the transfer member and operable to move between the first configuration and the second configuration; v) a drive unit arranged to rotate the transfer member in at least the second configuration; wherein in the first configuration, the transfer member is located in the interior volume of the filter cage; and wherein in a second configuration, the transfer member is removed from the interior volume of the filter cage along the axis and the transfer member is rotatable to throw transferred filter residue off the transfer member through the opening, and wherein the transfer member comprises a filter residue collector to remove filter residue from the filter medium when the filter is changed from the first configuration from the second configuration.