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A filter apparatus comprises a filter stack including a plurality of porous ceramic plates that are axially spaced from one another to define plurality of axially spaced apart radial flow areas. In one example, the filter stack is mounted within a housing. In further examples, the plurality of porou

A filter apparatus comprises a filter stack including a plurality of porous ceramic plates that are axially spaced from one another to define plurality of axially spaced apart radial flow areas. In one example, the filter stack is mounted within a housing. In further examples, the plurality of porous ceramic plates alternate between a first set of porous ceramic plates that are nested with a second set of porous ceramic plates. In still further examples, at least one of the sides of the porous ceramic plates defines a plurality of radial flutes arranged in a radial array.

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1. A filter apparatus comprising: a housing including a first fluid port and a second fluid port;a filter stack mounted within the housing and configured to filter a fluid stream between the fluid ports with the filter stack defining a central flow path in fluid communication with the first fluid po

1. A filter apparatus comprising: a housing including a first fluid port and a second fluid port;a filter stack mounted within the housing and configured to filter a fluid stream between the fluid ports with the filter stack defining a central flow path in fluid communication with the first fluid port, wherein the filter apparatus includes an outer peripheral flow path in fluid communication with the second fluid port and defined between the filter stack and the housing;the filter stack including a plurality of porous ceramic plates axially spaced from one another in an axial direction of the filter apparatus by a plurality of spacers to define a plurality of axially spaced apart radial flow areas, each porous ceramic plate including a thickness extending between a first side and a second side of the porous ceramic plate, and each porous ceramic plate further including a central aperture extending through the thickness of the plate, the central apertures of the porous ceramic plates positioned along the central flow path, wherein the thickness of the plate is further provided along a radial direction of the plate from the central aperture to an outer peripheral edge of the plate;wherein the plurality of axially spaced apart radial flow areas alternate in the axial direction along the central flow path between a first set of radial flow areas open to the central flow path and closed to the outer peripheral flow path, and a second set of radial flow areas closed to the central flow path and open to the outer peripheral flow path; andwherein the plurality of porous ceramic plates each include a filter profile defined between the first side and the second side of the porous ceramic plate that is selected from the group consisting of i) ceramic material composition, ii) porosity, iii) median pore diameter, iv) plate layering, v) catalyst loading, vi) the plate thickness being provided as a substantially constant plate thickness along the radial direction of the plate, vii) size of the central aperture, and viii) plate surface topography; and wherein at least two of the plurality of porous ceramic plates have substantially different filter profiles. 2. The filter apparatus of claim 1, wherein the filter profile is selected from the group consisting of i) ceramic material composition, ii) porosity, iii) median pore diameter, iv) plate layering, and v) catalyst loading, and wherein the filter profile of at least one of the plurality of porous ceramic plates substantially changes in the radial direction of the porous ceramic plate. 3. The filter apparatus of claim 1, wherein at least one of the first side and the second side of at least one of the plurality of porous ceramic plates define a plurality of radial flutes arranged in a radial array about the corresponding aperture of the porous ceramic plate. 4. The filter apparatus of claim 3, wherein each of the plurality of porous ceramic plates includes an inner periphery defining the corresponding central aperture, and the plurality of radial flutes have a first number of openings at an outer periphery that is greater than a second number of openings at the inner periphery of the at least one of the plurality of porous ceramic plates. 5. The filter apparatus of claim 1, wherein the apertures of the plurality of porous ceramic plates are successively smaller than one another in the axial direction. 6. A filter apparatus comprising: a housing including a first fluid port and a second fluid port,a filter stack mounted within the housing and configured to filter a fluid stream between the fluid ports with the filter stack defining a central flow path in fluid communication with the first fluid port, wherein the filter apparatus includes an outer peripheral flow path in fluid communication with the second fluid port and defined between the filter stack and the housing,the filter stack including a plurality of porous ceramic plates axially spaced from one another in an axial direction of the filter apparatus by a plurality of spacers to define a plurality of axially spaced apart radial flow areas, each porous ceramic plate including a thickness extending between a first side and a second side of the porous ceramic plate, and each porous ceramic plate further including a central aperture extending through the thickness of the plate, the central apertures of the porous ceramic plates positioned along the central flow path,wherein the plurality of axially spaced apart radial flow areas alternate in the axial direction along the central flow path between a first set of radial flow areas open to the central flow path and closed to the outer peripheral flow path, and a second set of radial flow areas closed to the central flow path and open to the outer peripheral flow path, andwherein at least one of the plurality of porous ceramic plates includes a first layer defining the first side of the porous ceramic plate and a second layer defining the second side of the porous ceramic plate, wherein the first layer and second layer have a substantially different filter profile defined between the first side and the second side of the porous ceramic plate. 7. The filter apparatus of claim 6, wherein the plurality of porous ceramic plates each include a filter profile defined by the first layer and the second layer of the porous ceramic plate, and wherein at least two of the plurality of porous ceramic plates have substantially different filter profiles. 8. The filter apparatus of claim 6, wherein at least one of the plurality of porous ceramic plates has a filter profile defined by the first layer and the second layer, wherein the filter profile substantially changes in a radial direction of the porous ceramic plate. 9. The filter apparatus of claim 6, wherein at least one of the first side and the second side of at least one of the plurality of porous ceramic plates define a plurality of radial flutes arranged in a radial array about the corresponding aperture of the porous ceramic plate. 10. The filter apparatus of claim 9, wherein each of the plurality of porous ceramic plates includes an inner periphery defining the corresponding central aperture, and the plurality of radial flutes have a first number of openings at an outer periphery that is greater than a second number of openings at the inner periphery of the at least one of the plurality of porous ceramic plates. 11. The filter apparatus of claim 6, wherein the apertures of the plurality of porous ceramic plates are successively smaller than one another in the axial direction. 12. A filter apparatus comprising: a housing including a first fluid port and a second fluid port,a filter stack mounted within the housing and configured to filter a fluid stream between the fluid ports with the filter stack defining a central flow path in fluid communication with the first fluid port, wherein the filter apparatus includes an outer peripheral flow path in fluid communication with the second fluid port and defined between the filter stack and the housing,the filter stack including a plurality of porous ceramic plates axially spaced from one another in an axial direction of the filter apparatus by a plurality of spacers to define a plurality of axially spaced apart radial flow areas, each porous ceramic plate including a thickness extending between a first side and a second side of the porous ceramic plate, and each porous ceramic plate further including a central aperture extending through the thickness of the plate, the central apertures of the porous ceramic plates positioned along the central flow path,wherein the plurality of axially spaced apart radial flow areas alternate in the axial direction along the central flow path between a first set of radial flow areas open to the central flow path and closed to the outer peripheral flow path, and a second set of radial flow areas closed to the central flow path and open to the outer peripheral flow path, andwherein at least one of the first side and the second side of at least one of the plurality of porous ceramic plates define a plurality of radial flutes arranged in a radial array about the corresponding aperture of the porous ceramic plate. 13. The filter apparatus of claim 12, wherein the plurality of spacers comprise compliant spacers and the filter stack is compressed in the axial direction while the compliant spacers axially bias the respective porous ceramic plates from one another to maintain the respective spacing between the porous ceramic plates. 14. The filter apparatus of claim 12, wherein the plurality of spacers include a first set of spacers that close the outer peripheral flow path from the first set of radial flow areas and a second set of spacers that close the central flow path from the second set of radial flow areas. 15. The filter apparatus of claim 12, wherein at least one of the plurality of spaced apart radial flow areas are divided into a plurality of radial flow channels arranged in a radial array about the central flow path. 16. The filter apparatus of claim 12, wherein each of the plurality of porous ceramic plates includes an inner periphery defining the corresponding central aperture, and the plurality of radial flutes have a first number of openings at an outer periphery that is greater than a second number of openings at the inner periphery of the at least one of the plurality of porous ceramic plates. 17. The filter apparatus of claim 12, wherein each of the radial flow areas has an axial width defined between a corresponding pair of the plurality of porous ceramic plates, wherein the axial width of at least one of the first set of radial flow areas is greater than the axial width of at least one of the second set of radial flow areas. 18. The filter apparatus of claim 12, wherein first sides of the plurality of porous ceramic plates have corresponding filter surface areas that are successively larger than one another in the axial direction. 19. The filter apparatus of claim 12, wherein the plurality of porous ceramic plates alternate in the axial direction between a first set of porous ceramic plates and a second set of porous ceramic plates, wherein each porous ceramic plate of the first set of plates includes an outer peripheral edge configured to nest within a corresponding porous ceramic plate of the second set of plates. 20. The filter apparatus of claim 12, wherein the plurality of porous ceramic plates alternate in the axial direction between a first set of porous ceramic plates and a second set of porous ceramic plates, wherein each porous ceramic plate of the first set of plates includes a central collar portion configured to be received within the central aperture of a corresponding porous ceramic plate of the second set of porous ceramic plates. 21. The filter apparatus of claim 12, wherein the apertures of the plurality of porous ceramic plates are successively smaller than one another in the axial direction. 22. The filter apparatus of claim 12, wherein the plurality of porous ceramic plates each include a filter profile defined between the first side and the second side of the porous ceramic plate selected from the group consisting of i) ceramic material composition, ii) porosity, iii) median pore diameter, iv) plate layering, v) catalyst loading, vi) the plate thickness being provided as a substantially constant plate thickness along a radial direction of the plate, vii) size of the central aperture, and viii) plate surface topography; and wherein at least two of the plurality of porous ceramic plates have substantially different filter profiles. 23. The filter apparatus of claim 22, wherein the filter profile is selected from the group consisting of i) ceramic material composition, ii) porosity, iii) median pore diameter, iv) plate layering, and v) catalyst loading, and wherein the filter profile of at least one of the plurality of porous ceramic plates substantially changes in the radial direction of the porous ceramic plate. 24. A filter apparatus comprising: a housing including a first fluid port and a second fluid port,a filter stack mounted within the housing and configured to filter a fluid stream between the fluid ports with the filter stack defining a central flow path in fluid communication with the first fluid port, wherein the filter apparatus includes an outer peripheral flow path in fluid communication with the second fluid port and defined between the filter stack and the housing,the filter stack including a plurality of porous ceramic plates axially spaced from one another in an axial direction of the filter apparatus by a plurality of spacers to define a plurality of axially spaced apart radial flow areas, each porous ceramic plate including a thickness extending between a first side and a second side of the porous ceramic plate, and each porous ceramic plate further including a central aperture extending through the thickness of the plate, the central apertures of the porous ceramic plates positioned along the central flow path,wherein the plurality of axially spaced apart radial flow areas alternate in the axial direction along the central flow path between a first set of radial flow areas open to the central flow path and closed to the outer peripheral flow path, and a second set of radial flow areas closed to the central flow path and open to the outer peripheral flow path, andwherein the apertures of the plurality of porous ceramic plates are successively smaller than one another in the axial direction.