Filter systems with dirty air chamber spacer elements and methods of using the same

The invention claimed is: 1. A filter system comprising: a housing comprising a tubesheet separating the housing into a dirty air chamber, a clean air chamber, an end wall panel located across the dirty air chamber from the tubesheet, and a hopper located below the dirty air chamber; a plurality of spacer elements attached to the tubesheet, wherein each spacer element of the plurality of spacer elements comprises a clean air inlet and a clean air outlet, and wherein the clean air outlet of each spacer element of the plurality of spacer elements is attached to the tubesheet; a plurality of apertures in the tubesheet, wherein the clean air outlet of each spacer element of the plurality of spacer elements is positioned over an aperture of the plurality of apertures in the tubesheet such that air passing from the dirty air chamber into the clean air chamber through each spacer element of the plurality of spacer elements passes through the aperture; a plurality of filter elements, wherein each filter element of the plurality of filter elements is attached to the clean air inlet of one spacer element of the plurality of spacer elements, wherein each spacer element of the plurality of spacer elements and the filter element attached to each spacer element are positioned above the hopper; and a dirty air inlet configured to deliver a dirty air stream into the dirty air chamber along a dirty air flow axis, wherein the dirty air flow axis extends through the hopper; wherein the dirty air flow axis does not extend through any filter elements of the plurality of filter elements; and wherein the dirty air flow axis extends through or passes at least one spacer element of the plurality of spacer elements at a location between the clean air inlet and the clean air outlet of the at least one spacer element. 2. A filter system according to claim 1 , wherein at least a portion of particulate matter entering the dirty air chamber passes directly into the hopper without contacting any filter element of the plurality of filter elements. 3. A filter system according to claim 1 , wherein each spacer element of the plurality of spacer elements comprises an element length measured along an element axis extending through the clean air inlet and the clean air outlet of the spacer element, and wherein the dirty air inlet defines a width measured parallel to the element axis that is less than or equal to 2 times an average element length of the plurality of element lengths of the plurality of spacer elements. 4. A filter system according to claim 1 , wherein the tubesheet comprises a dirty air side facing the dirty air chamber and a clean air side facing the clean air chamber, and wherein the clean air outlet of each spacer element of the plurality of spacer elements is positioned on the dirty air side of the tubesheet. 5. A filter system according to claim 1 , wherein each spacer element of the plurality of spacer elements does not extend into the clean air chamber. 6. A filter system according to claim 1 , wherein the plurality of spacer elements comprises a plurality of venturi elements, wherein each venturi element of the plurality of venturi elements comprises a throat located between a clean air inlet and a clean air outlet, and wherein the clean air inlet of each venturi element of the plurality of venturi elements is located in the dirty air chamber. 7. A filter system comprising: a housing comprising a tubesheet separating the housing into a dirty air chamber, a clean air chamber, and a hopper located below the dirty air chamber; a plurality of spacer elements attached to the tubesheet, wherein each spacer element of the plurality of spacer elements comprises a clean air inlet and a clean air outlet, and wherein the clean air outlet of each spacer element of the plurality of spacer elements is attached to the tubesheet; a plurality of apertures in the tubesheet, wherein the clean air outlet of each spacer element of the plurality of spacer elements is aligned with an aperture of the plurality of apertures in the tubesheet such that air passing from the dirty air chamber into the clean air chamber through each spacer element of the plurality of spacer elements passes through the aperture; a plurality of filter elements, wherein each filter element of the plurality of filter elements is attached to the clean air inlet of one spacer element of the plurality of spacer elements, wherein each spacer element of the plurality of spacer elements and the filter element attached to each spacer element extend horizontally in the dirty air chamber above the hopper; and a dirty air inlet configured to deliver a dirty air stream into the dirty air chamber along a dirty air flow axis, wherein the dirty air flow axis extends through or passes at least one spacer element of the plurality of spacer elements at a location between the clean air inlet and the clean air outlet of the at least one spacer element. 8. A filter system according to claim 7 , wherein at least a portion of particulate matter entering the dirty air chamber passes directly into the hopper without contacting any filter element of the plurality of filter elements. 9. A filter system according to claim 7 , wherein each spacer element of the plurality of spacer elements and the filter element attached to each spacer element are positioned above the hopper. 10. A filter system according to claim 7 , wherein the dirty air flow axis extends through the hopper. 11. A filter system according to claim 7 , wherein each spacer element of the plurality of spacer elements comprises an element length measured along an element axis extending through the clean air inlet and the clean air outlet of the spacer element, and wherein the dirty air inlet defines a width measured parallel to the element axis that is less than or equal to 2 times an average element length of the plurality of element lengths of the plurality of spacer elements. 12. A filter system according to claim 7 , wherein the tubesheet comprises a dirty air side facing the dirty air chamber and a clean air side facing the clean air chamber, and wherein the clean air outlet of each spacer element of the plurality of spacer elements is positioned on the dirty air side of the tubesheet. 13. A filter system according to claim 7 , wherein each spacer element of the plurality of spacer elements does not extend into the clean air chamber. 14. A filter system according to claim 7 , wherein the plurality of spacer elements comprises a plurality of venturi elements, wherein each venturi element of the plurality of venturi elements comprises a throat located between a clean air inlet and a clean air outlet, and wherein the clean air inlet of each venturi element of the plurality of venturi elements is located in the dirty air chamber. 15. A filter system comprising: a housing comprising a tubesheet separating the housing into a dirty air chamber, a clean air chamber, an end wall panel located across the dirty air chamber from the tubesheet, and a hopper located below the dirty air chamber; a plurality of spacer elements attached to the tubesheet, wherein each spacer element of the plurality of spacer elements comprises a clean air inlet and a clean air outlet, and wherein the clean air outlet of each spacer element of the plurality of spacer elements is attached to the tubesheet; a plurality of apertures in the tubesheet, wherein the clean air outlet of each spacer element of the plurality of spacer elements is positioned over an aperture of the plurality of apertures in the tubesheet such that air passing from the dirty air chamber into the clean ai