Filter media with improved dust loading

We claim: 1. Filter media comprising: a downstream layer of filter material in a corrugated configuration defining peaks and valleys, wherein the downstream layer of filter material has a capture efficiency of at least 10% and a mean corrugation depth of less than 2.0 mm; and an upstream layer of fibers extending across the peaks of the downstream layer of filter material, the upstream layer of fibers having a mean fiber diameter of at least 10 microns, and the upstream layer of fibers has less than 10% solidity. 2. The filter media of claim 1 , wherein the downstream layer of filter material comprises cellulose fibers. 3. The filter media of claim 1 , wherein the downstream layer of filter material comprises fibers having a mean fiber diameter from 4 to 30 microns. 4. The filter media of claim 1 , wherein the upstream layer of fibers is not self-supporting. 5. The filter media of claim 1 , wherein the upstream layer of fibers is an end layer and the upstream layer of fibers is in direct contact with the downstream layer of filter material. 6. The filter media of claim 1 , wherein the downstream layer of filter material defines corrugations having a mean corrugation depth of greater than 0.23 mm. 7. The filter media of claim 1 , wherein the upstream layer of fibers is non-corrugated. 8. The filter media of claim 1 , wherein the downstream layer of filter material is self-supporting. 9. A method of constructing a filter media, the method comprising: creating a spacing structure on a layer of filter material, wherein the filter material has a capture efficiency of at least 10%; and depositing a layer of fibers across the spacing structure of the filter material, wherein the layer of fibers has a mean fiber diameter of at least 10 microns and a solidity of less than 10%, and wherein the spacing structure defines a void space between the layer of fibers and the layer of filter material. 10. The method of claim 9 , wherein the layer of filter material comprises fibers having a mean fiber diameter from 4 to 30 microns. 11. The method of claim 9 , wherein creating the spacing structure comprises forming corrugations in the layer of filter material. 12. The method of claim 9 , wherein the layer of filter material is corrugated to have a mean corrugation depth of greater than 0.23 mm. 13. The method of claim 9 , wherein creating the spacing structure comprises depositing a spacing structure on an upstream surface of the layer of filter material. 14. Filter media comprising: a downstream layer of filter material, wherein the downstream layer of filter material has a capture efficiency of at least 10%; and an upstream layer of fibers, wherein the upstream layer of fibers has a mean fiber diameter of at least 10 microns and a solidity of less than 10%; and a spacing structure defining a mean void distance between the upstream layer of fibers and the downstream layer of filter material greater than 0.11 mm. 15. The filter media of claim 14 , wherein the downstream layer of filter material has the spacing structure protruding in a direction perpendicular to a length and a width of the filter media. 16. The filter media of claim 14 , wherein the spacing structure comprises corrugations defined by the downstream layer of filter material. 17. The filter media of claim 14 , wherein the spacing structure comprises embossments defined by the downstream layer of filter material. 18. The filter media of claim 14 , wherein the spacing structure comprises deposits disposed between the upstream layer of fibers and the downstream layer of filter material. 19. The filter media of claim 14 , wherein the upstream layer of fibers is not self-supporting. 20. The filter media of claim 14 , wherein the mean void distance between the upstream layer of fibers and the downstream layer of filter material is less than 1.0 mm.