Filtration media pack, filter element, and methods

We claim: 1. A filtration media pack comprising: (a) a plurality of layers of single facer media wherein the layers of single facer media comprise a fluted sheet, a facing sheet, and a plurality of flutes extending between the fluted sheet and the facing sheet and having a flute length extending from a first face of the filtration media pack to a second face of the filtration media pack; (b) a first portion of the plurality of flutes being closed to unfiltered fluid flowing into the first portion of the plurality of flutes, and a second portion of the plurality of flutes being closed to unfiltered fluid flowing out of the second portion of the plurality of flutes so that fluid passing into one of the first face or the second face of the media pack and out the other of the first face or the second face of the media pack passes through media to provide filtration of the fluid; (c) the filtration media pack has an average flute density of less than34 flute/inch 2 ; (d) the filtration media pack has an average media-cord percentage of greater than 6.3%, and (e) wherein the filtration media pack has a volume arrangement so that a volume on one side of the media pack differs from a volume on the other side of the media pack by more than 10%; and wherein a ridge extends along at least 20 percent of the flute length, the ridge comprising a discontinuity in the curvature of the flute between the adjacent peaks. 2. A filtration media pack according to claim 1 , wherein the fluted sheet comprises repeating internal peaks facing toward the facing sheet and repeating external peaks facing away from the facing sheet and a pattern of at least one ridge extending along at least 50% of the flute length between an internal peak and an adjacent external peak. 3. A filtration media pack according to claim 2 , wherein the fluted sheet comprises at least two ridges along at least 50% of the flute length between an internal peak and an adjacent external peak. 4. A filtration media pack according to claim 2 , where at least two ridges are provided in a pattern between an internal peak and an adjacent external peak. 5. A filtration media pack according to claim 1 , wherein the filtration media pack has a flute width height ratio of greater than 2.5 of a flute height ratio of less than 0.4. 6. A filtration media pack according to claim 1 , wherein the filtration media pack has an average flute density of less than 25 flute/inch 2 . 7. A filtration media pack according to claim 1 , wherein the filtration media pack has an average media-cord percentage of greater than 6.5%. 8. A filter element comprising a filtration media pack according to claim 1 and a seal member extending around a periphery of the media pack. 9. A method for manufacturing a filtration media pack comprising: (a) stacking or rolling layers of single facer media to form a filtration media pack, the plurality of layers of single facer media comprise: (i) a fluted sheet, a facing sheet, and a plurality of flutes extending between the fluted sheet and the facing sheet and the facing sheet and having a flute length extending from a first face of the filtration media pack to a second face of the filtration media pack; (ii) a first portion of the plurality of flutes being closed to unfiltered fluid flowing into the first portion of the plurality of flutes, and a second portion of the plurality of flutes being closed to unfiltered fluid flowing out of the second portion of the plurality of flutes so that fluid passing into one of the first face or the second face of the media pack and out the other of the first face or the second face of the media pack passes through media to provide filtration of the fluid; (iii) the plurality of flutes having an average flute length of less than 5 inches; and (iv) the filtration media pack exhibiting a flute density (ρ) of at least about 35.0 flute/inch 2 according to the formula: ρ = number ⁢ ⁢ of ⁢ ⁢ channels ⁢ ⁢ ( open ⁢ ⁢ and ⁢ ⁢ closed ) 2 × z ⁢ - ⁢ media ⁢ ⁢ pack ⁢ ⁢ cross ⁢ ⁢ sectional ⁢ ⁢ area wherein the number of channels is counted and the media cross sectional area is measured; wherein the filtration media pack has a volume arrangement so that a volume on one side of the media pack differs from a volume on the other side of the media pack by at least 10 percent, and wherein a ridge extends along at least 20 percent of the flute length, the ridge comprising a discontinuity in the curvature of the flute between the adjacent peaks. 10. A method according to claim 9 , wherein the fluted sheet comprises repeating internal peaks facing toward the facing sheet and repeating external peaks facing away from the facing sheet and a pattern of at least one ridge extending along at least 50% of the flute length between an internal peak and an adjacent external peak. 11. A method according to claim 10 , wherein the fluted sheet comprises at least two ridges along at least 50% of the flute length between an internal peak and an adjacent external peak. 12. A method according to claim 10 , wherein at least two ridges are provided in a pattern between an internal peak and an adjacent external peak. 13. A method according to claim 9 , wherein the filtration media pack exhibits a flute density of at least about 40 flute/inch 2 . 14. A method according to claim 9 , wherein the first portion of the plurality of flutes are sealed by a sealant bead and the second portion of the plurality of flutes are sealed by a sealant bead. 15. A method according to claim 9 , wherein the sealant bead sealing at least one of the first portion of the plurality of flutes or the second portion of the plurality of flutes have an average plug length of less than about 7 mm. 16. A method according to claim 9 , wherein the plurality of single facer media are provided in a coiled arrangement. 17. A method according to claim 9 , wherein a pluralit