Electret-containing filter media

What is claimed is: 1. A filter media, comprising: an open support layer; a charged fiber layer directly adjacent and mechanically attached to the open support layer; and a coarse support layer adjacent the open support layer, wherein the charged fiber layer comprises a plurality of fibers having an average fiber diameter of less than 15 microns and greater than or equal to 1 micron, and wherein the open support layer has an air permeability of greater than 1250 CFM and less than or equal to 20000 CFM. 2. The filter media as in claim 1 , wherein the charged fiber layer comprises a first plurality of fibers comprising a first polymer and a second plurality of fibers comprising a second polymer. 3. The filter media as in claim 2 , wherein the first polymer and the second polymer have different dielectric constants. 4. The filter media as in claim 2 , wherein the second polymer comprises a synthetic material selected from the group consisting of polypropylene, dry-spun acrylic, polyvinyl chloride, mod-acrylic, wet spun acrylic, polytetrafluoroethylene, polypropylene, polystyrene, polysulfone, polyethersulfone, polycarbonate, nylon, polyurethane, phenolic, polyvinylidene fluoride, polyester, polyaramid, polyimide, polyolefin, Kevlar, Nomex, halogenated polymers, polyacrylics, polyphenylene oxide, polyphenylene sulfide, and combinations thereof. 5. The filter media as in claim 2 , wherein the second polymer is polypropylene. 6. The filter media as in claim 2 , wherein the first polymer is dry-spun acrylic. 7. The filter media as in claim 2 , wherein the filter media has an initial efficiency of greater than or equal to 50% and less than or equal to 99.999%. 8. The filter media as in claim 1 , wherein the charged fiber layer is needled to the open support layer. 9. The filter media as in claim 1 , wherein the charged fiber layer is needled to the open support layer at a punch density of greater than or equal to 15 punches per square centimeter and less than or equal to 60 punches per square centimeter. 10. The filter media as in claim 1 , wherein the charged fiber layer is needled to the open support layer at a penetration depth of needling of greater than or equal to 8 mm and less than or equal to 20 mm. 11. The filter media as in claim 1 , wherein the open support layer is formed by a spunbond process and comprises a plurality of fibers having an average fiber diameter of greater than or equal to 10 microns and less than or equal to 20 microns. 12. The filter media as in claim 1 , wherein the open support layer is a mesh and comprises a plurality of strands having an average strand diameter of greater than or equal to 500 microns and less than or equal to 2mm. 13. The filter media as in claim 1 , wherein the filter media has an overall basis weight of greater than or equal to 12 g/m 2 and less than or equal to 700 g/m 2 . 14. The filter media as in claim 1 , wherein the filter media has an overall air permeability of greater than or equal to 30 CFM and less than or equal to 1100 CFM. 15. The filter media as in claim 1 , wherein the coarse support layer and the open support layer are positioned downstream from the charged fiber layer. 16. A filter media, comprising: an open support layer having an air permeability of greater than 1250 CFM and less than or equal to 20000 CFM; a charged fiber layer directly adjacent and mechanically attached to the open support layer, wherein the charged fiber layer comprises a first plurality of fibers comprising a first polymer and a second plurality of fibers comprising a second polymer; a coarse support layer adjacent the open support layer; and an additional layer associated with the open support layer and the charged fiber layer; and wherein the filter media has an overall air permeability of greater than 50 CFM and less than 1100 CFM. 17. A filter media as in claim 16 , wherein the additional layer is selected from the group consisting of a meltblown layer, a spunbond layer, or a carded web layer. 18. A filter media as in claim 16 , wherein the open support layer is a mesh. 19. A filter media as in claim 16 , wherein the open support layer is a spunbond layer. 20. A filter media as in claim 16 , wherein the additional layer has an average fiber diameter of greater than or equal to 0.5 microns and less than or equal to 20 microns. 21. A filter media as in claim 16 , wherein the charged fiber layer is needled to the open support layer and/or the additional layer. 22. A filter media as in claim 16 , wherein the charged fiber layer is needled to the open support layer at a punch density of greater than or equal to 1.5 punches per square centimeter and less than or equal to 60 punches per square centimeter. 23. A filter media as in claim 16 , wherein the charged fiber layer is needled to the open support layer at a penetration depth of needling of greater than or equal to 8 mm and less than or equal to 20mm. 24. A filter media as in claim 16 , wherein a difference in dielectric constants between the first polymer and the second polymer is greater than or equal to 0.8 and less than or equal to 8. 25. A filter media as in claim 16 , wherein the open support layer has an air permeability of greater than or equal to 2500 CFM and less than or equal to 20000 CFM. 26. A filter media as in claim 16 , comprising a support layer that holds at least the charged fiber layer in a waved configuration and maintains separation of peaks and troughs of adjacent waves of the charged fiber layer. 27. A filter media as in claim 26 , wherein the support layer extends across the peaks and into the troughs to substantially fill the troughs. 28. A filter media, comprising: an open support layer; a charged fiber layer directly adjacent and mechanically attached to the open support layer; and a coarse support layer configured to hold the open support layer and/or the charged fiber layer in a waved configuration, wherein the charged fiber layer comprises a plurality of fibers having an average fiber diameter of less than 15 microns and greater than or equal to 1 micron, and wherein the open support layer has an air permeability of greater than 1250 CFM and less than or equal to 20000 CFM.