Elastomeric depth filter

What is claimed is: 1. A depth filter medium comprising: a first structural support layer comprising a first porous material; a second structural support layer comprising a second porous material; an elastomeric nonwoven web attached to the first structural support layer, wherein the elastomeric nonwoven web comprises elastomeric fibers and has a mean flow pore size of about 15 microns or less; wherein the elastomeric nonwoven web is meltblown; wherein the elastomeric nonwoven web comprises tortuous paths therethrough, allowing particulates to be retained within the web; and wherein the elastomeric fibers comprise a copolyester elastomer; wherein said first structural support layer has a mean flow pore size greater than the mean flow pore size of the elastomeric nonwoven web; wherein said second structural support layer has a mean flow pore size greater than the mean flow pore size of the elastomeric nonwoven web, said elastomeric nonwoven web being positioned between said first and second structural support layers; and wherein the second porous material has a mean flow pore size smaller than the mean flow pore size of the first porous material; and further wherein the depth filter medium is a reusable depth filter medium adapted for removal of particulate matter from liquids and which is capable of withstanding backwashing to remove particulates from the depth filter medium for regeneration of filtration capacity of the depth filter medium. 2. The depth filter medium of claim 1 , wherein the second structural layer is selected from a woven material or a mesh having a uniform pore size. 3. The depth filter medium of claim 1 , wherein the mean flow pore size of the second structural support layer is about 30 microns or less. 4. The depth filter medium of claim 1 , wherein the first structural support layer is selected from a woven material or a mesh having a uniform pore size. 5. The depth filter medium of claim 1 , wherein the mean flow pore size of the first structural support layer is about 30 microns or less. 6. The depth filter medium of claim 1 , wherein the elastomeric nonwoven web has a mean flow pore size of less than about 5 microns. 7. The depth filter medium of claim 1 , wherein the elastomeric nonwoven web comprises two or more elastomeric nonwoven sheets laminated together. 8. The depth filter medium of claim 1 , wherein the elastomeric nonwoven web has a basis weight of about 500 g/m 2 or less. 9. The depth filter medium of claim 8 , wherein the elastomeric nonwoven web has a basis weight of about 200 g/m 2 or less. 10. The depth filter medium of claim 1 , wherein the first structural support layer comprises a woven material or a mesh having a mean flow pore size of about 30 microns or less; and the elastomeric nonwoven web comprises a single layer of elastomeric nonwoven material or a laminate of multiple layers of elastomeric nonwoven material, the elastomeric nonwoven web having a mean flow pore size of about 10 microns or less and a basis weight of about 200 g/m 2 or less. 11. A depth filter comprising: a depth filter medium comprising: a first structural support layer comprising a first porous material; a second structural support layer comprising a second porous material; an elastomeric nonwoven web attached to the first structural support layer, wherein the elastomeric nonwoven web comprises elastomeric fibers and has a mean flow pore size of about 15 microns or less; wherein the elastomeric nonwoven web is meltblown; wherein the elastomeric nonwoven web comprises tortuous paths therethrough, allowing particulates to be retained within the web; and wherein the elastomeric fibers comprise a copolyester elastomer; wherein said first structural support layer has a mean flow pore size greater than the mean flow pore size of the elastomeric nonwoven web; wherein said second structural support layer has a mean flow pore size greater than the mean flow pore size of the elastomeric nonwoven web, said elastomeric nonwoven web being positioned between said first and second structural support layers; and wherein the second porous material has a mean flow pore size smaller than the mean flow pore size of the first porous material; and further wherein the depth filter medium is a reusable depth filter medium adapted for removal of particulate matter from liquids and which is capable of withstanding backwashing to remove particulates from the depth filter medium for regeneration of filtration capacity of the depth filter medium; and a structural frame attached to the depth filter medium. 12. The depth filter of claim 11 , wherein the depth filter is adapted for water filtration. 13. A method of making a depth filter medium, the depth filter medium comprising: a first structural support layer comprising a first porous material; a second structural support layer comprising a second porous material; an elastomeric nonwoven web attached to the first structural support layer, wherein the elastomeric nonwoven web comprises elastomeric fibers and has a mean flow pore size of about 15 microns or less; wherein the elastomeric nonwoven web is meltblown; wherein the elastomeric nonwoven web comprises tortuous paths therethrough, allowing particulates to be retained within the web; and wherein the elastomeric fibers comprise a copolyester elastomer; wherein said first structural support layer has a mean flow pore size greater than the mean flow pore size of the elastomeric nonwoven web; wherein said second structural support layer has a mean flow pore size greater than the mean flow pore size of the elastomeric nonwoven web, said elastomeric nonwoven web being positioned between said first and second structural support layers; wherein the second porous material has a mean flow pore size smaller than the mean flow pore size of the first porous material; and further wherein the depth filter medium is a reusable depth filter medium adapted for removal of particulate matter from liquids and which is capable of withstanding backwashing to remove particulates from the depth filter medium for regeneration of filtration capacity of the depth filter medium, the method of making the depth filter medium comprising: providing the elastomeric nonwoven web; and attaching the elastomeric nonwoven web to the first support layer to form a depth filter medium. 14. The method of claim 13 , wherein the providing step comprises meltblowing or spunbonding the elastomeric fibers. 15. The method of claim 13 , wherein the attaching step comprises stitching, chemically bonding, thermally bonding, ultrasonic bonding, print adhesive bonding, applying pressure, hydroentangling, or a combination thereof. 16. The method of claim 13 , further comprising attaching the second structural support layer to the elastomeric nonwoven web on a side opposite from the first structural support layer. 17. The method of claim 13 , wherein the providing step comprises laminating two or more layers of elastomeric nonwoven material together to form the elastomeric nonwoven web. 18. The method of claim 13 , further comprising attaching a structural frame to the depth filter medium. 19. A method of filtering a liquid to remove particulate matter therefrom comprising: contacting a liquid comprising particulate matter with a depth filter medium of claim 1 to remove a portion of the particulate matter from the liquid by depth filtration or a combination of depth filtration and surface filtration the depth filter medium comprising: a fir