Composite media for fuel streams

1 .- 42 . (canceled) 43 . A filter material for use in fuel-water separation comprising: a first particle filtration layer substantially comprising binder fibers and glass fibers, wherein the binder fibers and glass fibers are at least 95% of the first particle filtration layer by weight, and wherein the first particle filtration layer lacks meltblown materials; and a coalescing layer downstream of the first particle filtration layer and coupled to the first particle filtration layer, the coalescing layer comprising acrylic resin and at least 70% glass fibers by weight, wherein the coalescing layer substantially lacks bicomponent fibers; and a support layer downstream of the coalescing layer and coupled to the coalescing layer, wherein the filter material is configured to filter out particulates and coalesce free water in a fuel stream. 44 . The filter material of claim 43 , wherein the first particle filtration layer has a thickness of less than 1.9 mm. 45 . The filter material of claim 43 , wherein the coalescing layer has an air permeability of less than 70 cfm/ft 2 . 46 . The filter material of claim 43 , wherein the first particle filtration layer has an air permeability of less than 200 cfm/ft 2 . 47 . The filter material of claim 43 , wherein the coalescing layer has an average fiber diameter of 0.3 μm to 10 μm. 48 . The filter material of claim 43 , wherein the coalescing layer comprises at least two layers of coalescing material. 49 . The filter material of claim 43 , wherein each of the first particle filtration layer and the coalescing layer has an air permeability, and a ratio of the air permeability of the first particle filtration layer to the coalescing layer ranges from about 3:1 to about 15:1. 50 . The filter material of claim 43 , further comprising a second particle filtration layer downstream of the first particle filtration layer comprising binder fibers and glass fibers. 51 . The filter material of claim 50 , wherein the second particle filtration layer has a pore size distribution different from the first particle filtration layer. 52 . The filter material of claim 50 , wherein the second particle filtration layer has an air permeability that is lower than the air permeability of the first particle filtration layer. 53 . The filter material of claim 43 , wherein the first particle filtration layer has a solidity of less than 15%. 54 . The filter material of claim 53 , wherein the compressibility of the first particle filtration layer divided by the solidity is less than 4. 55 . A filter material for liquid fuels comprising: a particle filtration layer comprising binder fibers and glass fibers, wherein the binder fibers and glass fibers are at least 95% of the particle filtration layer by weight; and a coalescing layer downstream of the particle filtration layer, wherein the coalescing layer is configured to coalesce free water in a fuel stream, wherein a ratio of an air permeability of the particle filtration layer to an air permeability of the coalescing layer ranges from about 3:1 to about 15:1. 56 . The filter material of claim 55 , the coalescing layer comprising at least 70% glass fibers by weight. 57 . The filter material of claim 55 , wherein the particle filtration layer has an air permeability from about 45 cfm to about 200 cfm and the coalescing layer has an air permeability from about 3 to about 70 cfm. 58 . The filter material of claim 55 , wherein the coalescing layer has an average fiber diameter of 0.3 μm to 10 μm. 59 . The filter material of claim 55 , wherein the coalescing layer comprises at least two layers of coalescing material. 60 . The filter material of claim 55 , further comprising a support layer downstream of and coupled to the coalescing layer. 61 . The filter material of claim 55 , wherein the particle filtration layer has a compressibility of less than 40% at a pressure of 1.24 kg/cm2. 62 . The filter material of claim 55 , wherein the coalescing layer comprises a surface treatment comprising fluorine