Scale-down tangential flow depth filtration systems and methods of filtration using same

1 . A thick walled hollow fiber filter element comprising: a first end and a second end, a porous wall extending between the first and second end, and a lumen running therethrough, said lumen open to the first and second ends; and a non-permeable covering disposed about a portion of an exterior surface of the thick walled hollow fiber filter element, said non-permeable covering extending from a region proximate the first end toward the second end, wherein said non-permeable covering extends circumferentially about the thick walled hollow fiber filter element, and wherein a portion of the exterior surface of the thick walled hollow fiber is not covered by the covering. 2 . The thick walled hollow fiber filter element of claim 1 , further comprising a water tight seal disposed about the exterior surface of each of the first and second ends between said exterior surface and a housing enclosing said thick walled hollow fiber filter element, wherein the non-permeable covering is proximate to the water tight seal at the first end. 3 . The thick walled hollow fiber filter element of claim 1 , wherein the non-permeable covering is also disposed about the exterior of the thick walled hollow fiber filter proximate to the second end. 4 . The thick walled hollow fiber filter element of claim 3 , wherein the covering comprises polyurethane. 5 . The thick walled hollow fiber filter element of claim 4 , wherein the water tight seal comprises polyurethane. 6 . A method of scaling a filtration process utilizing a thick walled hollow fiber filter element of claim 1 , the method comprising: selecting a first thick walled hollow fiber filter element characterized by a first exterior surface area that is not covered by the covering and a first throughput volume; selecting a second throughput volume and determining a ratio between the first and second throughput volumes; and selecting a second thick walled hollow fiber element characterized by a second exterior surface area that is equal to the first exterior surface area divided by the ratio. 7 . The method of scaling a filtration process of claim 4 , wherein the first volume is greater than the second volume. 8 . The method of scaling a filtration process of claim 4 , wherein the first volume is less than the second volume. 9 . The method of scaling a filtration process of claim 4 , wherein the covering is one or more of the following: dip coat, spray coat, and shrink wrap. 10 . The method of claim 4 , wherein the thick walled hollow fiber element further comprises a water tight seal disposed about the exterior surface of each of the first and second ends between said exterior surface and a housing enclosing said thick walled hollow fiber filter element, wherein the non-permeable covering is proximate to the water tight seal at the first end. 11 . The method of claim 4 , wherein the non-permeable covering is also disposed about the exterior of the thick walled hollow fiber filter proximate to the second end. 12 . A scalable filtration system utilizing the thick walled hollow fiber filter elements of claim 1 , the system comprising: a plurality of thick walled hollow fiber filter elements of identical composition, inner diameter, and wall thickness, but differing in the exterior surface area not covered by the covering, wherein for any two thick walled hollow fiber filter elements of the plurality, a ratio of the process volume capacity of the thick walled hollow fiber filter elements is equal to a ratio of the exterior surface areas not covered by the covering