Asymmetric membranes

The invention claimed is: 1. An asymmetric membrane comprising (a) a first exterior porous surface; (b) a second exterior porous surface; (c) a porous bulk between the first exterior porous surface and the second exterior porous surface, the porous bulk having a first porous region and a second porous region, the first porous region contacting the second porous region; (d) a first asymmetric porous zone, the first asymmetric porous zone including the first exterior porous surface and a first asymmetric porous zone boundary in the porous bulk, and extending into, and including, the first porous region of the bulk to the first asymmetric zone boundary; and, (e) a second asymmetric porous zone, the second asymmetric porous zone including the second exterior porous surface and a second asymmetric porous zone boundary in the porous bulk, and extending into, and including, the second porous region of the bulk to the second asymmetric zone boundary; wherein the first asymmetric porous zone includes a first porous asymmetry that increases from the first exterior porous surface through the first porous region of the bulk to the first asymmetric zone boundary, and the second asymmetric porous zone includes a second porous asymmetry that increases from the second exterior porous surface through the second porous region of the bulk to the second asymmetric zone boundary, and the first exterior porous surface has a first average pore size and the second exterior porous surface has a second average pore size, wherein the first average pore size is larger than the second average pore size; wherein the first porous asymmetry has a ratio of asymmetry from the first exterior porous surface to the first asymmetric zone boundary in the range of from about 1.1 to about 5, and the second porous asymmetry has a ratio of asymmetry from the second exterior porous surface to the second asymmetric zone boundary in the range of from about 2 to about 10. 2. A membrane comprising: a first, upstream porous zone comprising a first zone upstream porous portion, and a first zone downstream porous portion; and a second, downstream porous zone comprising a second zone upstream porous portion, and a second zone downstream porous portion, wherein the first zone having an average pore size that increases in an upstream to downstream direction, the second zone having an average pore size that increases in a downstream to upstream direction, the first zone downstream porous portion having an average pore size that is greater than an average pore size of the first zone upstream porous portion, and greater than an average pore size of the second zone upstream porous portion, and the average pore size of the first zone is greater than the average pore size of the second zone. 3. The membrane of claim 1 , wherein the first zone has a thickness of about 10 μm to about 500 μm. 4. The membrane of claim 1 , wherein the second zone has a thickness of about 10 μm to about 400 μm. 5. The membrane of claim 1 , wherein the membrane has a pore size ratio of about 1.1 to about 100.0. 6. The membrane of claim 1 , wherein the first zone has an average pore size of 0.2 μm to 10.0 μm. 7. The membrane of claim 1 , wherein the second zone has an average pore size of 0.01 μm to 5.0 μm. 8. The membrane of any claim 1 , comprising a pleated membrane. 9. A method of processing a fluid, comprising passing the fluid into the membrane of claim 1 , in a direction from the first zone toward the second zone. 10. The method of claim 9 , comprising passing the fluid through the membrane.