Systems, articles, and methods for removing water from hydrocarbon fluids

We claim: 1. A water/hydrocarbon fluid separation system comprising: a filter housing, the filter housing having at least one inlet and at least a first outlet and a second outlet, the first outlet positioned above the second outlet, and a collection basin beneath the first outlet, the collection basin configured for retaining water; and a filter element disposed within the filter housing, the filter element comprising a separation article comprising: a porous polymer layer comprising polytetrafluoroethylene, the porous polymer layer having an average pore size of between about 0.5 μm to about 5 μm, the porous polymer layer configured to selectively reject water and permeate liquid hydrocarbons; and a porous substrate layer comprising a hydrophobic surface, the porous polymer layer disposed adjacent to the porous substrate layer; wherein the porous polymer layer and porous substrate layer surround and wrap around a central filter lumen; wherein the porous substrate layer has a thickness of about 1 mils to about 60 mils and the porous substrate layer further comprises woven fiberglass; wherein the separation article is configured such that hydrocarbons flow through the separation article and out the first outlet of the housing, and water is collected upstream of the separation article and flows out the second outlet of the housing. 2. The water/hydrocarbon fluid separation system of claim 1 , the filter housing defining a fluid flow path between the inlet and at least one of the first and second outlets, the filter element disposed in the fluid flow path between the inlet and at least one of the first and second outlets. 3. The water/hydrocarbon fluid separation system of claim 1 , the filter housing defining a fluid flow path between the inlet and at least one of the first and second outlets, the filter element occluding the fluid flow path between the inlet and at least one of the first and second outlets. 4. The water/hydrocarbon fluid separation system of claim 1 , wherein at least one of the first and second outlets of the filter housing is in fluid communication with the collection basin. 5. The water/hydrocarbon fluid separation system of claim 1 , the porous polymer layer having a thickness of about 0.2 mils to about 5 mils. 6. The water/hydrocarbon fluid separation system of claim 1 , the porous polymer layer having a permeability of about 1 cfm/ft 2 to about 25 cfm/ft 2 . 7. The water/hydrocarbon fluid separation system of claim 1 , the porous substrate having a permeability of about 2 cfm/ft 2 to about 200 cfm/ft 2 . 8. The water/hydrocarbon fluid separation system of claim 1 , the porous substrate having a permeability greater than the permeability of the porous polymer layer. 9. The water/hydrocarbon fluid separation system of claim 1 , the hydrophobic surface of the porous substrate having an initial water contact angle of greater than about 50°. 10. The water/hydrocarbon fluid separation system of claim 1 , wherein the woven fiberglass is acid resistant. 11. The water/hydrocarbon fluid separation system of claim 1 , the separation article comprising a laminate. 12. The water/hydrocarbon fluid separation system of claim 1 , the porous substrate thermally welded to the porous polymer layer. 13. The water/hydrocarbon fluid separation system of claim 1 , the separation article comprising an adhesive adhering the porous substrate to the porous polymer layer. 14. The water/hydrocarbon fluid separation system of claim 1 , the system configured to remove at least about 95% of emulsified water from a hydrocarbon fluid with an interfacial tension of between 7 dynes/cm and 40 dynes/cm. 15. The filter element of claim 1 , wherein the porous polymer layer further comprises silicone. 16. A filter element for separating emulsified water from a hydrocarbon fluid, the filter element comprising: a separation article comprising: a porous polymer layer comprising polytetrafluoroethylene and silicone, the porous polymer layer having an average pore size of between about 0.5 μm to about 5 μm; and a porous substrate layer comprising a hydrophobic surface, the porous polymer layer disposed adjacent to the porous substrate layer, the porous substrate having a thickness of about 1 mils to about 60 mils, the porous substrate layer configured to selectively reject water and permeate liquid hydrocarbons; wherein the porous polymer layer and porous substrate layer surround a central filter lumen, and the central filter lumen is in fluid communication with a top opening in the separation article; wherein the separation article is configured such that water is collected upstream of the separation article; and hydrocarbons flow through the separation article and out a top opening of the separation article. 17. The filter element of claim 16 , the porous polymer layer having a thickness of about 0.2 mils to about 5 mils. 18. The filter element of claim 16 , the porous polymer layer having a permeability of about 1.0 cfm/ft 2 to about 25 cfm/ft 2 . 19. The filter element of claim 16 , the porous substrate having a permeability of about 2 cfm/ft 2 to about 200 cfm/ft 2 . 20. The filter element of claim 16 , the porous substrate having a permeability greater than the permeability of the porous polymer layer. 21. The filter element of claim 16 , the hydrophobic surface of the porous substrate having a water contact angle of greater than about 50°. 22. The filter element of claim 16 , the porous substrate comprising woven fiberglass. 23. The filter element of claim 16 , the porous substrate comprising acid resistant woven fiberglass. 24. The filter element of claim 16 , the porous substrate comprising cellulose impregnated with silicone. 25. The filter element of claim 16 , further comprising a cylindrical inner liner, the separation article disposed on the cylindrical inner liner.