Perforated graphene deionization or desalination

What is claimed is: 1. A separation apparatus, comprising: a housing; at least one first sheet of graphene, within the housing, with plural perforated apertures having a desired size to allow passage of a fluid and to disallow passage of selected components in the fluid, said at least one first sheet of graphene having a first side and a second side opposite the first side; a source of said fluid directing said fluid along a flow path substantially parallel to said at least one first sheet of graphene, the fluid flowing on to a first surface of the first side of said at least one first sheet of graphene so that a portion of the fluid flows to the second side of said at least one first sheet of graphene through said plural perforated apertures while the disallowed selected components in the fluid are prevented from flowing through the perforated apertures, wherein a length of a flow path through the apertures of a sheet of the at least one first sheet of graphene is equal to a thickness of the sheet of the at least one first sheet of graphene; and at least one second sheet of graphene, within the housing, and separated from the at least one first sheet of graphene, allowing the passage of fluid passing through the first sheet of graphene to pass through the second sheet of graphene and disallow passage of second selected components; wherein apertures in the at least one first sheet of graphene have a different size than apertures in the at least one second sheet of graphene; wherein the housing is provided with a fluid inlet and fluid outlets for removing the disallowed components and the fluid treated. 2. The apparatus according to claim 1 , wherein said plural perforated apertures are sized in a range of 0.6 to 1.2 nanometers. 3. The apparatus according to claim 1 , further comprising: a supporting membrane on a side of said at least one first sheet of graphene opposite said flow path, said supporting membrane selected from the group consisting of polytetrafluoroethylene, perforated polycarbonate film, and sintered porous metal, said supporting membrane perforated with a plurality of apertures. 4. The apparatus according to claim 1 , wherein said apertures are nominally spaced apart by 15 nanometers. 5. The apparatus according to claim 1 , wherein the selected components comprise at least one of gasses, particulates, solutes, molecules, or hydrocarbons. 6. The apparatus according to claim 1 , wherein said source of said fluid is configured to provide a pressurized flow of said fluid. 7. A method for separating selected components from a fluid, comprising: directing said fluid to at least one first sheet of graphene, said at least one first sheet of graphene with plural perforated apertures having a desired size to allow passage of the fluid and to disallow passage of the selected components in the fluid, said at least one first sheet of graphene having a first side and a second side opposite the first side; and directing said fluid along a flow path substantially parallel to said at least one first sheet of graphene, the fluid flowing on to a first surface of the first side of said at least one first sheet of graphene so that a portion of the fluid flows to the second side of said at least one first sheet of graphene through said plural perforated apertures while the disallowed selected components in the fluid are prevented from flowing through the perforated apertures, wherein a length of a flow path through the apertures of a sheet of the at least one first sheet of graphene is equal to a thickness of the sheet of the at least one first sheet of graphene; at least one second sheet of graphene being within a same housing and separated from the at least one first sheet of graphene, allowing the passage of fluid passing through the first sheet of graphene to pass through the second sheet of graphene and disallow passage of second selected components; wherein apertures in the at least one first sheet of graphene have a different size than apertures the at least one second sheet of graphene; and removing the fluid passing through the at least one second sheet of graphene, and the disallowed components from the first and second graphene sheets. 8. The method according to claim 7 , wherein said plural perforated apertures are sized in a range of 0.6 to 1.2 nanometers. 9. The method according to claim 7 , wherein a supporting membrane is disposed on a side of said at least one first sheet of graphene opposite said flow path, said supporting membrane selected from the group consisting of polytetrafluoroethylene, perforated polycarbonate film, and sintered porous metal, said supporting membrane perforated with a plurality of apertures. 10. The method according to claim 7 , wherein said apertures are nominally spaced apart by 45 nanometers. 11. The method according to claim 7 , wherein the selected components comprise at least one of gasses, particulates, solutes, molecules, or hydrocarbons. 12. The method according to claim 7 , wherein directing said fluid along a flow path comprises directing a pressurized fluid. 13. A separation apparatus, comprising: a housing; at least one first sheet of graphene, within the housing, with plural perforated apertures having a desired size to allow passage of a fluid and to disallow passage of selected components in the fluid, said at least one first sheet of graphene having a first side and a second side opposite the first side; a source of said fluid directing said fluid along a flow path, the fluid flowing on to a first surface of the first side of said at least one first sheet of graphene so that a portion of the fluid flows to the second side of said at least one first sheet of graphene through said plural perforated apertures while the disallowed selected components in the fluid are prevented from flowing through the perforated apertures, wherein a length of a flow path through the apertures of a sheet of the at least one first sheet of graphene is equal to a thickness of the sheet of the at least one first sheet of graphene; and at least one second sheet of graphene within the housing, and separated from the at least one first sheet of graphene, allowing the passage of fluid passing through the first sheet of graphene to pass through the second sheet of graphene and disallow passage of second selected components; wherein apertures in the at least one first sheet of graphene have a different size than apertures in the at least one second sheet of graphene; wherein the housing is provided with a fluid inlet and fluid outlets for removing the disallowed components and the fluid treated. 14. A method for separating selected components from a fluid, comprising: directing said fluid to at least one sheet of graphene, said at least one first sheet of graphene with plural perforated apertures having a desired size to allow passage of the fluid and to disallow passage of the selected components in the fluid, said at least one first sheet of graphene having a first side and a second side opposite the first side; directing said fluid along a flow path, the fluid flowing on to a first surface of the first side of said at least one first sheet of graphene so that a portion of the fluid flows to the second side of said at least one first sheet of graphene through said plural perforated apertures while the disallowed selected components in the fluid are prevented from flowing through the perforated apertures; wherein a length of a flow path through the apertures of a sheet of the at least one sheet of graphene is equal to a thickness of the sheet of the at least one first sheet of graphene; providing