Separator

The invention claimed is: 1. A separator for separating one or more components selected from particulate material, hydrophobic material, non-polar material, microorganisms, or viruses from a mixture of water and the one or more components or from a mixture of a polar liquid and the one or more components, wherein the separator comprises a vessel, a single downstream porous retainer extending across the vessel, and a single continuous layer consisting of a metal hydroxide hydrate gel extending fully across the single downstream porous retainer to ensure that all filtrate has passed through the single continuous layer of metal hydroxide hydrate gel, the single continuous layer of the metal hydroxide hydrate gel being positioned upstream of the single downstream porous retainer, the single continuous layer of the metal hydroxide hydrate gel retaining the one or more components on the single continuous layer of the metal hydroxide hydrate gel whilst the water or the polar liquid passes through the single continuous layer of the metal hydroxide hydrate gel to thereby separate the one or more components from the water or the polar liquid, wherein the metal hydroxide hydrate gel is selected from a gel comprising one or more of aluminium hydroxide hydrate, magnesium hydroxide hydrate, zinc hydroxide hydrate, manganese hydroxide hydrate, cobalt hydroxide hydrate and nickel hydroxide hydrate, wherein the separator further comprises a single upstream retainer placed upstream from the single continuous layer of the metal hydroxide hydrate gel. 2. A separator as claimed in claim 1 wherein the single upstream retainer comprises a fabric, a woven material, a foraminous material, a solid material having one or more holes or pores therein, a porous ceramic material, or a mesh material. 3. A separator as claimed in claim 1 wherein the single continuous layer of the metal hydroxide hydrate gel has a thickness of from 1 micron to 1 meter. 4. A separator as claimed in claim 1 wherein the metal hydroxide hydrate gel has at least 10 molecules of water associated with each molecule of metal hydroxide. 5. A method comprising a separator as claimed in claim 1 , wherein the method comprises supplying the mixture to the separator and causing the water or the polar liquid from the mixture to pass through the single continuous layer of the metal hydroxide hydrate gel, wherein all filtrate passes through the single continuous layer of the metal hydroxide hydrate gel and wherein the one or more components cannot pass through the single continuous layer of the metal hydroxide hydrate gel and the one or more components are retained on the single continuous layer of the metal hydroxide hydrate gel whilst the water or polar liquid passes through the single continuous layer of the metal hydroxide hydrate gel. 6. A method as claimed in claim 5 wherein pressure is applied to the mixture. 7. A method as claimed in claim 5 wherein the metal hydroxide hydrate gel is prepared by generating a metal hydroxide in water or in an aqueous solution to thereby form the metal hydroxide hydrate gel or wherein the metal hydroxide hydrate gel is prepared by mixing two or more reactants together to thereby form the metal hydroxide hydrate gel or the metal hydroxide hydrate gel is formed by electrolysis. 8. A separator as claimed in claim 3 wherein the single continuous layer of the metal hydroxide hydrate gel has a thickness of from 1 micron to 50 cm. 9. A separator as claimed in claim 3 wherein the single continuous layer of the metal hydroxide hydrate gel has a thickness of from 1 micron to 10 cm. 10. A separator as claimed in claim 3 wherein the single continuous layer of the metal hydroxide hydrate gel has a thickness of from 1 micron to 10 mm. 11. A separator as claimed in claim 4 wherein the metal hydroxide hydrate gel has from 30 to 400 molecules of water associated with each molecule of metal hydroxide. 12. A separator as claimed in claim 4 wherein the metal hydroxide hydrate gel has from 37 to 300 molecules of water associated with each molecule of metal hydroxide. 13. A separator as claimed in claim 4 wherein the metal hydroxide hydrate gel has from 37 to 90 molecules of water associated with each molecule of metal hydroxide. 14. A separator as claimed in claim 1 wherein the separator comprises an inlet through which the mixture enters the separator and an outlet through which the water or polar liquid that has passed through the single continuous layer of the metal hydroxide hydrate gel exits the separator.