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A process for the production of highly purified water from Fischer-Tropsch reaction water, which process includes at least the steps of a primary treatment stage comprising biological treatment for removing at least a fraction of dissolved organic carbon from the Fischer-Tropsch reaction water to pr

A process for the production of highly purified water from Fischer-Tropsch reaction water, which process includes at least the steps of a primary treatment stage comprising biological treatment for removing at least a fraction of dissolved organic carbon from the Fischer-Tropsch reaction water to produce a primary water-enriched stream, a secondary treatment stage comprising solid-liquid separation for removing at least some solids from at least a portion of the primary water-enriched stream to produce a secondary water-enriched stream, and a tertiary treatment stage comprising a dissolved salt and organic removal step for removing at least some dissolved salts and organic constituents from at least a portion of the secondary water-enriched stream.

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What is claimed is: 1. A process for the production of purified water from Fischer-Tropsch reaction water containing oxygenated hydrocarbons, aliphatic, aromatic and cyclic hydrocarbons and inorganic compounds, wherein the purified water is an aqueous stream having a COD of between 20 and 600 mg/l,

What is claimed is: 1. A process for the production of purified water from Fischer-Tropsch reaction water containing oxygenated hydrocarbons, aliphatic, aromatic and cyclic hydrocarbons and inorganic compounds, wherein the purified water is an aqueous stream having a COD of between 20 and 600 mg/l, a pH of between 6.0 and 9.0, a suspended solids content of less than 250 mg/l and a total dissolved solids content of less than 600 mg/l, which process includes at least the steps of: a) a primary treatment stage comprising biological treatment for removing at least a fraction of dissolved organic carbon from the Fischer-Tropsch reaction water to produce a primary water-enriched stream; b) a secondary treatment stage comprising evaporation of at least a portion of the primary water-enriched stream thereby to reduce the total mass fraction of organic constituents in the unevaporated portion to produce a secondary water-enriched stream; and c) a tertiary treatment stage comprising solid-liquid separation for removing at least some solids from at least a portion of the secondary water-enriched stream. 2. The process of claim 1 wherein the dissolved organic carbon is selected from the group including: aldehydes, ketones, alcohols, and organic acids. 3. The process of claim 1 wherein the biological treatment includes one or both of: anaerobic treatment selected from the group including: Up-flow Anaerobic Sludge Blanket (UASB) processes, Fixed Bed systems, Fluidized Bed reactors, Stirred Tank reactors, Membrane Bioreactors, and Baffled reactors; and aerobic treatment selected from group including: Activated Sludge processes, Biological Aerated Filters, Trickling filters, Rotating Biological Contacters, High-rate Compact Reactors, Membrane Bioreactors, and Fluidized Bed reactors. 4. The process of claim 1 wherein the evaporation takes place by using the primary water-enriched stream as make up water to an evaporative cooling tower at ambient temperature and pressure in a cooling tower. 5. The process of claim 4 wherein the evaporative cooling tower is selected from the group including: mechanical-draft cooling towers, natural-draft cooling towers, and forced-draft cooling towers. 6. The process of claim 1 wherein the tertiary treatment stage removes suspended solids from the secondary water-enriched stream produced during evaporation by one or more method selected from the group including: sand filtration, membrane separation, flocculation sedimentation, dissolved air flotation with the use of flocculants, dissolved air flotation without the use of flocculants, and centrifugation. 7. The process of claim 6 wherein the membrane separation method includes one or both of microfiltration and ultrafiltration. 8. A process for the production of highly purified water from Fischer-Tropsch reaction water containing oxygenated hydrocarbons, aliphatic, aromatic and cyclic hydrocarbons and inorganic compounds, wherein the highly purified water is an aqueous stream having a COD of less than 50 mg/l, a pH of between 6.0 and 9.0, a suspended solids content of less than 50 mg/l and a total dissolved solids content of less than 100 mg/l, and wherein the process includes at least the steps of: a) a primary treatment stage comprising biological treatment for removing at least a fraction of dissolved organic carbon from the Fischer-Tropsch reaction water to produce a primary water-enriched stream; b) a secondary treatment stage comprising evaporation of at least a portion of the primary water-enriched stream thereby to reduce the total mass fraction of organic constituents in the unevaporated portion to produce a secondary water-enriched stream; c) a tertiary treatment stage comprising solid-liquid separation for removing at least some solids from at least a portion of the secondary water-enriched stream to produce a tertiary water-enriched stream; and d) a final treatment stage comprising a dissolved salt and organic removal step for removing at least some dissolved salts and organic constituents from at least a portion of the tertiary water-enriched stream. 9. The process of claim 8 wherein the dissolved organic carbon is selected from the group including: aldehydes, ketones, alcohols, and organic acids. 10. The process of claim 8 wherein the biological treatment includes one or both of: anaerobic treatment selected from the group including: Up-flow Anaerobic Sludge Blanket (UASB) processes, Fixed Bed systems, Fluidized Bed reactors, Stirred Tank reactors, Membrane Bioreactors and Baffled reactors; and aerobic treatment selected from group including: Activated Sludge processes, Biological Aerated Filters, Trickling filters, Rotating Biological Contacters, High-rate Compact Reactors, Membrane Bioreactors, and Fluidized Bed reactors. 11. The process of claim 8 wherein the evaporation takes place by using the primary water-enriched stream as make up water to an evaporative cooling tower at ambient temperature and pressure. 12. The process of claim 11 wherein the evaporative cooling tower is selected from the group including: mechanical-draft cooling towers, natural-draft cooling towers, and forced-draft cooling towers. 13. The process of claim 8 wherein the tertiary treatment stage removes suspended solids from the primary water-enriched stream produced during biological treatment by one or more method selected from the group including: sand filtration, membrane separation, flocculation sedimentation, dissolved air flotation with the use of flocculants, dissolved air flotation without the use of flocculants, and centrifugation. 14. The process of claim 13 wherein the membrane separation method includes one or both of microfiltration and ultrafiltration. 15. The process of claim 8 wherein the organic constituents are removed in the final treatment stage by one or more method selected from the group including: chemical oxidation, ultraviolet light generated free radicals, adsorption and/or absorption processes. 16. The process of claim 15 wherein the adsorption/absorption processes include one or both of activated carbon treatment and the use of organic scavenging resins. 17. The process of claim 8 wherein dissolved salts are reduced in the final treatment stage by one or more method selected from the group including: ion exchange, reverse osmosis, nano-filtration, and chemical precipitation processes. 18. The process of claim 17 wherein the chemical precipitation processes are selected from one or both of hot lime softening and cold lime softening.