System and method for the treatment of biogas and wastewater

The invention claimed is: 1 . A method of treating wastewater, the method comprising the steps of: providing a nanobubbles generator comprising a volume for receiving a liquid, providing a liquid in the volume, and distributing a gas within the liquid in the volume, the gas comprising one or more constituent gas components; generating a static electric field using an electrode in the proximity of the volume of the nanobubbles generator for facilitating the generation of nanobubbles of a first gas component; wherein the electrode and the liquid are not in direct electrical contact to prevent electrolysis occurring within the volume of the nanobubble generator; providing a vessel for receiving wastewater and the nanobubbles of the first gas component; directing the wastewater and the nanobubbles of the first gas component to the vessel, reducing the temperature of the contents of the vessel from a first temperature to a second temperature to facilitate the formation of clathrate hydrates comprising the wastewater and the first gas component; increasing the temperature of the contents of the vessel with respect to the second temperature to facilitate melting of the clathrate hydrates; and removing clean water and/or the first gas component from the vessel. 2 . A method of treating wastewater according to claim 1 , further comprising removing residual from the vessel. 3 . A method of treating wastewater according to claim 1 , further comprising removing from the nanobubbles generator a second gas component of the gas. 4 . A method of treating wastewater according to claim 1 , wherein the first gas component comprises carbon dioxide or carbon monoxide. 5 . A method of treating wastewater according to claim 1 , wherein a second gas component comprises methane. 6 . A system for treating wastewater, the system comprising: a nanobubbles generator comprising a volume for receiving therein a liquid and a gas, wherein the gas is distributed within the liquid within the volume, wherein the gas comprises one or more constituent gas components; an electrode for applying a static electric field in the vicinity of the volume of the nanobubble generator to facilitate generation of nanobubbles of the first gas component, wherein the electrode and the first liquid are not in direct electrical contact to prevent electrolysis occurring within the volume of the nanobubbles generator; a vessel for receiving wastewater and the first gas component; means for directing the wastewater and the nanobubbles of the first gas component to the vessel; a temperature control means configured: for reducing the temperature of the contents of the vessel from a first temperature to a second temperature to facilitate the formation of clathrate hydrates comprising the wastewater and the first gas component; and increasing the temperature of the vessel with respect to the second temperature to facilitate melting of the clathrate hydrates; and means for removing clean water and/or the first gas component from the vessel. 7 . A system for treating wastewater according to claim 6 , further comprising a means for removing residual from the vessel. 8 . A system for treating wastewater according to claim 6 , further comprising means for removing from the nanobubbles generator a second gas component. 9 . A system for treating a multi-component mixture, comprising: a nanophase generator for generating nanobubbles or nanodroplets, the nanophase generator comprising a volume, the volume having a liquid therein and a first medium distributed within the liquid within the volume; an electrode for generating an electric field in the proximity of the volume of the nanophase generator for facilitating the generation of the nanobubbles or the nanodroplets of the first medium; wherein the electrode and the liquid are not in direct electrical contact to prevent electrolysis occurring within the nanophase generator; a vessel for receiving the first medium and a second medium, wherein the vessel is connected to the generator via a conduit; a source for supplying the second medium to the vessel; means for controllably releasing the nanobubbles or the nanodroplets from a volume of the nanophase generator to the vessel; and a temperature control means for controlling the temperature of the contents of the vessel, wherein the temperature control means is configured to control the temperature of the contents of the vessel to facilitate the formation of hydrates comprising the first medium and the second medium, and wherein the temperature control means is configured to control the temperature to facilitate melting of the hydrates to provide a first treated medium and a second treated medium. 10 . A system for treating a multi-component mixture according to claim 9 , further comprising at least one outlet for directing one or more of a first treated medium, a second treated medium or particulate matter out of the vessel. 11 . A system for treating a multi-component mixture according to claim 9 , wherein the source for providing the first medium is also the source for providing the second medium. 12 . A system for treating a multi-component mixture according to claim 9 , wherein the source of the gas is a flue. 13 . A method for treating a multi-component mixture, comprising: providing a nanophase generator for generating nanobubbles or nanodroplets, the nanophase generator comprising a volume; providing a liquid in the volume and distributing a first medium within the liquid within the volume; generating an electric field using an electrode in the proximity of the volume of the nanophase generator for facilitating the generation of nanobubbles or nanodroplets of the first medium; wherein the electrode and the liquid are not in direct electrical contact to prevent electrolysis occurring within the nanophase generator; controllably releasing, from the nanophase generator to a vessel, the nanobubbles or the nanodroplets; providing a second medium to the vessel; controlling the temperature of the contents of the vessel to facilitate the formation of hydrates comprising the first medium and the second medium, and controlling the temperature of the contents of the vessel to facilitate melting of the hydrates to provide a first treated medium and a second treated medium. 14 . A method of treating a multi-component mixture according to claim 13 , wherein the hydrates formed are clathrate hydrates. 15 . A method of treating a multi-component mixture according to claim 13 , further comprising directing one or more of the first treated medium, the second treated medium, or particulate matter out of the vessel. 16 . A method of treating a multi-component mixture according to claim 13 , wherein the first medium comprises one or more of methane and carbon dioxide. 17 . A method of treating a multi-component mixture according to claim 14 , wherein the clathrate hydrates are formed from carbon dioxide molecules and wastewater. 18 . A method of treating a multi-component mixture according to claim 13 , wherein the source for providing the first medium is also the source for providing the second medium; or wherein the source for providing the first medium and the second medium is an anaerobic digester; or wherein the gas comprises O2 or N2; or wherein the second medium comprises petroleum; or wherein the gas comprises atmospheric air. 19 . A method of treating a multi-component mixture according to claim 13 ; further comprising de