Electrochemical conversion to carbonate-containing compounds and related methods

1 . A system, comprising: a fluid container; an electrode pair configured to convert at least one species in a fluid, when present in the container, to a solid; and a nanotextured surface configured to facilitate nucleation of a solid within the container. 2 . The system of claim 1 , wherein the solid comprises a carbonate-containing compound. 3 . A system, comprising: a first fluid portal associated with a first portion of the flow system and a second fluid portal associated with a second portion of the flow system; a first set of electrodes associated with the first portion of the flow system, configured to alter the pH of water when present in the first portion; a second set of electrodes associated with a second portion of the flow system, configured to alter the pH of water when present in the second portion; a nanotextured surface configured to facilitate nucleation of a solid within the container, wherein the flow system is configured to operate in a first arrangement in which the system draws fluid into the system from the first fluid portal, flows the fluid in a direction from the first portal toward the second portal, through the first portion and the second portion, and ejects the fluid from the second fluid portal, and to be adjustable so as to operate in a second arrangement in which the system draws fluid into the system from the second fluid portal, flows the fluid in a direction from the second portal toward the first portal, through the second portion and the first portion, and ejects the fluid from the first fluid portal. 4 - 6 . (canceled) 7 . A method, comprising: intaking an aqueous solution containing bicarbonate through a first orifice into a flow system; in a first portion of the flow system, electrochemically raising the pH of the solution by releasing OH − from a first electrode into the solution, and/or capturing H + from the solution at the first electrode, thereby causing precipitation of at least some bicarbonate; flowing the solution into a second portion of the flow system, and at a second electrode electrochemically lowering the pH of the solution by capturing OH − from the solution at a second electrode and/or releasing H + into the solution from the second electrode; ejecting the solution from the flow system through a second orifice. 8 . The method as in claim 7 , further comprising: intaking an aqueous solution containing bicarbonate through the second orifice into the flow system; in the second portion of the flow system, electrochemically raising the pH of the solution by releasing OH − from the second electrode into the solution, and/or capturing H + from the solution at the second electrode, thereby causing precipitation of at least some bicarbonate; flowing the solution into the first portion of the flow system, and at the first electrode electrochemically lowering the pH of the solution by capturing OH − from the solution at the first electrode and/or releasing H + into the solution from the first electrode; ejecting the solution from the flow system through the first orifice. 9 . The method of claim 7 , wherein at least some bicarbonate is removed from the solution, facilitated by nucleating at least some bicarbonate at a surface, wherein the surface optionally is a surface of a nanotextured surface. 10 . The method of claim 7 , wherein the gas permeable article is water impermeable and is not ionically nor electronically conductive. 11 . The method as in claim 7 , wherein the flow system is essentially free of anolyte and catholyte. 12 . The method as in claim 7 , wherein the method is free of electrolysis. 13 . The method as in claim 7 , wherein the solution is seawater. 14 . The system claim 1 , wherein the gas permeable article is permeable to carbon dioxide. 15 . The system of claim 1 , wherein the nanotextured surface is configured to facilitate nucleation of carbon dioxide. 16 . The method of claim 7 , wherein lowering the pH comprises lowering the pH from a first pH to a second pH, wherein the second pH is lower than the first pH. 17 . The method of claim 7 , wherein raising the pH comprises raising the pH from a first pH to a second pH, wherein the second pH is greater than the first pH.