Electrolysis systems and methods for life extension of an apparatus such as a balloon

What is claimed is: 1 . A balloon, comprising: an envelope containing a lift gas therein; a container storing ballast liquid therein; and an electrolyzer configured to receive the ballast liquid from the container, convert the ballast liquid into additional lift gas, and provide the additional lift gas to the envelope. 2 . The balloon according to claim 1 , wherein the ballast liquid is water, wherein the electrolyzer is configured to convert the water into hydrogen gas and oxygen gas, and wherein the hydrogen case is the additional lift gas and the oxygen gas is a byproduct gas. 3 . The balloon according to claim 1 , wherein the ballast liquid is an aqueous methanol-water mixture, wherein the electrolyzer is configured to convert the aqueous methanol-water mixture into hydrogen gas and carbon dioxide gas, and wherein the hydrogen gas is the additional lift gas and the carbon dioxide gas is a byproduct gas. 4 . The balloon according to claim 1 , wherein the container includes a valve configured to enable selective dumping of the ballast liquid. 5 . The balloon according to claim 1 , further comprising a condenser configured to condense water vapor into water and provide the water to the container for storage therein as ballast liquid. 6 . The balloon according to claim 1 , wherein the container includes a sun-facing surface and a shaded surface, the sun-facing surface including a higher solar absorptivity as compared to the shaded surface. 7 . The balloon according to claim 6 , wherein an orientation of the container is controlled such that the sun-facing surface remains oriented towards the sun. 8 . The balloon according to claim 1 , further comprising payload including communication components configured to enable connection to a data communication network. 9 . The balloon according to claim 1 , further comprising a controller configured to control activation of the electrolyzer. 10 . A method of controlling a balloon, comprising: storing ballast liquid in a container associated with a balloon; electrolyzing the ballast liquid to convert the ballast liquid into additional lift gas; and providing the additional lift gas to the balloon. 11 . The method according to claim 10 , wherein the ballast liquid is water, and wherein electrolyzing the water includes producing hydrogen gas as the additional lift gas and oxygen gas as a byproduct gas. 12 . The method according to claim 10 , wherein the ballast liquid is an aqueous methanol-water mixture, and wherein electrolyzing the aqueous methanol-water mixture includes producing hydrogen gas as the additional lift gas and carbon dioxide gas as a byproduct gas. 13 . The method according to claim 10 , wherein storing the ballast liquid includes at least partially filling the container with the ballast liquid prior to launch of the balloon. 14 . The method according to claim 10 , wherein storing the ballast liquid includes condensing water vapor into liquid water or melting frost into liquid water for storage in the container as the ballast liquid. 15 . The method according to claim 10 , further comprising opening a valve to dump at least a portion of the ballast liquid from the container. 16 . The method according to claim 15 , wherein the valve is opened to provide lift to the balloon when lift is required urgently. 17 . The method according to claim 10 , further comprising inhibiting electrolysis to prevent a lift gas of the balloon from becoming flammable. 18 . A non-transitory computer-readable storage medium storing instructions that, when executed by a processor, cause the processor to: determine whether lift is desired in a balloon having associated therewith a container storing ballast liquid therein; if lift is desired, determine whether the lift should be provided by dumping the ballast liquid or electrolyzing the ballast liquid; if it is determined that the lift should be provided by dumping the ballast liquid, open a valve to dump the ballast liquid from the container; and if it is determined that the lift should be provided by electrolyzing the ballast liquid, initiate electrolysis of the ballast liquid to convert the ballast liquid into additional lift gas. 19 . The medium according to claim 18 , wherein determining whether the lift should be provided by dumping the ballast liquid or electrolyzing the ballast liquid includes determining whether the lift is required urgently. 20 . The medium according to claim 18 , wherein determining whether the lift should be provided by dumping the ballast liquid or electrolyzing the ballast liquid includes determining a ratio of helium to hydrogen in a lift gas of the balloon. 21 . An aerial vehicle, the aerial vehicle at least one of storing or utilizing lift gas, the aerial vehicle comprising: a container storing liquid therein; and an electrolyzer configured to receive the liquid from the container, convert the liquid into additional lift gas, and provide the additional lift gas for storage or utilization by the aerial vehicle. 22 . The aerial vehicle according to claim 21 , wherein the aerial vehicle further includes an envelope, the envelope containing a lift gas therein. 23 . The aerial vehicle according to claim 22 , wherein the electrolyzer is configured to provide the additional lift gas to the envelope. 24 . The aerial vehicle according to claim 21 , wherein the aerial vehicle is a balloon. 25 . The aerial vehicle according to claim 21 , wherein the liquid is water, wherein the electrolyzer is configured to convert the water into hydrogen gas and oxygen gas, and wherein the hydrogen gas is the additional lift gas and the oxygen gas is a byproduct gas. 26 . The aerial vehicle according to claim 21 , wherein the liquid is an aqueous methanol-water mixture, wherein the electrolyzer is configured to convert the aqueous methanol-water mixture into hydrogen gas and carbon dioxide gas, and wherein the hydrogen gas is the additional lift gas and the carbon dioxide gas is a byproduct gas. 27 . The aerial vehicle according to claim 21 , wherein the container includes a valve configured to enable selective dumping of the liquid. 28 . The aerial vehicle according to claim 21 , further comprising a condenser configured to condense water vapor into water and provide the water to the container for storage therein. 29 . The aerial vehicle according to claim 21 , wherein the container includes a sun-facing surface and a shaded surface, the sun-facing surface including a higher solar absorptivity as compared to the shaded surface. 30 . The aerial vehicle according to claim 29 , wherein an orientation of the container is controlled such that the sun-facing surface remains oriented towards the sun. 31 . The aerial vehicle according to claim 21 , further comprising a controller configured to control activation of the electrolyzer.