Systems including an apparatus comprising both a humidification region and a dehumidification region

What is claimed is: 1. A desalination system, comprising: a vessel, comprising: a bubble column humidification region comprising a humidification region liquid inlet fluidly connected to a source of salt-containing water, a humidification region gas inlet fluidly connected to a source of a gas, and a humidification region gas outlet, wherein the bubble column humidification region is configured to produce a vapor-containing humidification region gas outlet stream enriched in water vapor relative to the gas received from the humidification region gas inlet; and a bubble column dehumidification region comprising a dehumidification region gas inlet fluidly connected to the humidification region gas outlet, a dehumidification region gas outlet, and a dehumidification region water outlet, wherein the bubble column dehumidification region is configured to remove at least a portion of the water vapor from the vapor-containing humidification region gas outlet stream to produce a dehumidification region water outlet stream and a dehumidification region gas outlet stream lean in water vapor relative to the humidification region gas outlet stream, wherein the bubble column humidification region and the bubble column dehumidification region are arranged vertically with each other and such that there is a continuous fluidic pathway, within the vessel, from the humidification region gas inlet, through the bubble column humidification region, through the bubble column dehumidification region, and out of the dehumidification region gas outlet. 2. A desalination system, comprising: a vessel, comprising: a bubble column humidification region comprising a humidification region gas inlet fluidly connected to a source of a gas, a humidification region gas outlet, and at least one humidification chamber containing a liquid layer comprising an amount of salt-containing water, wherein the bubble column humidification region is configured to produce a vapor-containing humidification region gas outlet stream enriched in water vapor relative to the gas received from the gas inlet; and a bubble column dehumidification region comprising a dehumidification region gas inlet fluidly connected to the humidification region gas outlet, a dehumidification region water outlet, and at least one dehumidification chamber containing a liquid layer comprising an amount of water, wherein the bubble column dehumidification region is configured to remove at least a portion of the water vapor from the humidification region gas outlet stream to produce a dehumidification region water outlet stream and a dehumidification region gas outlet stream lean in water vapor relative to the humidification region gas outlet stream, wherein: the bubble column humidification region and the bubble column dehumidification region are arranged vertically with each other and such that there is a continuous fluidic pathway, within the vessel, from the humidification region gas inlet, through the bubble column humidification region, through the bubble column dehumidification region, and out of the dehumidification region gas outlet, and the liquid layer of the at least one humidification chamber and/or the liquid layer of the at least one dehumidification chamber have a height of about 0.1 m or less. 3. A desalination system, comprising: a vessel, comprising: a bubble column humidification region comprising a humidification region gas inlet fluidly connected to a source of a gas, a humidification region gas outlet, and at least one humidification chamber containing a liquid layer comprising an amount of salt-containing water, wherein the bubble column humidification region is configured to produce a vapor-containing humidification region gas outlet stream enriched in water vapor relative to the gas received from the gas inlet; and a bubble column dehumidification region comprising a dehumidification region gas inlet fluidly connected to the humidification region gas outlet, a dehumidification region water outlet, and at least one dehumidification chamber containing a liquid layer comprising an amount of water, wherein the bubble column dehumidification region is configured to remove at least a portion of the water vapor from the humidification region gas outlet stream to produce a dehumidification region water outlet stream and a dehumidification region gas outlet stream lean in water vapor relative to the humidification region gas outlet stream, wherein: the bubble column humidification region and the bubble column dehumidification region are arranged vertically with each other and such that there is a continuous fluidic pathway, within the vessel, from the humidification region gas inlet, through the bubble column humidification region, through the bubble column dehumidification region, and out of the dehumidification gas outlet, and the at least one humidification chamber and/or the at least one dehumidification chamber are fluidly connected to one or more bubble generators. 4. The desalination system of claim 1 , wherein the gas comprises a non-condensable gas. 5. The desalination system of claim 1 , wherein the salt-containing water comprises seawater, brackish water, flowback water, water produced from an oil or gas extraction process, and/or wastewater. 6. The desalination system of claim 1 , wherein in operation, the pressure in the vessel is maintained at approximately ambient atmospheric pressure. 7. The desalination system of claim 1 , wherein the bubble column humidification region and/or the bubble column dehumidification region comprise a plurality of stages. 8. The desalination system of claim 1 , wherein the bubble column humidification region and/or the bubble column dehumidification region comprise a first stage comprising a first stage gas inlet, a first stage gas outlet, and a first stage chamber comprising a liquid layer, wherein the first stage gas inlet is fluidly coupled to one or more bubble generators. 9. The desalination system of claim 8 , wherein the bubble column humidification region and/or the bubble column dehumidification region further comprise a second stage comprising a second stage gas inlet, a second stage gas outlet, and a second stage chamber comprising a liquid layer, wherein the second stage gas inlet is in fluid communication with the first stage gas outlet and is fluidly coupled to one or more bubble generators. 10. The desalination system of claim 9 , wherein the bubble column humidification region and/or the bubble column dehumidification region further comprise a third stage comprising a third stage gas inlet, a third stage gas outlet, and a third stage chamber comprising a liquid layer, wherein the third stage gas inlet is in fluid communication with the first stage gas outlet and/or the second stage gas outlet and is fluidly coupled to one or more bubble generators. 11. The desalination system of claim 8 , wherein the one or more bubble generators comprise a sparger plate comprising a plurality of holes. 12. The desalination system of claim 8 , wherein in operation, the ratio of the height of the liquid layer of the first stage chamber to the length of the first stage chamber is about 1.0 or less. 13. The desalination system of claim 1 , wherein the bubble column humidification region is configured to flow a salt-containing water stream in a first direction and the vapor-containing humidification region gas outlet stream in a second, substantially opposite direction. 14. The desalination system of claim 1 , wherein the bubble column dehumidification region is configured to flow the dehumidification region water outlet stream in a first direction a