Gas dehydration with mixed adsorbent/desiccant beds

The invention claimed is: 1. A mixed adsorbent/desiccant bed effective for removing water from a wet gas stream to produce a dry gas stream, the bed having an axial length, a diameter, a bed volume, an inlet end and an outlet end, wherein from about 5 vol % to about 25 vol % of the bed volume from the inlet end towards the outlet end contains one or more desiccants comprising alumino-silicate gel and substantially no molecular sieves and other adsorbents, and the remaining bed volume contains a mixture comprising from about 1 vol % to about 99 vol % of one or more adsorbents comprising one or more molecular sieves and from about 99 vol % to about 1 vol % of the one or more desiccants comprising the alumino-silicate gel, based on a total volume of the mixture, wherein the one or more desiccants and the one or more adsorbents are each present independently as discrete particles, and wherein at a relative humidity of about 10%, the one or more adsorbents adsorb more water than the desiccants and at a relative humidity of about 90%, the one or more desiccants adsorb more water than the adsorbents, under ambient conditions, the amount of water absorbed being weight of water per weight of the adsorbents or desiccants. 2. The mixed absorbent/desiccant bed according to claim 1 , wherein the wet gas stream is an olefin gas stream, a carbon dioxide or carbon dioxide-containing gas stream or a natural gas stream. 3. The mixed adsorbent/desiccant bed according to claim 1 , wherein the wet gas stream has a relative humidity from about 10% to about 100% and wherein the dry gas stream contains ≤5.0 ppm water on a molar basis. 4. The mixed adsorbent/desiccant bed according to claim 1 , wherein the one or more molecular sieves are selected from the group consisting of chabazite comprising zeolite D, clinoptilolite, erionite, faujasite comprising zeolite X or zeolite Y, ferrierite, mordenite, zeolite A, zeolite P, zeolite 3A, zeolite 4A, zeolite 5A and zeolite 13X. 5. The mixed adsorbent/desiccant bed according to claim 1 , wherein in the mixture the desiccants are substantially uniformly distributed throughout the adsorbents. 6. The mixed adsorbent/desiccant bed according to claim 1 , wherein in the mixture, the desiccants are distributed in a gradient throughout the adsorbents. 7. The mixed adsorbent/desiccant bed according to claim 1 , wherein upon thermal regeneration, a micropore capacity of the adsorbent is not exceeded compared to the same bed containing no desiccant. 8. The mixed adsorbent/desiccant bed according to claim 1 , wherein upon thermal regeneration, there is less free water in the mixed adsorbent/desiccant bed compared to a same size bed containing no desiccant. 9. The mixed adsorbent/desiccant bed according to claim 1 , wherein the mixed adsorbent/desiccant bed further comprises a binder. 10. A system for removing water from a wet gas stream to produce a dry gas stream, the system comprising one or more of the mixed adsorbent/desiccant beds according to claim 1 and comprising one or more further processing elements, wherein the system is configured to subject the mixed adsorbent/desiccant bed or beds to thermal swing adsorption. 11. A method of removing water from a wet gas stream to produce a dry gas stream, the method comprising routing the wet gas stream over the mixed adsorbent/desiccant bed according to claim 1 .