Electrolyzer system with steam generation and method of operating same

The invention claimed is: 1. An electrolyzer system, comprising: a central column configured to receive air and steam; stacks of solid oxide electrolyzer cells surrounding the central column and configured to receive the steam and the air output from the central column and output a hydrogen exhaust and an oxygen exhaust; a water preheater configured to preheat water using heat extracted from the oxygen exhaust; and a primary steam generator configured to generate steam provided to the central column by vaporizing the water preheated by the water preheater; an electric air heater configured to heat the air provided to the stacks from the central column, the electric air heater comprising: central heating elements disposed on an outer surface of the central column; and peripheral heating elements surrounding the stacks. 2. The electrolyzer system of claim 1 , further comprising: a supplemental steam generator configured to generate steam provided to the stack by vaporizing water using heat extracted from the oxygen exhaust; a first oxygen exhaust conduit fluidly connecting an oxygen exhaust outlet of a source of the oxygen exhaust to an oxygen exhaust inlet of the supplemental steam generator; and second oxygen exhaust conduit fluidly connecting an oxygen exhaust outlet of the supplemental steam generator to an oxygen exhaust inlet of the water preheater. 3. The electrolyzer system of claim 2 , wherein the water preheater is located down steam from the supplemental steam generator with respect to a flow direction of the oxygen exhaust, such that the oxygen exhaust provided to the water preheater has a lower temperature than the oxygen exhaust provided to the supplemental steam generator. 4. The electrolyzer system of claim 2 , wherein: the source of the oxygen exhaust comprises an air recuperator heat exchanger configured to preheat air provided to the stack by extracting heat from the oxygen exhaust; and the supplemental steam generator is configured to receive the oxygen exhaust output from the air recuperator through the first oxygen conduit. 5. The electrolyzer system of claim 2 , further comprising: a water conduit separately fluidly connecting a water source to the supplemental steam generator and to the water preheater; and a first valve on the water conduit configured to control flow of water through the water conduit to the supplemental steam generator. 6. The electrolyzer system of claim 5 , further comprising a second valve on the water conduit configured to control the flow of water through the water conduit to the water preheater. 7. The electrolyzer system of claim 2 , further comprising a flow restrictor configured to increase back pressure in the primary steam generator. 8. The electrolyzer system of claim 2 , further comprising a combined heat exchanger, wherein the supplemental steam generator and the water preheater are disposed in the combined heat exchanger, and wherein the combined heat exchanger comprises an oxygen exhaust chamber, and separate conduits configured to generate the preheated water and the supplemental steam, by extracting heat from oxygen exhaust flowing through the oxygen exhaust chamber. 9. The electrolyzer system of claim 2 , further comprising: a mixer fluidly connected to the primary steam generator and to the supplemental steam generator, and configured to receive the steam generated by the primary steam generator and the steam generated by the supplemental steam generator; and a steam heater fluidly connected to the mixer and configured to superheat steam output from the mixer and to provide the superheated steam to the stack or to a steam recuperator fluidly connected to the stack. 10. The electrolyzer system of claim 9 , further comprising: an air blower configured to provide the air through the central column to the stack; and a controller configured to control the air blower, in order to control an enthalpy flow of the oxygen exhaust. 11. The electrolyzer system of claim 2 , further comprising: a mixer configured to receive the steam from the primary steam generator and the steam from by the supplemental steam generator, and to output a steam mixture; a steam recuperator configured to heat the steam mixture using heat extracted from the hydrogen exhaust; and a steam heater configured to superheat the heated steam mixture output from the steam recuperator. 12. The electrolyzer system of claim 11 , wherein the mixer is configured to mix hydrogen into the steam received from the primary steam generator and from the supplemental steam generator at least during a start-up mode. 13. The electrolyzer system of claim 1 , wherein the electric air heater further comprises bottom heating elements disposed under the stacks. 14. The electrolyzer system of claim 1 , wherein: the central heating elements are disposed in a first zone, a third zone, and a second zone located between the first and third zones; and the electric air heater comprises a voltage source configured to independently control the central heating elements in each of the first, second, and third zones. 15. The electrolyzer system of claim 1 , wherein: the peripheral heating elements are disposed in a first zone and a second zone disposed below the first zone; and the electric air heater comprises a voltage source configured to independently control the peripheral heating elements in the first and second zones. 16. The electrolyzer system of claim 1 , further comprising a hotbox comprising an inner shell and an outer shell surrounding the inner shell, the hotbox housing the central column and the stacks, wherein the peripheral heating elements are disposed between the inner shell and the outer shell. 17. The electrolyzer system of claim 1 , wherein the central column further comprises an air preheater configured to preheat the air provided to the central column by extracting heat from the hydrogen exhaust. 18. The electrolyzer system of claim 17 , further comprising an air recuperator heat exchanger that surrounds the stacks and is configured to heat preheated air received from the air preheater by extracting heat from the oxygen exhaust, wherein the air heater is configured to heat heated air output from the air recuperator heat exchanger. 19. The electrolyzer system of claim 17 , further comprising an air recuperator heat exchanger that is disposed within the central column, the air recuperator heat exchanger configured to heat preheated air received from the air preheater by extracting heat from the oxygen exhaust, wherein the electric air heater is configured to heat heated air output from the air recuperator heat exchanger. 20. The electrolyzer system of claim 1 , further comprising a steam heater disposed in the central column and configured to superheat the steam provided to the stacks.