Method for high-temperature electrolysis of steam and another gas, related interconnector, electrolysis reactor and operating methods

The invention claimed is: 1. A method for high-temperature electrolysis of steam H 2 O and of another gas to be electrolyzed selected from carbon dioxide CO 2 and nitrogen dioxide NO 2 , carried out in an electrolysis reactor comprising a stack of elementary electrolysis solid oxides cells each formed from a cathode, an anode and an electrolyte interposed between the cathode and the anode, and a plurality of electrical and fluidic interconnectors each arranged between two adjacent elementary cells with one of its faces in electrical contact with the anode of one of the two elementary cells and the other of its faces in electrical contact with the cathode of the other of the two elementary cells, comprising the following steps: supplying and distributing steam to the cathode of one of the two adjacent elementary cells and, supplying and distributing either carbon dioxide or nitrogen dioxide to the cathode of the other of the two elementary cells. 2. The method of electrolysis as claimed in claim 1 , comprising the steps: defining an operating regime in exothermic mode for steam electrolysis at the cathode of one of the two adjacent elementary cells and simultaneously, establishing an operating regime in endothermic mode for electrolysis of carbon dioxide or nitrogen dioxide at the cathode of the other of the two adjacent elementary cells, wherein the heat released by steam electrolysis is able to supply, at least partly, the heat required by the electrolysis of carbon dioxide or of nitrogen dioxide. 3. The method of electrolysis as claimed in claim 1 , comprising the steps: defining an operating regime in exothermic mode for electrolysis of carbon dioxide or nitrogen dioxide at the cathode of one of the two adjacent elementary cells and simultaneously, establishing an operating regime in endothermic mode for steam electrolysis of the other of the two adjacent elementary cells, wherein the heat released by the electrolysis of carbon dioxide or nitrogen dioxide being able to supply, at least partly, the heat required by the steam electrolysis. 4. A device forming an electrical and fluidic interconnector for high-temperature electrolysis of steam and another gas to be electrolyzed selected from carbon dioxide CO 2 and nitrogen dioxide NO 2 , said device consisting of three flat sheets, elongated along two axes of symmetry (X, Y) orthogonal to one another, one of the end sheets being intended to come into mechanical contact with the plane of a cathode of an elementary electrolysis cell and the other of the end sheets being intended to come into mechanical contact with the plane of an anode of an adjacent elementary electrolysis cell, each of the two adjacent elementary electrolysis solid oxides cells being formed from a cathode, an anode, and an electrolyte interposed between the cathode and the anode, wherein in said device each of the three flat sheets comprises an unperforated central part and is perforated, at the periphery of its central part, with at least five openings, the first to fourth openings of each sheet being elongated over a length corresponding to a part of the length of the central part along one of the X axes of the sheets and being distributed two by two on either side of said X axis, whereas the fifth opening is elongated over a length roughly corresponding to the length of the central part along the other of the Y axes, one of the end sheets, called first end sheet, further comprises a sixth and seventh openings arranged symmetrically on either side of the X axis, within its first to fourth openings, and are elongated over a length roughly corresponding to the length of the central part along the X axis, whereas the other of the end sheets, called second end sheet, further comprises a sixth opening, and elongated over a length roughly corresponding to the length of the central part along said Y axis, and, the first, third, and fifth openings in the central sheet being broadened relative to, respectively, the first, third and fifth openings of each end sheet, whereas the second and fourth openings of the three sheets are of dimensions roughly identical to one another, all the broadened openings of the central sheet comprise, in their broadened part, tongues of sheets spaced apart forming a comb, each of the slits defined between the edge of a broadened slit and a tongue or between two consecutive tongues opening onto one of the interior openings of the first or second end sheet, the three sheets are stratified and assembled together so that: the tongues of sheets form spacer frames between first and second end sheets respectively between the first and sixth openings of the first end sheet, between the third and seventh openings of the first end sheet, and between the fifth and sixth openings of the second end sheets, each of the first to fifth openings of one of the three sheets is in fluid communication individually respectively with one of the corresponding first to fifth openings of the other two sheets, the first or alternatively the second opening of the first end sheet is in fluid communication with the sixth opening of the first end sheet via the slits of the first broadened opening of the central sheet, the third or alternatively the fourth opening of the first end sheet is in fluid communication with the seventh opening of the first end sheet via the slits of the third broadened opening of the central sheet, the fifth and the sixth openings of the second end sheet are in fluid communication via the slits of the fifth broadened opening of the central sheet. 5. The electrical and fluidic interconnector as claimed in claim 4 , wherein: the first end sheet further comprises an eighth opening elongated over a length roughly corresponding to the length of the central part along the other of the Y axes and arranged opposite its fifth opening relative to the Y axis, the second end sheet further comprises a seventh opening elongated over a length roughly corresponding to the length of the central part along the other of the Y axes and arranged opposite its fifth opening relative to the Y axis, and an eighth opening elongated over a length roughly corresponding to the length of the central part along said Y axis, and arranged opposite its sixth opening relative to the Y axis, the central sheet further comprises a sixth opening broadened relative to the eighth of the first end sheet and to the seventh opening of the second end sheet, the three sheets are assembled together in such a way that the seventh and eighth openings elongated along the Y axis of the second end sheet are in fluid communication via the sixth opening of the central sheet. 6. The electrical and fluidic interconnector as claimed in claim 4 , wherein the three sheets are assembled together by welding or brazing. 7. The electrical and fluidic interconnector as claimed in claim 4 , wherein the three sheets are assembled together by weld lines (ls) closed individually around each fluid communication. 8. The electrical and fluidic interconnector as claimed in claim 4 , wherein the three sheets are of ferritic steel at about 20% chromium. 9. The electrical and fluidic interconnector as claimed in claim 4 , wherein each of the three sheets has a thickness between 0.1 and 1 mm. 10. The electrical and fluidic interconnector as claimed in claim 4 , wherein the three sheets are perforated at their periphery with additional openings suitable for housing fixing tie rods. 11. An electrolysis reactor comprising a stack of elementary electrolysis solid oxides cells each formed from a cathode, an anode and an electrolyte interposed between the cathode and the anode, and a plurality of electrical and fluidic inter