Assembly comprising a SOEC/SOFC-type solid oxide stack and a clamping system with an integrated gas superheating system

What is claimed is: 1. Assembly, including: a SOEC/SOFC-type solid oxide stack operating at high temperature, including: a plurality of electrochemical cells each formed of a cathode, an anode and an electrolyte inserted between the cathode and the anode, and a plurality of intermediate interconnectors each arranged between two adjacent electrochemical cells, an upper end plate and a lower end plate, between which the plurality of electrochemical cells and the plurality of intermediate interconnectors are clamped, a system for clamping the SOEC/SOFC-type solid oxide stack, including an upper clamping plate and a lower clamping plate, between which the SOEC/SOFC-type solid oxide stack is clamped, wherein it further includes: a system for superheating the gases at the input of the SOEC/SOFC-type solid oxide stack, including: at least one heating plate integrated in the thickness of at least one of the upper and lower clamping plates suitable for heating the gases to be heated, at least one upper gas superheating end plate, positioned between the upper clamping plate and the SOEC/SOFC-type solid oxide stack, and/or a lower gas superheating end plate, positioned between the lower clamping plate and the SOEC/SOFC-type solid oxide stack, each gas superheating end plate including a gas circulation circuit from a first end, where the gases to be heated arrive, to a second end, where the heated gases are discharged towards the stack, at least one input duct of the gases to be heated communicating with the first end of a gas superheating end plate, such that a stream of gas to be heated entering said at least one input duct circulates in the gas circulation system, from the first end to the second end to reach the input of the SOEC/SOFC-type solid oxide stack. 2. Assembly according to claim 1 , wherein the gas circulation circuit extends in a sinusoidal shape from the first end to the second end. 3. Assembly according to claim 1 , wherein said at least one upper gas superheating end plate and/or said at least one lower gas superheating end plate are respectively positioned between the upper clamping plate and the upper end plate, and between the lower clamping plate and the lower end plate. 4. Assembly according to claim 3 , wherein the gas superheating end plate(s) are positioned between two electrical insulation plates. 5. Assembly according to claim 1 , wherein said at least one upper gas superheating end plate and/or said at least one lower gas superheating end plate are respectively formed by the upper end plate and the lower end plate, which include a gas circulation circuit from a first end, where the gases to be heated arrive, to a second end, where the heated gases are discharged to the stack. 6. Assembly according to claim 5 , wherein each gas superheating system includes two closing plates on either side of the upper gas superheating end plate and/or the lower gas superheating end plate, to close the gas circulation circuit. 7. Assembly according to claim 1 , wherein the gas superheating system further includes at least one output duct for recovering the gases at the SOEC/SOFC-type solid oxide stack output. 8. Assembly according to claim 1 , wherein each clamping plate of the clamping system includes at least one clamping orifice the clamping system further including: at least one clamping rod intended to extend through a clamping orifice of the upper clamping plate and through a corresponding clamping orifice of the lower clamping plate to enable the assembly of the upper and lower clamping plates with one another, clamping means at the level of each clamping orifice of the upper and lower clamping plates intended to engage with said at least one clamping rod to enable the assembly of the upper and lower clamping plates with one another, at least one electrical insulation plate intended to be situated between the SOEC/SOFC-type solid oxide stack and at least one of the upper and lower clamping plates. 9. Method for manufacturing at least one system for superheating the gases at the input of a SOEC/SOFC-type solid oxide stack of an assembly according to claim 1 , wherein it includes the step of machining a lower gas superheating end plate and/or an upper gas superheating end plate to form a gas circulation circuit. 10. Method according to claim 9 , wherein it includes the step consisting of mounting, by means of a transparent laser welding method, two closing plates on the circulation circuit on either side of the lower gas superheating end plate and/or the upper gas superheating end plate.