Carbon-assisted solid oxide electrolysis cell

What is claimed is: 1 . A carbon-assisted solid oxide electrolysis cell, comprising: a cathode, an electrolyte, an anode and an anode chamber arranged sequentially; wherein the cathode is supplied with water vapor as an oxidant to perform a reduction reaction; wherein an inside of the anode chamber is provided with a carbon fuel and a CO 2 absorber, the water vapor is added into the inside of the anode chamber as an in-situ gasification agent, and the water vapor and the carbon fuel undergo a carbon gasification reaction to generate CO and H 2 , wherein O 2− ions produced by the cathode are transmitted to the anode through the electrolyte, and the O 2− ions react with the CO and the H 2 generated in the anode chamber as oxidant; wherein a part of the CO produced by the carbon gasification reaction and the water vapor undergo a water gas shift reaction in the anode chamber to generate CO 2 and H 2 , while the CO 2 absorber promotes the production of the H 2 by absorbing the CO 2 produced by the water gas shift reaction; and wherein the CO 2 absorber is CaO, the carbon fuel is an inorganic carbon fuel, and the inorganic carbon fuel is one selected from a group consisting of coal, coke, active carbon, graphite, fibreboard, black carbon, and biochar. 2 . The carbon-assisted solid oxide electrolysis cell according to claim 1 , wherein the carbon-assisted solid oxide electrolysis cell operates in a temperature range of 650 to 850° C. 3 . The carbon-assisted solid oxide electrolysis cell according to claim 1 , wherein flowrates of the water vapor in the cathode and the anode are both 50-500 mL/min. 4 . The carbon-assisted solid oxide electrolysis cell according to claim 1 , wherein the carbon-assisted solid oxide electrolysis cell is a tubular electrolysis cell with a length of 9 cm, an inner diameter of 11.5 mm, and an outer diameter of 12.0 mm; and wherein the cathode has a thickness of 20 μm; wherein the anode has a thickness of 20 μm; wherein the electrolyte has a thickness of 20 μm; wherein an operating voltage of the tubular electrolysis cell is in a range of 1 V to −0.1 V. 5 . The carbon-assisted solid oxide electrolysis cell according to claim 1 , wherein the anode chamber discharges a mixture of gas comprising H 2 , CO, and H 2 O. 6 . The carbon-assisted solid oxide electrolysis cell according to claim 1 , wherein the inside of the anode chamber is further provided with a carbonate catalyst. 7 . The carbon-assisted solid oxide electrolysis cell according to claim 1 , wherein materials of the anode and the cathode are both porous Ag-GDC, and a material of the electrolyte is dense YSZ.