In some examples, a fuel cell including a first electrochemical cell; a second electrochemical cell; an interconnect configured to conduct a flow of electrons from the first electrochemical cell to the second electrochemical cell; and a dense oxygen barrier layer separating the interconnect from one of a cathode or a cathode conductor layer adjacent the cathode, wherein the dense barrier layer is formed of a ceramic material exhibiting a low porosity and a high conductivity such that the dense oxygen barrier layer reduces at least one precious metal loss from the interconnect or oxidation of nickel metal in the interconnect.

In some examples, a fuel cell including a first electrochemical cell; a second electrochemical cell; an interconnect configured to conduct a flow of electrons from the first electrochemical cell to the second electrochemical cell; and a dense oxygen barrier layer separating the interconnect from one of a cathode or a cathode conductor layer adjacent the cathode, wherein the dense barrier layer is formed of a ceramic material exhibiting a low porosity and a high conductivity such that the dense oxygen barrier layer reduces at least one precious metal loss from the interconnect or oxidation of nickel metal in the interconnect.

A fuel cell module includes a first area where an exhaust gas combustor and a start-up combustor are provided, an annular second area around the first area and where a reformer and an evaporator are provided, an annular third area around the second area and where a heat exchanger is provided, and an annular heat recovery area around the third area as a passage of oxygen-containing gas for recovery of heat radiated from the third area toward the outer circumference.

Modular pressurized hotbox for use and substitution in a variety of pressurized electrochemical applications to include reversible solid oxide electrolyzer and fuel cells, energy storage systems, renewable fuel production, solid-state hydrogen pumping and liquefaction, and oxygen transport membranes. This is enabled by mixed electronic and ionic conducting compositions of vanadia-yttria and vanadia-calcia stabilized zirconia and a dry powder method of manufacture for ceramic core stacks.

Modular pressurized hotbox for use and substitution in a variety of pressurized electrochemical applications to include reversible solid oxide electrolyzer and fuel cells, energy storage systems, renewable fuel production, solid-state hydrogen pumping and liquefaction, and oxygen transport membranes. This is enabled by mixed electronic and ionic conducting compositions of vanadia-yttria and vanadia-calcia stabilized zirconia and a dry powder method of manufacture for ceramic core stacks.

A fuel cell system is provided with a fuel cell stack assembly which includes a plurality of fuel cells which convert chemical energy from a fuel into electricity through a chemical reaction with an oxidizing agent, the plurality of fuel cells being stacked together in electrical series; a base member upon which the plurality of fuel cells are stacked such that the base member is in electrical communication with the plurality of fuel cells; an attachment member fixed to the base member, the attachment member being maintained at electrical ground; and a dielectric barrier which electrically isolates the base member from the attachment member.

The present invention relates to a unit cell for a solid-oxide fuel cell and to a solid-oxide fuel cell using same, and, more specifically, relates to: a unit cell for a solid-oxide fuel cell, wherein a fuel charging-and-discharging part and an air charging-and-discharging part are provided perpendicularly to a cathode comprised in the solid-oxide fuel cell; and a solid-oxide fuel cell using same.

The present invention relates to a unit cell for a solid-oxide fuel cell and to a solid-oxide fuel cell using same, and, more specifically, relates to: a unit cell for a solid-oxide fuel cell, wherein a fuel charging-and-discharging part and an air charging-and-discharging part are provided perpendicularly to a cathode comprised in the solid-oxide fuel cell; and a solid-oxide fuel cell using same.

An apparatus of power generation is provided. The apparatus uses a stack of dense solid oxide fuel cells (SOFC). The exhaust gas generated by a burner of the apparatus enters into the SOFC stack for heating. At the same time, the SOFC stack is heated by the thermal radiation and heat transfer of the burner as well as the thermal convection of gases between the anode and the cathode. Thus, the SOFC stack is heated to reach an operating temperature for generating power without any additional electroheat device. The present invention has a simple structure, flexible operation. Moreover, it increased efficiency, reduced pollutant emission with lowered costs of equipment and operation.

An electrochemical energy conversion device 10 comprising a stack of solid oxide electrochemical cells 12 alternating with gas separators 14, 16, wherein scavenger material selected from one or both of free alkali metal oxygen-containing compounds and free alkaline earth metal oxygen-containing compounds is provided in or on one or more of the positive electrode-side of the cell 12, the adjacent gas separator 14 and any other structure of the device 10 forming a gas chamber 64 between the cell and the gas separator. The invention also extends to the treated cell 12.