초록 ▼

An example fuel cell seal assembly includes a seal configured to restrict flow of a fuel cell fluid through at least one of an outer lateral edge of a first gas diffusion layer, an outer lateral edge of a membrane electrode assembly, and an outer lateral edge of a second gas diffusion layer. The out

An example fuel cell seal assembly includes a seal configured to restrict flow of a fuel cell fluid through at least one of an outer lateral edge of a first gas diffusion layer, an outer lateral edge of a membrane electrode assembly, and an outer lateral edge of a second gas diffusion layer. The outer lateral edge of the first gas diffusion layer is laterally spaced from the outer lateral edge of the second gas diffusion layer. An example method of sealing a fuel cell interface includes limiting flow of a fuel cell fluid using a seal configured to restrict flow through an outwardly facing edge of at least one of a first gas diffusion layer and an outwardly facing edge of a second gas diffusion layer. The outwardly facing edge of the first gas diffusion layer is spaced from the outwardly facing edge of the second gas diffusion layer.

대표청구항 ▼

1. A fuel cell seal assembly, comprising: a seal that is configured to restrict flow of a fuel cell fluid through: a first outer lateral edge of a first gas diffusion layer and a second outer lateral edge of the first gas diffusion layer which is opposite the first outer lateral edge of the first ga

1. A fuel cell seal assembly, comprising: a seal that is configured to restrict flow of a fuel cell fluid through: a first outer lateral edge of a first gas diffusion layer and a second outer lateral edge of the first gas diffusion layer which is opposite the first outer lateral edge of the first gas diffusion layer with respect to a lateral direction, each of the first and second outer lateral edges of the first gas diffusion layer extending between a first surface of the first gas diffusion layer and a second surface of the first gas diffusion layer opposite the first surface and defining a lateral width of the first gas diffusion layer;a first outer lateral edge of a membrane electrode assembly and a second outer lateral edge of the membrane electrode assembly which is opposite the first outer lateral edge of the membrane electrode assembly with respect to the lateral direction, each of the first and second outer lateral edges of the membrane electrode assembly extending between a first surface of the membrane electrode assembly and a second surface of the membrane electrode assembly opposite the first surface and defining a lateral width of the membrane electrode assembly; anda first outer lateral edge of a second gas diffusion layer and a second outer lateral edge of the second gas diffusion layer which is opposite the first outer lateral edge of the second gas diffusion layer with respect to the lateral direction, each of the first and second outer lateral edges of the second gas diffusion layer extending between a first surface of the second gas diffusion layer and a second surface of the second gas diffusion layer opposite the first surface and defining a lateral width of the second gas diffusion layer, wherein: the lateral width of the first gas diffusion layer is greater than the lateral width of the membrane electrode assembly, with the first outer lateral edge of the first gas diffusion layer being offset laterally beyond the first outer lateral edge of the membrane electrode assembly on a first lateral end of the membrane electrode assembly, and with the second outer lateral edge of the first gas diffusion layer being offset laterally beyond the second outer lateral edge of the membrane electrode assembly on a second lateral end of the membrane electrode assembly which is opposite the first lateral end,the first gas diffusion layer has a longitudinal width in a longitudinal direction which is transverse to the lateral direction, the longitudinal width of the first gas diffusion layer being defined between third and fourth outer lateral edges of the first gas diffusion layer,the membrane electrode assembly has a longitudinal width in the longitudinal direction which is transverse to the lateral direction, the longitudinal width of the membrane electrode assembly defined between third and fourth outer lateral edges of the membrane electrode assembly,the longitudinal width of the membrane electrode assembly is greater than the longitudinal width of the first gas diffusion layer, with each of the third and fourth outer lateral edges of the membrane electrode assembly being offset beyond a respective one of the third and fourth outer lateral edges of the first gas diffusion layer in the longitudinal direction,the lateral width of the membrane electrode assembly is greater than the lateral width of the second gas diffusion layer, with the first outer lateral edge of the membrane electrode assembly on the first lateral end of the membrane electrode assembly being laterally offset beyond the first outer lateral edge of the second gas diffusion layer in the lateral direction, and with the second outer lateral edge of the membrane electrode assembly on the second lateral end of the membrane electrode assembly being laterally offset beyond the second outer lateral edge of the second gas diffusion layer in the lateral direction,the seal completely covers the first outer lateral edge of the first gas diffusion layer, the first outer lateral edge of the membrane electrode assembly, and the first outer lateral edge of the second gas diffusion layer, andthe seal extends between the first surface of the first gas diffusion layer and the second surface of the second gas diffusion layer, the seal having a first surface which is substantially coplanar with the first surface of the first gas diffusion layer and a second surface which is substantially coplanar with the second surface of the second gas diffusion layer. 2. The fuel cell seal assembly of claim 1, wherein a portion of the seal is impregnated within a portion of at least one of the first gas diffusion layer, the membrane electrode assembly, and the second gas diffusion layer. 3. The fuel cell seal assembly of claim 1, wherein the seal comprises at least one seal bead configured to seal against a fuel cell plate. 4. The fuel cell seal assembly of claim 1, wherein the seal is secured about a periphery of the first gas diffusion layer, the membrane electrode assembly, and the second gas diffusion layer. 5. The fuel cell seal assembly of claim 4, wherein the second gas diffusion layer has a longitudinal width in the longitudinal direction which is transverse to the lateral direction, the longitudinal width of the second gas diffusion layer being defined by third and fourth outer lateral edges of the second gas diffusion layer, with each of the third and fourth outer lateral edges of the second gas diffusion layer being offset beyond a respective one of the third and fourth outer lateral edges of the first gas diffusion layer in the longitudinal direction. 6. The fuel cell seal assembly of claim 1, wherein the seal is an injection molded seal. 7. The fuel cell seal assembly of claim 1, wherein the seal is a uniform piece. 8. The fuel cell seal assembly of claim 1, wherein the first outer lateral edge of the first gas diffusion layer, the first outer lateral edge of the membrane electrode assembly, and the first outer lateral edge of the second gas diffusion layer face outwardly from a same side of the fuel cell seal assembly. 9. A fuel cell stack arrangement, comprising: a membrane electrode assembly having a first lateral outer edge and a second lateral outer edge which is opposite the first lateral outer edge with respect to a lateral direction, each of the first and second lateral outer edges of the membrane electrode assembly extending between a first surface of the membrane electrode assembly and a second surface of the membrane electrode assembly opposite the first surface and defining a lateral width of the membrane electrode assembly;a first gas diffusion layer positioned against the first surface of the membrane electrode assembly, the first gas diffusion layer having a first lateral outer edge and a second lateral outer edge which is opposite the first lateral outer edge with respect to the lateral direction, each of the first and second lateral outer edges extending between a first surface of the first gas diffusion layer and a second surface of the first gas diffusion layer opposite the first surface and defining a lateral width of the first gas diffusion layer;a second gas diffusion layer positioned against the second surface of the membrane electrode assembly, the second gas diffusion layer having a first lateral outer edge and a second lateral outer edge which is opposite the first lateral outer edge of the second gas diffusion layer with respect to the lateral direction, each of the first and second lateral outer edges of the second gas diffusion layer extending between a first surface of the second gas diffusion layer and a second surface of the second gas diffusion layer opposite the first surface and defining a lateral width of the second gas diffusion layer; anda seal configured to restrict flow through the first lateral outer edge of the first gas diffusion layer, the first lateral outer edge of the second gas diffusion layer, and the first lateral outer edge of the membrane electrode assembly, the seal completely covering the first lateral outer edge of the first gas diffusion layer, the first lateral outer edge of the membrane electrode assembly, and the first lateral outer edge of the second gas diffusion layer, wherein: the lateral width of the first as diffusion layer is greater than the lateral width of the membrane electrode assembly, with the first lateral outer edge of the first gas diffusion layer being offset laterally beyond the first outer lateral edge of the membrane electrode assembly on a first lateral end of the membrane electrode assembly, and with the second lateral outer edge of the first gas diffusion layer being offset laterally beyond the second lateral outer edge of the membrane electrode assembly on a second lateral end of the membrane electrode assembly which is opposite the first lateral end,the first gas diffusion layer has a longitudinal width in a longitudinal direction which is transverse to the lateral direction, the longitudinal width of the first gas diffusion layer being defined between third and fourth lateral outer edges of the first gas diffusion layer,the membrane electrode assembly has a longitudinal width in the longitudinal direction which is transverse to the lateral direction, the longitudinal width of the membrane electrode assembly defined between third and fourth lateral outer edges of the membrane electrode assembly,the longitudinal width of the membrane electrode assembly is greater than the longitudinal width of the first gas diffusion layer, with each of the third and fourth lateral outer edges of the membrane electrode assembly being offset beyond a respective one of the third and fourth lateral outer edges of the first gas diffusion layer in the longitudinal direction,the lateral width of the membrane electrode assembly is greater than the lateral width of the second gas diffusion layer, with the first lateral outer edge of the membrane electrode assembly on the first lateral end of the membrane electrode assembly being laterally offset beyond the first lateral outer edge of the second gas diffusion layer in the lateral direction, and with the second lateral outer edge of the membrane electrode assembly on the second lateral end of the membrane electrode assembly being laterally offset beyond the second lateral outer edge of the second gas diffusion layer in the lateral direction, andthe seal extends between the first surface of the first gas diffusion layer and the second surface of the second gas diffusion layer, the seal having a first surface which is substantially coplanar with the first surface of the first gas diffusion layer and a second surface which is substantially coplanar with the second surface of the second gas diffusion layer. 10. The fuel cell stack arrangement of claim 9, wherein the membrane electrode assembly comprises a polymer electrolyte membrane. 11. The fuel cell stack arrangement of claim 9, wherein the second gas diffusion layer has a longitudinal width in the longitudinal direction which is transverse to the lateral direction, the longitudinal width of the second gas diffusion layer being defined by third and fourth lateral outer edges of the second gas diffusion layer, with each of the third and fourth lateral outer edges of the second gas diffusion layer being offset beyond a respective one of the third and fourth lateral outer edges of the first gas diffusion layer in the longitudinal direction. 12. The fuel cell stack arrangement of claim 9, including a frame mounted about a periphery of the membrane electrode assembly, the frame configured to restrict flow through the first lateral outer edge of the membrane electrode assembly. 13. A method of sealing a fuel cell interface, comprising: limiting flow of a fuel cell fluid using a seal configured to restrict flow through: a first outwardly facing edge of a first gas diffusion layer and a second outwardly facing edge of the first gas diffusion layer which is opposite the first outwardly facing edge with respect to a lateral direction, each of the first and second outwardly facing edges of the first gas diffusion layer extending between a first surface and a second surface of the first gas diffusion layer opposite the first surface and defining a lateral width of the first gas diffusion layer,a first outwardly facing edge of a second gas diffusion layer and a second outwardly facing edge of the second gas diffusion layer which is opposite the first outwardly facing edge of the second gas diffusion layer with respect to the lateral direction, each of the first and second outwardly facing edges of the second gas diffusion layer extending between a first surface and a second surface of the second gas diffusion layer opposite the second surface and defining a lateral width of the second gas diffusion layer, anda first outwardly facing edge of a membrane electrode assembly and a second outwardly facing edge of the membrane electrode assembly which is opposite the first outwardly facing edge with respect to the lateral direction, the first and second outwardly facing edges of the membrane electrode assembly extending between a first surface and a second surface of the membrane electrode assembly opposite the first surface and defining a lateral width of the membrane electrode assembly, wherein: the lateral width of the first gas diffusion layer is greater than the lateral width of the membrane electrode assembly, with the first outwardly facing edge of the first gas diffusion layer being offset laterally beyond the first outwardly facing edge of the membrane electrode assembly on a first lateral end of the membrane electrode assembly, and with the second outwardly facing edge of the first gas diffusion layer being offset laterally beyond the second outwardly facing edge of the membrane electrode assembly on a second lateral end of the membrane electrode assembly which is opposite the first lateral end,the first gas diffusion layer has a longitudinal width in a longitudinal direction which is transverse to the lateral direction, the longitudinal width of the first gas diffusion layer being defined between third and fourth outwardly facing edges of the first gas diffusion layer,the membrane electrode assembly has a longitudinal width in the longitudinal direction which is transverse to the lateral direction, the longitudinal width of the membrane electrode assembly defined between third and fourth outwardly facing edges of the membrane electrode assembly,the longitudinal width of the membrane electrode assembly is greater than the longitudinal width of the first gas diffusion layer, with each of the third and fourth outwardly facing edges of the membrane electrode assembly being offset beyond a respective one of the third and fourth outwardly facing edges of the first gas diffusion layer in the longitudinal direction,the lateral width of the membrane electrode assembly is greater than the lateral width of the second gas diffusion layer, with the first outwardly facing edge of the membrane electrode assembly on the first lateral end of the membrane electrode assembly being laterally offset beyond the first outwardly facing edge of the second gas diffusion layer in the lateral direction, and with the second outwardly facing edge of the membrane electrode assembly on the second lateral end of the membrane electrode assembly being laterally offset beyond the second outwardly facing edge of the second gas diffusion layer in the lateral direction, the limiting including:completely covering the first outwardly facing edge of the first gas diffusion layer, the first outwardly facing edge of the second gas diffusion layer, and the first outwardly facing edge of the membrane electrode assembly with the seal, the seal extending between the first surface of the first gas diffusion layer and the second surface of the second gas diffusion layer, the seal having a first surface which is substantially coplanar with the first surface of the first gas diffusion layer and a second surface which is substantially coplanar with the second surface of the second gas diffusion layer. 14. The method of claim 13, further comprising impregnating a portion of the first gas diffusion layer and a portion of the second gas diffusion layer with a portion of the seal. 15. The fuel cell seal assembly of claim 1, wherein the second gas diffusion layer has a longitudinal width in the longitudinal direction which is transverse to the lateral direction, the longitudinal width of the second gas diffusion layer defined by third and fourth outer lateral edges of the second gas diffusion layer, with each of the third and fourth outer lateral edges being offset beyond a respective one of the third and fourth outer lateral edges of the membrane electrode assembly in the longitudinal direction which is transverse to the lateral direction.