Multiple injection fuel cell and operating method thereof

The invention claimed is: 1. A method for supplying a fuel cell battery, comprising at least one stack of cells, with at least one reactant, wherein N groups of cells of the battery, N>1, are selectively supplied with the reactant in at least three phases, a) a first phase in which a first group of cells of the N groups of cells is supplied but not a second group of cells of the N groups of cells, the reactant which is unconsumed being able however to flow between the two groups via at least one evacuation manifold connected to the cells of the two groups; b) a second phase in which the second group of cells is supplied but not the first group of cells, the reactant which is unconsumed being able however to flow between the two groups via the at least one evacuation manifold; and c) a third phase in which the two groups are first supplied simultaneously, then a purge valve of the at least one evacuation manifold is opened then closed. 2. The method of claim 1 , wherein cells of the various groups of cells are stacked in an interleaved way in one and a same stack, which is to say that a cell of one group of cells is adjacent to a cell of another group of cells in the stack. 3. The method of claim 1 , wherein the first phase and the second phase are repeated in a plurality of successive alternations before the third phase is passed to, after which a cycle restarts. 4. The method of claim 1 , wherein N is greater than two and either a single group of cells is supplied during a phase or a plurality, but not all, of the groups of cells are supplied by modifying a composition of the groups of cells supplied during a series of successive phases via a gradual permutation of the supplies, then the third phase is carried out comprising simultaneously opening all the supplies, immediately followed by a common purge via the purge valve. 5. The method of claim 4 , wherein a series of phases is repeated a plurality of times before the purge phase. 6. The method of claim 1 , wherein the at least one reactant is hydrogen delivered by a supply manifolds to an anode side of the cells of each group. 7. The method of claim 1 , wherein the at least one evacuation manifold, passing through the at least one stack of cells, communicates with the cells of all the groups, wherein the said fuel cell comprises an outlet arranged to permit an evacuation of fluids out of the said fuel cell, and a drain system comprising at least a drain channel, said drain channel being arranged between a supply manifold of a group of cells, so-called a last group of cells, communicating with a group of cells which is supplied by the at least one reactant, so-called a supplied group of cells, and wherein a fluid is evacuated through a said drain channel in at least a phase chosen between the first phase a) and the second phase b), the supplied group of cells corresponding to the first group of cells in the first phase and to the second group of cells in the second phase, the last group of cells corresponding to the second group of cells in the first phase and to the first group of cells in the second phase. 8. The method of claim 7 , wherein the said drain channel is adapted to limit a reactant flow rate in the said drain channel to at most 5% of a reactant flow rate in a manifold supplying the supplied group of cells. 9. The method of claim 7 , in at least a phase chosen between the first phase a) and the second phase b), an evacuation of fluid from the last group of cells, is blocked then permitted by said drain system. 10. The method of claim 7 , wherein said drain system allows, in at least a phase chosen between phase a) and phase b), the evacuation of fluid from said last group of cells. 11. The method of claim 7 , wherein in at least a phase chosen between phase a) and phase b), circulating liquid water is collected by a phase separator arranged in a fluid path connecting two neighboring groups of cells, preferably connecting said supplied group of cells and a neighboring group of cells. 12. The method of claim 7 , wherein a series of phases is repeated a plurality of times before the phase c). 13. The method of claim 7 , wherein a direction of the reactant flow in said last group of cells is identical in phase chosen between phase a) and phase b) and in phase c).