Humidifier module, humidifier, fuel cell system having such, and method for humidifying a gas

1 . A humidifier module for a humidifier in a fuel cell system, comprising: a gas-permeable membrane, on one side of which there is arranged a flow field core defining a flow field, wherein the flow field core includes at least two separating webs and a channel formed between the separating webs, and wherein the separating webs are formed from a hygroscopic material that is not water-soluble, such that a liquid flowing in the channel can be stored temporarily in the hygroscopic separating webs. 2 . The humidifier module according to claim 1 , wherein the flow field core is encased in a hydrophobic frame or the flow field core is received in a hydrophobic carrier plate. 3 . The humidifier module according to claim 1 , wherein a plurality of channels are present, separated from each other by hygroscopic separating webs, and the channels extend in a straight line and parallel to each other. 4 . The humidifier module according to claim 1 , wherein a plurality of channels are present, separated from each other by hygroscopic separating webs, and the separating webs have at least one deflection. 5 . The humidifier module according to claim 4 , wherein the hygroscopic separating webs have deflections at regular spacing from each other along their longitudinal direction of extension. 6 . A humidifier for humidifying a gas for a fuel cell system, comprising: two end plates, on which there are formed an inlet for dry gas, an outlet for moistened gas, an additional inlet for humid gas and an additional outlet for dehumidified gas; and a plurality of humidifier modules arranged between the end plates, each of the humidifier modules including a gas-permeable membrane, on one side of which there is arranged a flow field core defining a flow field, wherein the flow field core includes at least two separating webs and a channel formed between the separating webs, and wherein the separating webs are formed from a hygroscopic material that is not water-soluble, such that a liquid flowing in the channel can be stored temporarily in the hygroscopic separating webs. 7 . A fuel cell system having a fuel cell stack, to which cathode gas can be supplied on the cathode side and fuel can be supplied on the anode side, and having a humidifier according to claim 6 connected upstream from the fuel cell stack on the cathode side. 8 . The fuel cell system according to claim 7 , wherein a separator is present at the anode outlet side, a drain of the separator is fluid-mechanically connected to the humidifier, and/or a cathode vent gas line is fluid-mechanically connected to the humidifier at the cathode outlet side. 9 . A method for humidifying a gas in a fuel cell system having a fuel cell stack, which is fluidically connected to a humidifier including two end plates, on which there are formed an inlet for dry gas, an outlet for moistened gas, an additional inlet for humid gas and an additional outlet for dehumidified gas, and a plurality of humidifier modules arranged between the end plates, wherein each of the humidifier modules includes a gas-permeable membrane, on one side of which there is arranged a flow field core defining a flow field, wherein the flow field core includes at least two separating webs and a channel formed between the separating webs, wherein the separating webs are formed from a hygroscopic material that is not water-soluble, such that a liquid flowing in the channel can be stored temporarily in the hygroscopic separating webs, the method comprising: removing liquid water from the fuel cell stack and supplying the liquid water to the humidifier; taking up at least a portion of the liquid water in the hygroscopic separating webs and temporarily storing this portion of the liquid water; and at least partially emptying the hygroscopic separating webs by evaporating the liquid water and thereby humidifying the gas being supplied to the fuel cell stack. 10 . The method according to claim 9 , wherein the liquid water from the fuel cell stack is removed at the an anode side and/or at a cathode side of the fuel cell stack.