Compression apparatus

What is claimed is: 1 . A compression apparatus comprising: an electrolyte membrane; an anode provided on a first principal surface of the electrolyte membrane; a cathode provided on a second principal surface of the electrolyte membrane; an anode separator provided on the anode; a cathode separator provided on the cathode; and a voltage applier that applies a voltage between the anode and the cathode, wherein the compression apparatus causes, by using the voltage applier to apply a voltage, protons taken out from a hydrogen-containing gas that is supplied to the anode to move to the cathode via the electrolyte membrane and produces compressed hydrogen, and the anode separator has a first flow channel, provided in a principal surface thereof facing away from the anode, through which a cooling fluid flows. 2 . The compression apparatus according to claim 1 , wherein the anode separator has a first manifold through which a cathode gas containing the compressed hydrogen flows and a first communicating path, provided in the principal surface thereof facing away from the anode, that leads the cathode gas to the first manifold. 3 . The compression apparatus according to claim 1 , wherein the cathode separator has a second manifold through which a cathode gas containing the compressed hydrogen flows and a second communicating path, provided in a principal surface thereof facing away from the cathode, that leads the cathode gas to the second manifold. 4 . The compression apparatus according to claim 2 , wherein the first flow channel is configured to surround part of the first communicating path, the part including an upstream end of the first communicating path. 5 . The compression apparatus according to claim 3 , wherein the principal surface of the anode separator facing away from the anode has a region facing the second communicating path, and the first flow channel is configured to surround part of the region, the part including an end facing an upstream end of the second communicating path. 6 . The compression apparatus according to claim 4 , wherein the first flow channel has a serpentine flow channel including two shuttling paths and one shuttling path which is located between the two shuttling paths, an amplitude of each of the two shuttling paths is greater than an amplitude of the one shuttling path, and the part is surrounded by the two shuttling paths and the one shuttling path. 7 . The compression apparatus according to claim 4 , wherein the first flow channel has a first linear flow channel provided with a bypass that bypasses the part, and is configured such that the part is surrounded by the bypass. 8 . The compression apparatus according to claim 7 , wherein a pitch between the first linear flow channel and a second linear flow channel adjacent internally to the first linear flow channel is greater than a pitch between the second linear flow channel and a third linear flow channel adjacent internally to the second linear flow channel. 9 . The compression apparatus according to claim 7 , wherein the bypass has upstream and downstream ends having convex shapes curved outward. 10 . The compression apparatus according to claim 1 , wherein the anode separator has a second flow channel, provided in a principal surface thereof facing toward the anode, through which the hydrogen-containing gas flows, and the first flow channel and the second flow channel are equal in flow channel width and flow channel depth to each other.