Water electrolysis system and method of activating water electrolysis device

What is claimed is: 1 . A water electrolysis system comprising: a water electrolysis cell having an electrolyte membrane and an anode and a cathode provided on both sides of the electrolyte membrane in a thickness direction and configured to electrolyze water by applying a voltage between the anode and the cathode; a power supply configured to apply the voltage between the anode and the cathode; an oxygen supply source configured to supply oxygen to the anode; and a control device configured to make the pressure of oxygen generated at the anode relatively higher than the pressure of hydrogen generated at the cathode according to the electrolysis of water in the water electrolysis cell and to make the pressure of the anode side of the electrolyte membrane relatively higher than the pressure of the cathode side by supplying the oxygen from the oxygen supply source to the anode before the electrolysis starts. 2 . The water electrolysis system according to claim 1 , wherein the oxygen supply source includes an oxygen container configured to store oxygen generated at the anode according to the electrolysis of the water by the water electrolysis cell. 3 . The water electrolysis system according to claim 1 , comprising a first oxygen container configured to store at least a part of oxygen generated at the anode according to the electrolysis of the water by the water electrolysis cell, wherein the oxygen supply source includes a second oxygen container connected to a flow path branching from a flow path for connecting the water electrolysis cell and the first oxygen container and configured to store a part of the oxygen generated at the anode according to the electrolysis of the water by the water electrolysis cell. 4 . The water electrolysis system according to claim 3 , comprising a pressure acquisition unit configured to acquire the pressure of the oxygen in the second oxygen container, wherein the control device preferentially supplies oxygen generated at the anode after the start of the electrolysis to the second oxygen container over the first oxygen container and switches a supply destination of oxygen generated at the anode from the second oxygen container to the first oxygen container on the basis of the pressure acquired by the pressure acquisition unit. 5 . The water electrolysis system according to claim 3 , wherein the control device switches the oxygen supply source from the second oxygen container to the first oxygen container when the pressure of the anode side is less than prescribed pressure in a state in which the oxygen is supplied from the second oxygen container to the anode. 6 . The water electrolysis system according to claim 1 , comprising a water supply unit configured to supply the water to the cathode.