Pressure releasing method of high-pressure water electrolysis system and pressure releasing method in water electrolysis system

What is claimed is: 1 . A pressure releasing method of a high-pressure water electrolysis system that includes a high-pressure water electrolysis device which electrolyzes supplied water, produces oxygen on an anode side, and produces hydrogen at a higher pressure than the oxygen on a cathode side, the pressure releasing method comprising: a freezing occurrence assessment step of determining whether or not the high-pressure water electrolysis device is in a frozen environment in a case of a system stop; an electrolysis depressurization step of performing a depressurization process on the cathode side while a depressurizing current is applied in a case where a determination is made that the frozen environment does not occur; and an electroless depressurization step of performing the depressurization process on the cathode side while the depressurizing current is not applied in a case where a determination is made that the frozen environment occurs. 2 . The pressure releasing method according to claim 1 , wherein in the electroless depressurization step, a pressure to start electroless depressurization is set based on a water flow path system volume in the high-pressure water electrolysis device, and in a case where a determination is made that the frozen environment occurs, the electrolysis depressurization process is first performed to lower a pressure to the set pressure, and the electroless depressurization process is subsequently performed. 3 . The pressure releasing method according to claim 1 , wherein the high-pressure water electrolysis device is housed in a housing and includes a temperature sensor that detects a temperature environment in the housing, and the freezing occurrence assessment step is performed based on a detected temperature by the temperature sensor. 4 . A pressure releasing method in a water electrolysis system including a water electrolyzer, the pressure releasing method comprising: operating the water electrolyzer to electrolyze water to produce oxygen with a first pressure on an anode side and hydrogen with a second pressure higher than the first pressure on the cathode side; determining whether the water electrolyzer is in a frozen environment when the water electrolysis system stops operating; and depressurizing the cathode side without suppling a depressurizing current to the water electrolyzer if it is determined that the water electrolyzer is in the frozen environment or with suppling the depressurizing current to the water electrolyzer if it is determined that the water electrolyzer is not in the frozen environment. 5 . The pressure releasing method according to claim 4 , wherein in depressurizing the cathode side without suppling the depressurizing current, a pressure to start electroless depressurization is set based on a water flow path system volume in the water electrolyzer, and if it is determined that the water electrolyzer is in the frozen environment, a electrolysis depressurization process is first performed to lower a pressure to the set pressure, and a process of depressurizing the cathode side without suppling the depressurizing current is subsequently performed. 6 . The pressure releasing method according to claim 4 , wherein the water electrolyzer is housed in a housing and includes a temperature sensor that detects a temperature environment in the housing, and it is determined whether the water electrolyzer is in the frozen environment on a detected temperature by the temperature sensor. 7 . The pressure releasing method according to claim 4 , wherein the water electrolyzer is a high-pressure water electrolyzer. 8 . The pressure releasing method according to claim 4 , wherein an inside of the water electrolyzer freezes in the frozen environment.