Electrochemical reaction device, method for reducing carbon dioxide, and method for producing carbon compound

What is claimed is: 1. An electrochemical reaction device that electrochemically reduces carbon dioxide, comprising: a cathode; an anode; an electrolyte flow path which is provided between the cathode and the anode and through which an electrolyte containing an alkaline aqueous solution is supplied; a cathode-side gas flow path which is provided on a cathode side opposite to the anode and through which carbon dioxide gas is supplied; liquid flow path closing means for openably closing an entrance of the electrolyte flow path; gas flow path closing means for openably closing an entrance of the cathode-side gas flow path; a voltage applying means for applying and controlling a voltage between the cathode and the anode by supplying electric power to a first power supply body and a second power supply body; and a groove formed in a gas flow path structure on a side where the anode is placed, wherein a portion of the groove surrounded by the gas flow path structure and the anode forms a gas exhaust path, wherein a pressure sensor for monitoring pressure in the cathode-side gas flow path and a carbon dioxide sensor for monitoring carbon dioxide concentration are provided in the cathode-side gas flow path, wherein the liquid flow path closing means comprises a first liquid electromagnetic valve and a second liquid electromagnetic valve which openably close entrances of the electrolyte flow path, wherein the first liquid electromagnetic valve is provided in an inlet of the electrolyte flow path, and the second liquid electromagnetic valve is provided in an outlet of the electrolyte flow path, wherein the gas flow path closing means comprises a first gas electromagnetic valve and a second gas electromagnetic valve which openably close entrances of the cathode-side gas flow path, wherein a third gas electromagnetic valve is provided in an inlet of the gas exhaust path, wherein the first gas electromagnetic valve is provided in an inlet of the cathode-side gas flow path, and the second gas electromagnetic valve is provided in an outlet of the cathode-side gas flow path, wherein carbon dioxide gas is electrochemically reduced by applying voltage between the cathode and the anode in a state in which the electrolyte is accommodated in an electrolyte flow path of which the entrance is closed and in a state in which the carbon dioxide gas is accommodated in the cathode-side gas flow path of which the entrance is closed, wherein unreacted carbon dioxide gas remaining in the cathode-side gas flow path is dissolved in the electrolyte, and wherein the entrances of the electrolyte flow path are closed in a state in which the electrolyte is accommodated by closing the first liquid electromagnetic valve and the second liquid electromagnetic valve, and then the entrances of the cathode-side gas flow path are closed in a state in which the carbon dioxide gas is accommodated by closing the first gas electromagnetic valve and the second gas electromagnetic valve. 2. A method for electrochemically reducing carbon dioxide, comprising: electrochemically reducing carbon dioxide gas in a state in which an electrolyte containing a strong alkaline aqueous solution is accommodated in an electrolyte flow path which is located between a cathode and an anode and of which an entrance is closed and in a state in which the carbon dioxide gas is accommodated in a cathode-side gas flow path which is on the cathode side opposite to the anode and of which an entrance is closed, to dissolve the unreacted carbon dioxide gas in the electrolyte. 3. A method for producing a carbon compound, comprising: electrochemically reducing carbon dioxide through the method for reducing carbon dioxide according to claim 2 to produce the carbon compound. 4. The electrochemical reaction device of claim 1 , wherein the electrolyte flow path comprises a fluororesin material. 5. The electrochemical reaction device of claim 4 , wherein the fluororesin material comprises polytetrafluoroethylene.