Method for producing ethylene oxide

What is claimed is: 1 . A method for producing ethylene oxide, comprising: an ethylene oxide generation step in which a first mixture containing ethylene oxide is obtained by causing a raw material containing ethylene and oxygen to react in presence of a diluent gas; a gas-liquid separation step in which the first mixture is gas-liquid separated into a second mixture which is a gaseous component containing ethylene, oxygen, and carbon dioxide and a third mixture which is a liquid component containing ethylene oxide and water; a carbon dioxide separation step in which carbon dioxide is separated from the second mixture; and a carbon dioxide electrolytic reduction step in which the carbon dioxide separated from the second mixture is electrolytically reduced to obtain a fourth mixture containing ethylene, methane, and unreacted carbon dioxide at a cathode and to obtain oxygen at an anode, wherein in the carbon dioxide separation step, carbon dioxide is further separated from the fourth mixture, in the ethylene oxide generation step, the second mixture and the fourth mixture, from which carbon dioxide has been removed in the carbon dioxide separation step, and the oxygen obtained in the electrolytic reduction step are used as at least part of the raw material and the diluent gas, the fourth mixture is mixed into the second mixture before being processed in the carbon dioxide separation step, and the oxygen generated from the anode in the carbon dioxide electrolytic reduction step is mixed into the second mixture and the fourth mixture from which carbon dioxide has been removed in the carbon dioxide separation step, and thereafter is returned to the ethylene oxide generation step. 2 . The method for producing ethylene oxide according to claim 1 , wherein in the electrolytic reduction step, a copper-zinc complex catalyst loaded on the cathode is selected such that a selectivity of ethylene at the cathode is 30% or higher. 3 . The method for producing ethylene oxide according to claim 1 , wherein an electrolytic reduction device comprising: a cathode gas chamber to which carbon dioxide in form of gas is supplied; a catholyte chamber to which catholyte is supplied; an anolyte chamber to which anolyte is supplied; a cathode serving as a gas diffusion electrode that partitions the cathode gas chamber and the catholyte chamber from each other; a partition wall which has an ion conductivity and partitions the catholyte chamber and the anolyte chamber from each other; and an anode disposed in the anolyte chamber is used in the electrolytic reduction step. 4 . The method for producing ethylene oxide according to claim 1 , further comprising a carbon monoxide removal step in which carbon monoxide is removed from the fourth mixture generated in the electrolytic reduction step. 5 . The method for producing ethylene oxide according to claim 4 , wherein in the carbon monoxide removal step, carbon monoxide is removed from the fourth mixture before carbon dioxide is removed in the carbon dioxide separation step. 6 . The method for producing ethylene oxide according to claim 1 , further comprising an ethylene glycol generation step in which ethylene glycol is generated by a hydration method from ethylene oxide contained in the third mixture. 7 . The method for producing ethylene oxide according to claim 1 , wherein in the electrolytic reduction step, carbon dioxide emitted from another plant is used as part of the carbon dioxide that is electrolytically reduced. 8 . The method for producing ethylene oxide according to claim 1 , wherein in the electrolytic reduction step, carbon dioxide is electrolytically reduced by using electric power generated by at least one of solar power generation, wind power generation, or hydroelectric power generation.