Heat transfer medium and heat transfer system using same

What is claimed is: 1 . A heat transfer medium used for a heat transfer system configured to transfer a cold of a refrigerant circulating through a refrigeration cycle device to an electric device, the heat transfer medium comprising: a lower alcohol that is at least one of methanol or ethanol; and water. 2 . The heat transfer medium according to claim 1 , wherein the lower alcohol is the methanol. 3 . The heat transfer medium according to claim 2 , wherein an amount of the water is equal to or greater than an amount of the methanol. 4 . The heat transfer medium according to claim 2 , wherein a weight ratio of the methanol to the water is within a range of 35:65 to 50:50. 5 . The heat transfer medium according to claim 1 further comprising a boiling point elevation agent, wherein the lower alcohol is the methanol. 6 . The heat transfer medium according to claim 5 , wherein the boiling point elevation agent is soluble in both the water and the methanol, and the boiling point elevation agent has a boiling point that is higher than a boiling point of a mixture of the water and the methanol. 7 . The heat transfer medium according to claim 6 , wherein the boiling point elevation agent is at least one of an alcohol, an amine, an ether, or a carboxylic acid. 8 . The heat transfer medium according to claim 5 , wherein a proportion of the boiling point elevation agent in the heat transfer medium is less than 50%. 9 . The heat transfer medium according to claim 1 , wherein the lower alcohol is the ethanol. 10 . The heat transfer medium according to claim 9 , wherein an amount of the water is equal to or greater than an amount of the ethanol. 11 . The heat transfer medium according to claim 9 , wherein a weight ratio of the ethanol to the water is within a range of 35:65 to 50:50. 12 . The heat transfer medium according to claim 2 further comprising a rust inhibitor. 13 . The heat transfer medium according to claim 1 further comprising a non-ionic rust inhibitor. 14 . The heat transfer medium according to claim 13 , wherein the non-ionic rust inhibitor is at least one of a silyl ether or a triazole compound. 15 . The heat transfer medium according to claim 13 , wherein an amount of the water is equal to or greater than an amount of the lower alcohol. 16 . The heat transfer medium according to claim 13 , wherein a weight ratio of the lower alcohol to the water is within a range of 35:65 to 50:50. 17 . A heat transfer system using the heat transfer medium according to claim 1 , the system comprising: the refrigeration cycle device; a heat transfer medium circuit through which the heat transfer medium circulates; and a cooling heat exchanger configured to cool the heat transfer medium through heat exchange between the refrigerant and the heat transfer medium, wherein the electric device is disposed in the heat transfer medium circuit, and the heat transfer medium absorbs a heat from the electric device. 18 . The heat transfer system according to claim 17 , wherein the heat transfer medium circuit is sealed. 19 . A heat transfer system using the heat transfer medium according to claim 5 , the system comprising: the refrigeration cycle device; a heat transfer medium circuit through which the heat transfer medium circulates; a cooling heat exchanger configured to cool the heat transfer medium through heat exchange between the refrigerant and the heat transfer medium; a high-temperature heat transfer medium circuit through which a high-temperature heat transfer medium circulates, the high-temperature heat transfer medium being the heat transfer medium having a temperature higher than that of the heat transfer medium flowing through the heat transfer medium circuit; and a heating heat exchanger configured to heat the high-temperature heat transfer medium through heat exchange between the refrigerant and the high-temperature heat transfer medium. 20 . The heat transfer system according to claim 19 , wherein the high-temperature heat transfer medium circuit is sealed.