Power generation apparatus and power generation method

1 . A power generation apparatus comprising: a container body containing an aluminum alloy melt and a molten salt that is in a liquid junction with the aluminum alloy melt; an anode at least a part of which is in contact with the aluminum alloy melt; and a cathode at least a part of which is in contact with the molten salt, wherein DC power is obtained from between the anode and the cathode by an anode reaction on the aluminum alloy melt side and a cathode reaction on the molten salt side. 2 . The power generation apparatus according to claim 1 , further comprising a separator that separates the aluminum alloy melt and the molten salt from each other while allowing ionic conduction between the aluminum alloy melt and the molten salt. 3 . The power generation apparatus according to claim 1 , wherein the anode or the cathode is electrically insulated from the molten salt or the aluminum alloy melt. 4 . The power generation apparatus according to claim 1 , wherein the cathode is provided with a supply means that supplies a raw material to a periphery of the cathode, the raw material causing the cathode reaction. 5 . The power generation apparatus according to claim 1 , further comprising a monitoring means that, based on an amount of energization between the anode and the cathode, perceives an amount of a reactant caused by the anode reaction and/or the cathode reaction. 6 . The power generation apparatus according to claim 1 , wherein the power generation apparatus serves also as a melt processing apparatus that performs removal or concentration adjustment of an element contained in the aluminum alloy melt. 7 . A power generation method comprising: preparing an aluminum alloy melt and a molten salt that are in a liquid junction with each other; and individually providing respective electrodes that are in contact with the aluminum alloy melt and the molten salt, wherein DC power is obtained by an anode reaction on the aluminum alloy melt side and a cathode reaction on the molten salt side. 8 . The power generation method according to claim 7 , wherein the molten salt contains a nobler metal element than Al. 9 . The power generation method according to claim 8 , wherein the nobler metal element is one or more of Cu, Zn, or Mn. 10 . The power generation method according to claim 8 , wherein the nobler metal element is supplied as an oxide or a halide to the molten salt. 11 . The power generation method according to claim 7 , wherein the molten salt is composed of a halide. 12 . The power generation method according to claim 7 , wherein at least a part of a raw material of the aluminum alloy melt is scrap. 13 . The power generation method according to claim 7 , wherein the power generation method serves also as a purification method of removing impurities from the aluminum alloy melt.