Method of reducing iron ore powder

1 . A method of reducing iron ore powder, the method comprising: a fluidized bed reduction process of fluidizing and reducing iron ore powder in a fluidized bed reduction furnace using a first reducing gas to produce partially reduced iron; and a smelting reduction process of reducing the partially reduced iron in a smelting reduction furnace using a second reducing gas, wherein fluidized bed reduction furnace top gas discharged from the top of the fluidized bed reduction furnace is divided into a first fluidized bed reduction furnace top gas and a second fluidized bed reduction furnace top gas, methane is synthesized from the first fluidized bed reduction furnace top gas and hydrogen gas to obtain methane-containing gas, the methane-containing gas is reacted with the second fluidized bed reduction furnace top gas to reform methane contained in the methane-containing gas to obtain reformed gas, in the smelting reduction process, the reformed gas is blown into the smelting reduction furnace as the second reducing gas, and in the fluidized bed reduction process, smelting reduction furnace top gas discharged from the top of the smelting reduction furnace is blown into the fluidized bed reduction furnace as the first reducing gas. 2 . The method of reducing iron ore powder according to claim 1 , wherein an amount V 1 of the first fluidized bed reduction furnace top gas supplied to the synthesis of methane and an amount Vw of water vapor in the second fluidized bed reduction furnace top gas supplied to the reforming of methane are adjusted according to variation in a H 2 /CO ratio in the second reducing gas blown into the smelting reduction furnace. 3 . The method of reducing iron ore powder according to claim 2 , wherein when the H 2 /CO ratio increases, the amount Vw of water vapor and the amount V 1 of the first fluidized bed reduction furnace top gas are decreased. 4 . The method of reducing iron ore powder according to claim 2 , wherein when the H 2 /CO ratio decreases, the amount Vw of water vapor and the amount V 1 of the first fluidized bed reduction furnace top gas are increased. 5 . The method of reducing iron ore powder according to claim 1 , wherein the reduction degree in the fluidized bed reduction process is 60% or more and 90% or less. 6 . The method of reducing iron ore powder according to claim 5 , wherein the reduction degree in the fluidized bed reduction process is 70% or more and 80% or less. 7 . The method of reducing iron ore powder according to claim 1 , wherein the fluidized bed reduction furnace top gas is dedusted prior to the division into the first fluidized bed reduction furnace top gas and the second fluidized bed reduction furnace top gas. 8 . The method of reducing iron ore powder according to claim 1 , wherein the second fluidized bed reduction furnace top gas is dehydrated prior to the reforming. 9 . The method of reducing iron ore powder according to claim 1 , wherein the fluidized bed reduction furnace top gas is dehydrated prior to the division into the first fluidized bed reduction furnace top gas and the second fluidized bed reduction furnace top gas. 10 . The method of reducing iron ore powder according to claim 1 , wherein the methane-containing gas is dehydrated prior to the reforming. 11 . The method of reducing iron ore powder according to claim 1 , further comprising a briquetting process of briquetting the partially reduced iron prior to the smelting reduction process. 12 . The method of reducing iron ore powder according to claim 3 , wherein when the H 2 /CO ratio decreases, the amount Vw of water vapor and the amount V 1 of the first fluidized bed reduction furnace top gas are increased. 13 . The method of reducing iron ore powder according to claim 2 , wherein the reduction degree in the fluidized bed reduction process is 60% or more and 90% or less. 14 . The method of reducing iron ore powder according to claim 13 , wherein the reduction degree in the fluidized bed reduction process is 70% or more and 80% or less. 15 . The method of reducing iron ore powder according to claim 2 , wherein the fluidized bed reduction furnace top gas is dedusted prior to the division into the first fluidized bed reduction furnace top gas and the second fluidized bed reduction furnace top gas. 16 . The method of reducing iron ore powder according to claim 2 , wherein the second fluidized bed reduction furnace top gas is dehydrated prior to the reforming. 17 . The method of reducing iron ore powder according to claim 2 , wherein the fluidized bed reduction furnace top gas is dehydrated prior to the division into the first fluidized bed reduction furnace top gas and the second fluidized bed reduction furnace top gas. 18 . The method of reducing iron ore powder according to claim 2 , wherein the methane-containing gas is dehydrated prior to the reforming. 19 . The method of reducing iron ore powder according to claim 2 , further comprising a briquetting process of briquetting the partially reduced iron prior to the smelting reduction process.