Method of operating blast furnace and blast furnace ancillary facility

1 . A method of operating a blast furnace, comprising generating a regenerative methane gas using a blast furnace by-product gas which is a by-product gas discharged from the blast furnace, and blowing a blast gas and a reducing agent into the blast furnace from a tuyere, wherein the blast gas is oxygen gas, the regenerative methane gas is used as at least part of the reducing agent, and the oxygen gas and/or the regenerative methane gas is preheated before being blown into the blast furnace from the tuyere. 2 . The method of operating a blast furnace according to claim 1 , wherein a consumption rate of circulating carbon atoms in the reducing agent is 60 kg/t or more, wherein the consumption rate of circulating carbon atoms is a carbon equivalent mass of the regenerative methane gas that is blown into the blast furnace as the reducing agent for producing 1 t of hot metal, and is obtained by the following equation: [Consumption rate of circulating carbon atoms (kg/t)]=[Mass of methane in regenerative methane gas blown into blast furnace as reducing agent (kg)]×(12/16)÷[Production amount of hot metal (t)]. 3 . The method of operating a blast furnace according to claim 1 , wherein the oxygen gas has an oxygen concentration of 80% or more by volume. 4 . The method of operating a blast furnace according to claim 1 , wherein the regenerative methane gas is generated from part of the blast furnace by-product gas and a surplus of the blast furnace by-product gas is supplied to a steelworks. 5 . The method of operating a blast furnace according to claim 1 , wherein a surplus of the regenerative methane gas is supplied to the steelworks. 6 . A blast furnace ancillary facility used in the method of operating a blast furnace according to claim 1 , comprising a methane gas generation device that generates the regenerative methane gas using the blast furnace by-product gas, a preheating device that preheats the oxygen gas and/or the regenerative methane gas, and a gas blowing device having a methane gas supply section that introduces the regenerative methane gas into the tuyere of the blast furnace and an oxygen gas supply section that introduces the oxygen gas into the tuyere of the blast furnace. 7 . The method of operating a blast furnace according to claim 2 , wherein the oxygen gas has an oxygen concentration of 80% or more by volume. 8 . The method of operating a blast furnace according to claim 2 , wherein the regenerative methane gas is generated from part of the blast furnace by-product gas and a surplus of the blast furnace by-product gas is supplied to a steelworks. 9 . The method of operating a blast furnace according to claim 2 , wherein a surplus of the regenerative methane gas is supplied to the steelworks. 10 . A blast furnace ancillary facility used in the method of operating a blast furnace according to claim 2 , comprising a methane gas generation device that generates the regenerative methane gas using the blast furnace by-product gas, a preheating device that preheats the oxygen gas and/or the regenerative methane gas, and a gas blowing device having a methane gas supply section that introduces the regenerative methane gas into the tuyere of the blast furnace and an oxygen gas supply section that introduces the oxygen gas into the tuyere of the blast furnace.