Fuel production system

What is claimed is: 1 . A fuel production system for producing a liquid fuel from biomass feedstock, comprising: a gasification unit comprising a gasification furnace that gasifies biomass feedstock to produce a syngas comprising hydrogen and carbon monoxide; a liquid fuel production unit that produces a liquid fuel from the syngas produced by the gasification unit; an electrolysis unit that is connected to a first electric power source that supplies electric power generated using renewable energy and connected to a second electric power source that, supplies electric power with a carbon dioxide emission intensity higher than that of the electric power from the first electric power source and produces hydrogen from water using electric power; a hydrogen tank that stores the hydrogen produced by the electrolyte unit; a remaining hydrogen amount determining section that determines an amount of hydrogen remaining in the hydrogen tank; a hydrogen supply unit that supplies the hydrogen from the hydrogen tank to the gasification unit; a power index determining section that determines a power index that increases and decreases depending on the carbon dioxide emission intensity of the electric power supplied from the second electric power source; and a control unit, wherein when the remaining amount of hydrogen is smaller than a predetermined amount, the control unit causes the electric power to be supplied from the first and second electric power sources to the electrolysis unit for production of hydrogen and controls, based on the power index, the amount of hydrogen supplied by the hydrogen supply unit and the amount of second electric power supplied from the second electric power source to the electrolysis unit. 2 . The fuel production system according to claim 1 , wherein the control unit reduces the amount of hydrogen supply and the amount of second electric power supply as the power index increases, and increases the amount, of hydrogen supply and the amount of second electric power supply as the power index decreases. 3 . The fuel production system according to claim 1 , wherein the control unit controls the amount of hydrogen supply and the amount of second electric power supply such that the liquid fuel produced by the liquid fuel production unit has a minimum carbon dioxide emission intensity. 4 . The fuel production system according to claim 2 , wherein the control unit controls the amount of hydrogen supply and the amount of second electric power supply such that the liquid fuel produced by the liquid fuel production unit has a minimum carbon dioxide emission intensity. 5 . The fuel production system according to claim 1 , wherein the control unit causes the electrolysis unit to supply, to the gasification unit, hydrogen produced using the electric power, supplied from the second electric power source and controls the amount of hydrogen supply and the amount of second electric power supply so as to minimize the sum of the amount of CO 2 emission during synthesis and the amount of CO 2 emission during hydrogen production, wherein the amount of CO 2 emission during synthesis corresponds to the amount of carbon dioxide emitted from the gasification unit per unit of liquid fuel produced by the liquid fuel production unit, and the amount of CO 2 emission during hydrogen production corresponds to the amount of carbon dioxide emitted from a power generating system that supplies electric power to the second electric power source, per unit of liquid fuel produced by the liquid fuel production unit. 6 . The fuel production system according to claim 2 , wherein the control unit causes the electrolysis unit to supply, to the gasification unit, hydrogen produced using the electric power supplied from the second electric power source and controls the amount of hydrogen supply and the amount of second electric power supply so as to minimize the sum of the amount of CO 2 emission during synthesis and the amount of CO 2 emission during hydrogen production, wherein the amount of CO 2 emission during synthesis corresponds to the amount of carbon dioxide emitted from the gasification unit per unit of liquid fuel produced by the liquid fuel production unit, and the amount of CO 2 emission during hydrogen production corresponds to the amount of carbon dioxide emitted from a power generating system that supplies electric power to the second electric power source, per unit of liquid fuel produced by the liquid fuel production unit. 7 . The fuel production system according to claim 3 , wherein the control unit causes the electrolysis unit to supply, to the gasification unit, hydrogen produced using the electric power supplied from the second electric power source and controls the amount of hydrogen supply and the amount of second electric power supply so as to minimize the sum of the amount of CO 2 emission during synthesis and the amount of CO 2 emission during hydrogen production, wherein the amount of CO 2 emission during synthesis corresponds to the amount of carbon dioxide emitted from the gasification unit per unit of liquid fuel produced by the liquid fuel production unit, and the amount of CO 2 emission during hydrogen production corresponds to the amount of carbon dioxide emitted from a power generating system that supplies electric power to the second electric power source, per unit of liquid fuel produced by the liquid fuel production unit. 8 . The fuel production system according to claim 4 , wherein the control unit causes the electrolysis unit to supply, to the gratification unit, hydrogen produced using the electric power supplied from the second electric power source and controls the amount of hydrogen supply and the amount, of second electric power supply so as to minimize the sum of the amount of CO 2 emission during synthesis and the amount of CO 2 emission during hydrogen production, wherein the amount of CO 2 emission during synthesis corresponds to the amount of carbon dioxide emitted from the gasification unit per unit of liquid fuel produced by the liquid fuel production unit, and the amount of CO 2 emission during hydrogen production corresponds to the amount of carbon dioxide emitted from a power generating system that supplies electric power to the second electric power source, per unit of liquid fuel produced by the liquid fuel production unit. 9 . The fuel production system according to claim 5 , wherein the power index determining section acquires information Indicating the composition of energy mix of the power generating system and calculates the power index based on the information indicating the composition of energy mix. 10 . The fuel production system according to claim 6 , wherein the power index determining section acquires information indicating the composition of energy mix of the power generating system and calculates the power index based on the information indicating the composition of energy mix. 11 . The fuel production system according to claim 7 , wherein the power index determining section acquires information indicating the composition or energy mix of the power generating system and calculates the power index based on the information indicating the composition of energy mix. 12 . The fuel production system according to claim 8 , wherein the power index determining section acquires information indicating the composition of energy mix of the power generating system and calculates the power index based on the information indicating the composition of energy mix.