Patent Number: 
Section: claims

1. A system for producing at least one hydrocarbon fuel from a carbonaceous material, the system comprising:a nuclear power plant;an hydrocarbon fuel manufacturing plant, for manufacturing said at least one hydrocarbon fuel, comprising at least an electrolyzer unit for producing a first hydrogen stream from water and electric power provided by the nuclear power plant, and an hydrocarbon fuel synthesis unit for producing a product stream containing the at least one hydrocarbon fuel from at least said carbonaceous material and hydrogen, the nuclear power plant supplying power to a power distribution grid to which electric power consumers other than said hydrocarbon manufacturing plant are electrically connected, the grid being electrically connected to the nuclear power plant and said other electric power consumers having a total variable power consumption;a buffer storage of at least one given hydrocarbon fuel;a reforming unit for converting said at least one given hydrocarbon fuel to a second hydrogen stream containing at least hydrogen, and means to feed said at least one given hydrocarbon fuel to said reforming unit at a controlled feed flow rate;means to feed the hydrocarbon fuel synthesis unit with the first hydrogen stream at a first controlled flow rate and with the second hydrogen stream at a second controlled flow rate; andmeans to control the first and second controlled flow rate as a function of a current electrical power delivered by the nuclear power plant and the current power consumption of the electric power consumers, programmed to increase the second controlled flow rate when the first controlled flow rate is decreased because the electric power received by the electrolyzer unit is reduced. 2. The system of claim 1, wherein the means to control the first controlled flow rate includes a controller to control the electric power provided by the nuclear power plant to the electrolyzer unit. 3. The system of claim 2, wherein the electrolyzer unit has a given maximum electric power, the controller being able to control the electric power provided by the nuclear power plant to the electrolyzer unit between 25% and 100% of said maximum electric power. 4. The system of claim 1, wherein the means to control the second controlled flow rate includes a controller to control the feed flow rate at which said at least one given hydrocarbon fuel is fed to the reforming unit. 5. The system of claim 1, wherein the hydrocarbon fuel synthesis unit is able to produce a product stream containing at least first and second hydrocarbon fuels from at least said carbonaceous material and hydrogen, the second hydrocarbon fuel being said given hydrocarbon fuel, the hydrocarbon fuel manufacturing plant including a product separation unit for separating the second hydrocarbon fuel from the product stream and a transfer device to transfer the second hydrocarbon fuel to the buffer storage. 6. The system of claim 5, wherein the first hydrocarbon fuel is diesel fuel and the second hydrocarbon fuel is naphta. 7. The system of claim 1, wherein said given hydrocarbon fuel is naphta. 8. The system of claim 1, wherein the hydrocarbon fuel synthesis unit is able to produce a product stream containing at least light hydrocarbons and the at least one hydrocarbon fuel from at least said carbonaceous material and hydrogen, the hydrocarbon fuel manufacturing plant including a preliminary product separation unit for separating the light hydrocarbons from the product stream, and a transfer device to transfer the light ends to the reforming unit. 9. The system of claim 1, wherein the electrolyzer unit of the hydrocarbon fuel manufacturing plant is electrically connected to the nuclear power plant via the electric power distribution grid. 10. The system of claim 1, wherein the carbonaceous material is at least one of municipal waste, petcoke, biomass, polyethylene terephtalate, coal and carbon dioxide. 11. The system of claim 1, wherein the hydrocarbon fuel manufacturing plant includes a partial oxidation gasifier for producing a syngas stream at least from said carbonaceous material, the hydrocarbon fuel synthesis unit including a synthesis reactor for producing said product stream from said syngas stream and hydrogen. 12. A system for producing at least one hydrocarbon fuel from a carbonaceous material, the system comprising:a nuclear power plant;an hydrocarbon fuel manufacturing plant, for manufacturing said at least one hydrocarbon fuel, comprising at least an electrolyzer unit for producing a first hydrogen stream from water and electric power provided by the nuclear power plant, and an hydrocarbon fuel synthesis unit for producing a product stream containing the at least one hydrocarbon fuel from at least said carbonaceous material and hydrogen, the nuclear power plant supplying power to a power distribution grid to which electric power consumers other than said hydrocarbon manufacturing plant are electrically connected, the grid being electrically connected to the nuclear power plant and said other electric power consumers having a total variable power consumption;a buffer storage of at least one given hydrocarbon fuel;a reforming unit for converting said at least one given hydrocarbon fuel to a second hydrogen stream containing at least hydrogen, and a feed unit for feeding said at least one given hydrocarbon fuel to said reforming unit at a controlled feed flow rate;the hydrocarbon fuel synthesis unit receiving the first hydrogen stream at a first controlled flow rate and the second hydrogen stream at a second controlled flow rate; anda controller controlling the first and second controlled flow rate as a function of a current electrical power delivered by the nuclear power plant and the current power consumption of the electric power consumers, programmed to increase the second controlled flow rate when the first controlled flow rate is decreased because the electric power received by the electrolyzer unit is reduced. 13. The system of claim 12, wherein the controller is programmed to control the first and second flow rates to accumulate said given hydrocarbon fuel in the buffer storage when the electrolyzer unit is operating between 80% and 100% of its maximum power.