Gas filling method and station

1 - 15 . (canceled) 16 . A method for filling at least one buffer container of a filling station with pressurized gaseous hydrogen, the filling station comprising at least one buffer container and a fluid circuit connected to said at least one buffer container, the circuit of the filling station comprising a first end connected to at least one source of gaseous hydrogen for carrying out the filling of the at least one buffer container with gas originating from the source, the circuit comprising a second end equipped with a transfer pipe intended to be removably connected to a tank, in order to fill said tank from the at least one buffer container with gaseous hydrogen having a concentration of at least one given impurity that is below a given concentration threshold, the method comprising the steps of: filling said buffer container with the hydrogen; determining a current concentration of at least one impurity in the hydrogen in the buffer container during the filling thereof; and comparing said current concentration of the impurity with respect to a given concentration threshold; and when the current concentration of the at least one impurity reaches said concentration threshold, stopping the filling of said buffer container. 17 . The method of claim 16 , wherein the step of determining the current concentration of at least one impurity comprises a measurement by sensor(s) of the concentration of the impurity in the at least one source of hydrogen and/or in the fluid circuit of the filling station and a determination of the amount of gas transferred in real time into the buffer container during the filling of the latter. 18 . The method of claim 17 , wherein the determination of the amount of gas transferred in real time into the buffer container during the filling thereof comprises at least one from among: a measurement by a flowmeter in the circuit and a measurement of the pressure variation in the buffer container during the filling of the latter. 19 . The method of claim 16 , further comprising memorizing the residual current concentration of impurity in the buffer container determined during a previous filling of the buffer container, wherein, the step of determining the current concentration of at least one impurity in the hydrogen in the buffer container during a subsequent filling adds the residual concentration of impurity in the buffer container determined during the previous filling to the concentration of impurity added to the buffer container during the subsequent filling. 20 . The method of claim 16 , wherein the filling station comprises several buffer containers filled with gaseous hydrogen pressurized to different pressures. 21 . The method of claim 20 , wherein, after filling, the buffer containers are used successively in order of increasing pressure so as to fill the tank via successive pressure equalizations. 22 . The method of claim 16 , wherein at least one source of hydrogen comprises at least one from among: a network of hydrogen gas at a pressure between 1.3 bar absolute and 200 bar absolute and a component for producing hydrogen. 23 . The method of claim 22 , wherein the component for producing hydrogen comprises at least one from among: an electrolyzer, a natural gas reformer (“SMR”), a methanol cracking device, an autothermal reforming (“ATR”) device and a partial oxidation (“PDX”) device. 24 . The method of claim 16 , wherein at least one impurity comprises at least one from among: carbon monoxide (CO), water (H 2 O), at least one sulfur-containing or halogenated compound, CO 2 , nitrogen, helium, NH 3 , at least one hydrocarbon, O 2 and argon. 25 . The method of claim 16 , wherein at least one impurity comprises carbon monoxide (CO) and in that the concentration threshold is between 0.1 ppm and 10 ppm. 26 . The method of claim 16 , wherein at least one impurity comprises carbon monoxide (CO) and in that the concentration threshold is between 0.1 ppm and 0.3 ppm. 27 . The method of claim 16 , wherein at least one impurity comprises water (H 2 O) and in that the concentration threshold is between 1 ppm and 100 ppm. 28 . The method of claim 16 , wherein at least one impurity comprises water (H 2 O) and in that the concentration threshold is between 3 ppm and 7 ppm. 29 . The method of claim 16 , wherein the filling station comprising at least one compression component for compressing gaseous hydrogen supplied to the buffer container or to the tank. 30 . A filling station for a pressurized gaseous hydrogen tank, comprising: at least one buffer container for containing pressurized gaseous hydrogen; a fluid circuit comprising a plurality of valves, an electronic logic controller for controlling the filling station and for controlling at least one valve, a first end intended to be connected to at least one source of gaseous hydrogen for the filling of the at least one buffer container with the hydrogen supplied by the at least one source, and a second end comprising a filling pipe intended to be removably connected to a tank in order to fill said tank from the at least one buffer container with gaseous hydrogen having a concentration of at least one given impurity that is below a given concentration threshold, the circuit being connected to said at least one buffer container; and at least one component for determining the current concentration of at least one impurity in the hydrogen in the buffer container during the filling thereof, wherein the electronic logic controller is adapted to: receive and/or calculate the current concentration of impurity determined by the determining component, compare said current concentration of the impurity to a predetermined concentration threshold, and when the current concentration of the at least one impurity reaches said concentration threshold, stop the filling of said buffer container. 31 . The station of claim 30 , wherein the component for determining the current concentration comprises at least one sensor of the concentration of the impurity in the at least one source of hydrogen and/or in the fluid circuit of the filling station and at least one component for determining the amount of gas transferred in real time into the buffer container during the filling of the latter. 32 . The station of claim 31 , wherein the component for determining the amount of gas transferred into the buffer container comprises at least one from among: a flowmeter located in the circuit and a sensor for measuring the pressure in the buffer container.