Method and facility for converting uranium hexafluoride into uranium dioxide

What is claimed is: 1 to 12 . (canceled) 13 . A method for converting uranium hexafluoride (UF 6 ) to uranium dioxide (UO 2 ), the method comprising: hydrolysis of UF 6 to uranium oxyfluoride (UO 2 F 2 ) in a hydrolysis reactor by reaction between gaseous UF 6 and dry water vapor injected into the hydrolysis reactor; pyrohydrolysis of UO 2 F 2 to UO 2 in a pyrohydrolysis furnace by reaction of UO 2 F 2 with dry water vapor and hydrogen gas (H 2 ) injected into the pyrohydrolysis furnace; extracting excess gas in the hydrolysis reactor via a capture device comprising several filters; periodically unclogging of the filters by injecting a neutral gas into the filters from an outside to an inside of the hydrolysis reactor to remove powder stuck on the filters; measuring the relative pressure in the hydrolysis reactor; and implementing a punctual unclogging of the filters when a relative pressure in the hydrolysis reactor exceeds a predetermined punctual unclogging threshold. 14 . The method according to claim 13 , further comprising injecting a neutral scavenging gas into the hydrolysis reactor so that the conversion of UF 6 to UO 2 F 2 takes place under a nitrogen atmosphere. 15 . The method according to claim 13 , wherein the dry water vapor and the H 2 are injected into the pyrohydrolysis furnace so as to circulate in the pyrohydrolysis furnace against a current of the UO 2 F 2 , to the hydrolysis reactor. 16 . The method according to claim 13 , further comprising shutting down the conversion installation if the relative pressure in the hydrolysis reactor exceeds a predetermined safety threshold. 17 . The method according to claim 16 , wherein the safety threshold is between 100 and 500 mbar. 18 . The method according to claim 16 , wherein the punctual unclogging threshold is set in a range of 100 mbar below the safety threshold. 19 . The method according to claim 13 , further comprising vibrating and/or striking a wall of the hydrolysis reactor. 20 . The method according to claim 19 , wherein the vibration is performed by a flow device comprising at least one flow member configured to vibrate and/or strike a wall of the hydrolysis reactor, directly or via an intermediate part. 21 . The method according to claim 13 , further comprising impacting a percussion surface of the pyrohydrolysis furnace during the conversion of UO 2 F 2 to UO 2 in order to take off powder of UO 2 F 2 or UO 2 sticking to an internal surface of the pyrohydrolysis furnace. 22 . The method according to claim 21 , wherein the pyrohydrolysis furnace comprises a rotary drum receiving the UO 2 F 2 and into which are injected dry water vapor and H 2 , the percussion surface being an outer surface of the drum. 23 . The method according to claim 21 , wherein the impacting of the percussion surface is performed using at least one percussion device comprising a striker movable relative to the percussion surface and an intermediate part disposed between the striker and the percussion surface such that the striker strikes the percussion surface via the intermediate part, the intermediate part being movable between a position spaced from the percussion surface and a percussion position in contact with the percussion surface. 24 . A conversion installation configured for the implementing the conversion method according to claim 13 .