Liquefied gas storage facility having a polygonal load-bearing structure

The invention claimed is: 1 . A liquefied gas storage facility ( 1 ) including: a load-bearing structure ( 10 ) including an internal space delimited by a bottom load-bearing wall ( 11 ) and a vertical load-bearing wall ( 12 ), a contour of said bottom load-bearing wall ( 11 ) being the shape of a regular polygon with N sides having dimensional tolerances, N being an integer greater than or equal to 3, said vertical load-bearing wall ( 12 ) being made up of N vertical load-bearing panels ( 14 ) and forming a surface having said polygon as directrix, in which each of the N sides of the polygon corresponds to an intersection of the bottom load-bearing wall ( 11 ) with one of said vertical load-bearing panels ( 14 ), and a sealed and thermally-insulating tank ( 20 ) stored in the internal space of the load-bearing structure ( 10 ), the tank ( 20 ) including a tank bottom wall ( 21 ) disposed on the bottom load-bearing wall ( 11 ) and a tank vertical wall ( 22 ) disposed on the vertical load-bearing wall ( 12 ), said tank bottom wall ( 21 ) including a plurality of angular sectors ( 25 ) that are images of one another by rotation by a predetermined angle about a vertical axis, the predetermined angle being equal to k·360°/N where k is a positive integer, said tank vertical wall ( 22 ) comprising a vertical row ( 110 ) of corner insulating wall modules ( 210 , 210 A, 141 ) disposed along each edge ( 13 ) of the vertical load-bearing wall ( 12 ) separating two adjacent vertical load-bearing panels ( 14 ) and a vertical row ( 120 ) of planar insulating wall modules ( 131 ; 131 A) disposed on each vertical load-bearing panel ( 14 ), in which an azimuth angle offset relative to said vertical axis between two vertical rows ( 120 ) of planar insulating wall modules ( 131 , 131 A, 171 ) disposed on two adjacent vertical load-bearing panels ( 14 ) is equal to 360°/N, with an accuracy better than 5 mm in an ortho-radial direction on said adjacent vertical load-bearing panels ( 14 ), said tank vertical wall ( 22 ) comprising adjustment insulating elements ( 144 , 317 , 337 ) for adjusting offsets ( 900 ) between the vertical rows ( 110 ) of corner insulating wall modules and the vertical rows ( 120 ) of planar insulating wall modules, in which each vertical row ( 120 ) of planar insulating wall modules includes a metal sealed membrane ( 170 ) including vertical corrugations ( 172 ), and in which each angular sector ( 25 ) is oriented relative to k vertical load-bearing panels ( 14 ) associated with said angular sector ( 25 ) so that a sealed metal membrane ( 70 ) of the angular sector ( 25 ) includes radiating corrugations ( 72 ) oriented perpendicularly to each associated vertical load-bearing panel ( 14 ), said radiating corrugations ( 72 ) being connected continuously to the vertical corrugations ( 172 ) of the metal sealed membrane ( 170 ) of the vertical row ( 120 ) of planar insulating wall modules disposed on the associated vertical load-bearing panel ( 14 ). 2 . The liquefied gas storage facility as claimed in claim 1 in which each planar insulating wall module ( 131 , 131 A, 171 ) of a vertical row ( 120 ) of planar insulating wall modules comprises at least one plane insulating block ( 131 ) bearing on the corresponding vertical load-bearing panel ( 14 ) and at least one corrugated metal plate ( 171 ) fixed to said planar insulating block ( 131 ), the corrugated metal plate ( 171 ) forming part of the metal sealed membrane ( 170 ). 3 . The liquefied gas storage facility as claimed in claim 2 in which each corner insulating wall module ( 210 , 210 A, 141 ) of a vertical row ( 110 ) of corner insulating wall modules comprises: a corner insulating block ( 210 , 210 A) disposed along a portion of the corresponding edge ( 13 ) of the vertical load-bearing wall ( 12 ) and bearing on the two vertical load-bearing panels ( 14 ) situated on respective opposite sides of said edge ( 13 ), and a corner metal plate ( 141 ) fixed to the corner insulating block ( 210 , 210 A). 4 . The liquefied gas storage facility as claimed in claim 3 in which the corner metal plates ( 141 ) of a vertical row ( 110 ) of corner insulating wall modules ( 210 , 210 A, 141 ) are connected in sealed manner to the corrugated metal plates of two vertical rows ( 120 ) of planar insulating wall modules situated on respective opposite sides of the vertical row ( 110 ) of corner insulating wall modules ( 210 , 210 A, 141 ) and in which the adjustment insulating elements comprise jogged vertical edge zones ( 144 ) of the corner metal plates ( 141 ) and/or the corrugated metal plates of two vertical rows ( 120 ) of planar insulating wall modules. 5 . The liquefied gas storage facility as claimed in claim 3 in which the adjustment insulating elements comprise insulating filler elements ( 317 , 337 ) disposed between the corner insulating blocks ( 210 , 210 A) of the corner insulating wall modules ( 210 , 210 A, 141 ) and the planar insulating blocks ( 131 ) of the planar insulating wall modules ( 131 , 131 A, 171 ). 6 . The liquefied gas storage facility as claimed in claim 1 in which each vertical row ( 110 ) of corner insulating wall modules ( 210 , 210 A, 141 ) includes a sealed metal membrane ( 140 ) including a corner vertical corrugation ( 142 ) extending along said row ( 110 ) in line with the corresponding edge ( 13 ) of the vertical load-bearing wall ( 12 ). 7 . The liquefied gas storage facility as claimed in claim 6 in which the corner vertical corrugation ( 142 ) is not connected continuously to the radiating corrugations ( 72 ) of the sealed metal membrane ( 70 ) of the angular sectors ( 25 ). 8 . The liquefied gas storage facility as claimed in claim 1 , in which each vertical row ( 110 ) of corner insulating wall modules ( 210 , 210 A, 141 ) includes a sealed metal membrane ( 140 ) including a corner vertical corrugation ( 142 ) extending along said row ( 110 ) in line with the corresponding edge ( 13 ) of the vertical load-bearing wall ( 12 ); in which each corner insulating wall module ( 210 , 210 A, 141 ) of a vertical row ( 110 ) of corner insulating wall modules comprises: a corner insulating block ( 210 , 210 A) disposed along a portion of the corresponding edge ( 13 ) of the vertical load-bearing wall ( 12 ) and bearing on the two vertical load-bearing panels ( 14 ) situated on respective opposite sides of said edge ( 13 ), and a corner metal plate ( 141 ) fixed to the corner insulating block ( 210 , 210 A); and in which each corner metal plate ( 141 ) includes a portion of the corner vertical corrugation ( 142 ) of the vertical row ( 110 ) of corner insulating wall modules ( 210 , 210 A, 141 ). 9 . The liquefied gas storage facility as claimed in claim 1 in which the tank comprises a plurality of corner junction pieces ( 69 ) straddling the tank bottom wall ( 21 ) and the tank vertical wall ( 22 ), each corner junction piece ( 69 ) providing a continuous connection between a radiating corrugation ( 72 ) of the sealed metal membrane ( 70 ) of an angular sector ( 25 ) of the tank bottom wall ( 21 ) and a vertical corrugation ( 172 ) of the sealed metal membrane ( 170 ) of the vertical row ( 120 ) of planar insulating wall modules ( 131 , 131 A, 171 ) disposed on a vertical load-bearing panel ( 14 ) associated with said angular sector ( 25 ). 10 . The liquefied gas storage facility as claimed in claim 1 in which the azimuth angular offset relative to said vertical axis between two rows ( 120 ) of planar insulating wall modules ( 131 , 131 A, 171 ) disposed on two adjacent vertical load-bearing panels ( 14 ) is equal to 360°/N, preferably with an accuracy better than 3 mm, more pre