Gasifier cooling structure, gasifier, and gasifier annulus portion enlargement method

1 . A gasifier cooling structure for cooling raw syngas which is generated by gasifying carbonaceous solid fuel and flows inside of a furnace wall formed in a pressure vessel having a circular cross-section, by heat exchange with a fluid flowing through tubes of a plurality of heat exchanger tube groups installed inside the furnace wall, wherein the furnace wall has a polygonal structure in which faces orthogonal to each other are connected by an oblique face, and has a cross-sectional shape in which a side of the oblique face is shorter than the respective sides of the faces orthogonal to each other, and the oblique face is provided such that a “one side reduction ratio” which is defined by a formula, “(La−Lb)/La×100”, when a length of a side before corner portions of a square cross-sectional shape are cut is set to be La and a length after the corner portions are cut is set to be Lb, is within a range of 11.1% to 33.3%, and the length La of the side is within a range of 2 m to 5 m. 2 . The gasifier cooling structure according to claim 1 , wherein a connecting pipe connecting a header of the heat exchanger tube group and the heat exchanger tube group is disposed in an annulus portion which is a space which is formed between the pressure vessel and the furnace wall, and a change in direction of approximately 90 degrees when viewed in a planar view, of the connecting pipe, is effected in a region of the oblique face. 3 . A gasifier comprising: a syngas cooler having the gasifier cooling structure according to claim 1 ; and a gas production section for gasifying the carbonaceous solid fuel, which is provided on the upstream side of the syngas cooler. 4 . A method of enlarging an annulus portion of a gasifier in which raw syngas which is generated by gasifying carbonaceous solid fuel flows inside of a furnace wall formed in a pressure vessel having a circular cross-section and is cooled by heat exchange with a fluid flowing through tubes of a plurality of heat exchanger tube groups installed inside the furnace wall, and a connecting pipe connecting a header of the heat exchanger tube group and the heat exchanger tube group is disposed in an annulus portion which is a space which is formed between the pressure vessel and the furnace wall, wherein the furnace wall has a polygonal structure in which faces orthogonal to each other are connected by an oblique face, and has a cross-sectional shape in which a side of the oblique face is shorter than the respective sides of the faces orthogonal to each other, and the oblique face is provided such that a “one side reduction ratio” which is defined by a formula, “(La−Lb)/La×100”, when a length of a side before corner portions of a square cross-sectional shape are cut is set to be La and a length after the corner portions are cut is set to be Lb, is within a range of 11.1% to 33.3%, and the length La of the side is within a range of 2 m to 5 m.