Method for producing acetic acid

1 . A method for producing acetic acid, comprising: a carbonylation reaction step of reacting methanol with carbon monoxide in a reaction vessel in the presence of a catalyst system containing a metal catalyst and methyl iodide, acetic acid, methyl acetate, and water to produce acetic acid; a separation step of using one or more evaporators and/or distillation columns to separate the reaction mixture obtained in the carbonylation reaction step into a stream containing the metal catalyst, an acetic acid stream rich in acetic acid, and a stream more enriched with a lower boiling point component than the acetic acid stream; an acetic acid distillation step, optionally included in the separation step, of distilling the acetic acid stream to purify the acetic acid; and an adsorptive removal step of treating the purified acetic acid stream obtained in the acetic acid distillation step with an ion exchange resin, wherein the acetic acid distillation step has at least one distillation step of carrying out the purification of the acetic acid stream under conditions of a column bottom temperature of the distillation column of less than 175° C., a nickel base alloy or zirconium is used as a material of the distillation column in the distillation step, and as metal ion concentrations in a charging mixture of the distillation column in the distillation step, an iron ion concentration is less than 10,000 ppb by mass, a chromium ion concentration is less than 5,000 ppb by mass, a nickel ion concentration is less than 3,000 ppb by mass, and a molybdenum ion concentration is less than 2,000 ppb by mass. 2 . The method for producing acetic acid according to claim 1 , wherein the charging mixture of the distillation column in the distillation step has an acetic acid concentration of 90% by mass or more. 3 . The method for producing acetic acid according to claim 1 , wherein the charging mixture of the distillation column in the distillation step contains at least one compound selected from the group consisting of an acetate salt, acetic anhydride, and propionic acid. 4 . The method for producing acetic acid according to claim 1 , wherein a column bottom liquid of the distillation column in the distillation step has an acetate salt concentration of 34% by mass or less. 5 . The method for producing acetic acid according to claim 1 , wherein a column bottom liquid of the distillation column in the distillation step has an acetic anhydride concentration of 90% by mass or less. 6 . The method for producing acetic acid according to claim 1 , wherein a column bottom liquid of the distillation column in the distillation step has a propionic acid concentration of 90% by mass or less. 7 . The method for producing acetic acid according to claim 1 , wherein the distillation is carried out under conditions of a column bottom pressure of the distillation column in the distillation step of less than 0.255 MPaG. 8 . The method for producing acetic acid according to claim 1 , wherein the distillation is carried out under conditions of a column bottom pressure of the distillation column in the distillation step of 0.01 MPaG or more and less than 0.255 MPaG. 9 . The method for producing acetic acid according to claim 1 , wherein the charging mixture of the distillation column in the distillation step has a zinc ion concentration of less than 1,000 ppb by mass. 10 . The method for producing acetic acid according to claim 1 , wherein a plate spacing between a charging mixture feeding plate and a column top vapor withdrawal plate of the distillation column in the distillation step is not less than one plate in terms of actual plates. 11 . The method for producing acetic acid according to claim 1 , wherein the material of a charging pipe to the distillation column in the distillation step is a nickel base alloy or zirconium. 12 . The method for producing acetic acid according to claim 1 , wherein the acetic acid distillation step has at least one distillation step in which the acetic acid concentration in the acetic acid stream to be distilled is 97% by mass or more, and in all such steps the distillation of the acetic acid stream is carried out under conditions of a column bottom temperature of the distillation column of less than 175° C. 13 . A method for producing acetic acid, comprising: a carbonylation reaction step of reacting methanol with carbon monoxide in a reaction vessel in the presence of a catalyst system containing a metal catalyst and methyl iodide, acetic acid, methyl acetate, and water to produce acetic acid; an evaporation step of separating the reaction mixture obtained in the carbonylation reaction step into a vapor stream and a residual liquid stream in an evaporator; a lower boiling point component removal step of separating the vapor stream by distillation into an overhead stream rich in a lower boiling point component and a first acetic acid stream rich in acetic acid; a dehydration step of separating the first acetic acid stream by distillation into an overhead stream rich in water and a second acetic acid stream more enriched with acetic acid than the first acetic acid stream; and an adsorptive removal step of treating the second acetic acid stream, or an acetic acid stream that has been more enriched with acetic acid by further purification of the second acetic acid stream, with an ion exchange resin, wherein a nickel base alloy or zirconium is used as a material of a distillation column in the dehydration step, and as metal ion concentrations in a charging mixture of the distillation column in the dehydration step, an iron ion concentration is less than 10,000 ppb by mass, a chromium ion concentration is less than 5,000 ppb by mass, a nickel ion concentration is less than 3,000 ppb by mass, and a molybdenum ion concentration is less than 2,000 ppb by mass, and the dehydration step is carried out under conditions of a column bottom temperature of the distillation column of less than 175° C. 14 . The method for producing acetic acid according to claim 13 , wherein an iron ion concentration in the second acetic acid stream is less than 21,000 ppb by mass. 15 . The method for producing acetic acid according to claim 13 , wherein as metal ion concentrations in the second acetic acid stream, an iron ion concentration is less than 21,000 ppb by mass, a chromium ion concentration is less than 7,100 ppb by mass, a nickel ion concentration is less than 4,000 ppb by mass, a molybdenum ion concentration is less than 3,000 ppb by mass, and a zinc ion concentration is less than 1,000 ppb by mass. 16 . A method for producing acetic acid, comprising, in a distillation column having a nickel base alloy or zirconium as a material and having a plate spacing between a charging mixture feeding plate and a column top vapor withdrawal plate of not less than one plate in terms of actual plates, feeding crude acetic acid having an iron ion concentration of less than 10,000 ppb by mass, a chromium ion concentration of less than 5,000 ppb by mass, a nickel ion concentration of less than 3,000 ppb by mass, a molybdenum ion concentration of less than 2,000 ppb by mass, a zinc ion concentration of less than 1,000 ppb by mass, a hexyl iodide concentration of less than 510 ppb by mass, and an acetic acid concentration of not less than 80% by mass into the charging mixture feeding plate via a charging pipe having a nickel base alloy or zirconium as a material, and conducting distillation under conditions of a column bottom temperature of less than 175° C. to obtain an overhead stream rich in water and purified acetic acid having an