Patent ID: 11884617
Assignee: DAICEL CORPORATION
Field: Organic fine chemistry (Chemistry)
Classification: CPC C  B | IPC B  C

Claim 0:
1. A method for producing acetic acid, the method comprising:
a carbonylation step of reacting methanol with carbon monoxide in a continuous system in the presence of a catalytic system, acetic acid, methyl acetate, and water,
wherein the catalytic system comprises a metal catalyst and methyl iodide;
wherein the carbonylation step employs two or more reactors disposed in parallel;

an evaporation step of separating, in an evaporator, a reaction mixture from the carbonylation step into:
a vapor stream, and
a residue stream; and

a light ends-removing step of:
separating, by distillation in a first distillation column, the vapor stream into:
an overhead stream rich in at least one light end selected from methyl iodide and acetaldehyde, and
an acetic acid stream rich in acetic acid; and

subjecting the overhead stream sequentially to condensation and to a liquid-liquid separation in a decanter, to form:
an aqueous phase, and
an organic phase;

wherein, in the evaporation step, the residue stream is recycled to the two or more parallel reactors;
wherein an acetic acid production volume is increased or decreased by increasing or decreasing the number of reactors in operation of the two or more parallel reactors;
wherein the reactor or reactors are each operated where at least one of following conditions (a) to (c) is met:
(a) two or more reactors are used in parallel, and only one evaporator is used;
(b) the evaporator includes two or more evaporators disposed in parallel and coupled respectively to the two or more parallel reactors, and only one first distillation column is used; and
(c) the method comprising a dehydration step of subjecting the acetic acid stream from the light ends-removing step to a distillation treatment in a second distillation column so as to further purify acetic acid, wherein
the evaporator comprises two or more evaporators disposed in parallel and coupled respectively to the two or more parallel reactors;
the first distillation column comprises two or more distillation columns disposed in parallel and coupled respectively to the two or more parallel evaporators; and
only one second distillation column is used;

wherein, during operation with an increase or decrease in number of reactors in operation, the reactor or reactors in operation are each operated at a reaction temperature of 170° C. or higher, the following conditions (i) and (iii) are met regardless of the number of reactors, and at least one of following conditions (ii) and (iv)-(vii) is met regardless of the number of reactors in operation, where the conditions (i) to (vii) are expressed as follows:
(i) variations in metal catalyst concentration and methyl iodide concentration in the reactor or reactors in operation fall within ±50%;
(ii) the catalytic system further includes an iodide salt, and a variation in iodide salt concentration in the reactor or reactors in operation falls within ±50%;
(iii) a variation in reaction temperature in the reactor or reactors in operation falls within ±20° C.;
(iv) a variation in at least one of acetic acid concentration, methyl acetate concentration, and water concentration in the reactor or reactors in operation falls within ±50%;
(v) a variation in hydrogen partial pressure in the reactor or reactors in operation falls within ±50%;
(vi) a variation in reaction rate in the reactor or reactors in operation falls within ±50%; and
(vii) a variation in acetic acid space time yield in the reactor or reactors in operation falls within ±40%.