Patent ID: 8507721
Filing Date: 2013-08-13
Classification: C07B,C07C

Abstract:
1. A process for preparing acrylic acid from ethanol and formaldehyde, which comprises the following measures: a stream of a reaction gas input mixture A comprising the ethanol and molecular oxygen reactants and at least one inert diluent gas other than steam is conducted through a first reaction zone A charged with at least one oxidation catalyst A, wherein the charge of the reaction zone A with at least one oxidation catalyst A comprises two sections 1 and 2 which are spatially successive in flow direction of reaction gas input mixture A in numerical sequence thereof and are charged with different oxidation catalysts A, said at least one oxidation catalyst A of section 1 having a catalytically active material 1 which comprises at least one vanadium oxide and at least one oxide from the group of the oxides of titanium, of aluminum, of zirconium and of tin, and said at least one oxidation catalyst A of section 2 having a catalytically active material 2 which is a multimetal oxide which, as well as V and Mo, additionally comprises at least one of the elements W, Mo, Ta, Cr and Ce, and at least one of the elements Cu, Ni, Co, Fe, Mn and Zn; and, in the course of passage through reaction zone A, ethanol present in the reaction gas input mixture A is oxidized under heterogeneous catalysis to acetic acid and steam so as to form a product gas mixture A comprising acetic acid, steam, molecular oxygen and at least one inert diluent gas other than steam, and a stream of product gas mixture A leaves reaction zone A, it optionally being possible to supply further molecular oxygen and/or further inert diluent gas to the reaction gas mixture A flowing through reaction zone A on its way through reaction zone A a stream of a reaction gas input mixture B which comprises acetic acid, steam, molecular oxygen, at least one inert diluent gas other than steam and formaldehyde and in which the molar amount n the stream of reaction gas input mixture B is passed through a second reaction zone B charged with at least one aldol condensation catalyst B and formaldehyde present in reaction gas input mixture B, as it flows through reaction zone B, is condensed with acetic acid present in reaction gas input mixture B under heterogeneous catalysis to give acrylic acid and H the stream of product gas mixture B leaving reaction zone B is fed to a separation zone T and separated in separation zone T into at least three streams X, Y and Z, the amount of acrylic acid present in stream X is greater than the amount of acrylic acid present in streams Y and Z together, the amount of acetic acid present in stream Y is greater than the amount of acetic acid present in streams X and Z together, the amount of inert diluent gas other than steam present in stream Z is greater than the amount of inert diluent gas other than steam present in streams X and Y together, and stream Y is recycled into reaction zone B and used to obtain reaction gas input mixture B.