TH48614B - Molybdenum-based complex oxide catalyst; its use for the production of acrylene (meth) and acrylic (meth) acid. - Google Patents

Abstract

DC60 (01/07/43) complex oxide catalyst represented by the formula MoaWbBicFedAeBfCgDhEiOx (where A is Ni or Co; B is Na, K, Rb, Cs, or Tl; Is an alkaline earth metal; D is P, Te, Sb, Sn, Ce, Pb, Nb, Mn, As, B or Zn; E is Si, Al, Ti or Zr; And where a is 12, 0 less than or equal to b less than or equal 10.0 less than or equal c less than or equal 10,0 less than or equal d less than or equal 10,2 less than or equal e less than or Equal to 15,0 less than or equal to f less than or equal 10,0 less than or equal g less than or equal 10,0 less than or equal h less than or equal 4 and 0 less than or equal i less than or equal to 30 The catalyst was characterized by the molar ratio of total anion nitrate to molybdenum at the time The preparation of the catalyst was greater than 1 but not greater than 1.8 when it was used in the production reaction. (Meth) acrylene and acrylic (meth) acid by oxidation in the vapor cycle of a substance. Composed of at least one selected type of propylene, isobutylene, t-butanol, and methyl-t-butyl ether. And excellent selection conditions The stability performance was maintained over a longer period of time. The complex oxide catalyst represented by the formula MoaWbBicFedAeBfCgDhEiOx (where A is Ni or Co; B is Na, K, Rb, Cs, or Tl; Is an alkaline earth metal; D is P, Te, Sb, Sn, Ce, Pb, Nb, Mn, As, B or Zn; E is Si, Al, Ti or Zr; And where a is 12, 0 less than or equal to b less than or equal 10.0 less than or equal c less than or equal 10.0 less than or equal d less than or equal 10.2 less than or equal e less than or equal 15.0 less Or equal to f is less than or equal to 10.0, less than or equal to g, less than or equal to 10.0, less than or equal to h, less than or equal to 4 and 0 less than or equal to i less than or equal to 30) have been prepared catalysts have The effect is due to the molar ratio of all anion nitrate to molybdenum at the time period. The preparation of the catalyst was greater than 1 but not greater than 1.8 when it was used in the production reaction. (Meth) acrylene and acrylic (meth) acid by oxidation in the vapor cycle of a substance. Composed of at least one selected type of propylene, isobutylene, t-butanol, and methyl-t-butyl ether. And excellent selection conditions And maintain its stability performance over a longer period

Claims (2)

Claims (total) which will not appear on the classifieds page :Edit 10/08/2015 1. Complex Oxide Catalyst of formula (1) MoaWbBicFedAeBfC?gDhEiO?x, where Mo is molybdenum; W is tungsten; Bi is Bismuth; Fe is iron; A is one element or more selected from nickel and cobalt; B is one or more elements selected from sodium, potassium, rubidium, cesium and thallium; C is one or more elements that Choose from alkaline earth metals; D is one or more elements selected from phosphorus, tellurium, antimony, tin, cerium, lead, niobium, manganese, arsenic, boron, and zinc; E is one or more selected elements from silicon, aluminum, titanium and zirconium; and O is oxygen; a, b, c, d, e, f, g, h, i, and x indicate the atomic number ratios of Mo, W, Bi, Fe, A, B, C, D, E, and O, respectively; In such a way that when a is 12, 0(formula)b(formula)10, 0(formula)c(formula)10, 0 1.------------------------------------------------ ------------------- Or molecular oxygen gas t-butanol isobutylene, 2. Partial or complete preparation of bismuth is prepared by bithmanitrate as a base. Hour in the air stream, 10 600? 300 solids from Drying, dry hardening, solution heating or dispersion under stirring, relative to the molar volume of molybdenum is from If this is used, nitric acid, the catalyst preparation plus the molar quantity of the nitrate anion originating from The molar sum of anion nitrate present in all substrates used for In the acquaitic medium in such a way that (elementary taree, which combines by dissolving or distributing the required amount of an elemen-containing substrate, acquired by process and where the aforementioned complex oxide catalyst 20, ? c+d+e 9 is determined by the degree of oxidation of each element, x 30 4 hgfdb is a in such a way that when ED, C, B , A, Fe, Bi, W, Mo, atoms of the specified number ratio h, g, d, c, b, a, are oxygen; zirconium; titanium aluminium, boron manganese, lead, tellurium, selected from alkaline earth metals; cesium, sodium, or more selected from nickel A as iron; a Bismuth; is tungsten; is molybdenum; Mo MOaWbBicFedAeBfCgEiOx Complex Oxide Catalyst Formula 1. 58 08 Edit ------------------------------------ ------ Catalysts according to Claim 1 and methyl-t-butylether with molecular oxygen or molecular oxygen gas, in the presence of a vapor phase of one or more selected compounds from propylene, isobutylene, t-butanol. (meth)acrolein and (meth)acrylic acid via oxidation in Part or all of the bismuth is prepared by the base bitumen nitrate. solids from 300 to 600 °C for 1 to 10 h in air streams, and where in the dry hardening, drying, grinding and molding processes of the product to the desired form and sintering. Heating the solution or dispersant under stirring, evaporation of the system to make the nitric acid, if this is used, the molar volume of molybdenum is from 1.1 to 1.8, elementary components. ) 9(formula)c+d+e(formula)20, and where such complex oxide catalysts acquired by process 0(formula)i(formula)30 and x are determined by the degree of oxidation of each element, where 0(formula)b(formula)10, 0(formula)c(formula)10, 0.