Method for preparing heteropolyacid catalyst and method for...

Organic compounds -- part of the class 532-570 series – Organic compounds – Carboxylic acids and salts thereof

Reexamination Certificate

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C562S599000, C562S534000, C562S535000, C562S549000, C502S209000, C502S208000, C502S211000, C502S213000, C502S212000, C560S214000

Reexamination Certificate

active

06624326

ABSTRACT:

TECHNICAL FIELD TO WHICH THE INVENTION BELONGS
This invention relates to a method for preparing heteropolyacid catalyst and method for producing methacrylic acid. More particularly, the invention relates to a method for preparing heteropolyacid catalyst containing heteropolyacid formed of molybdophosphoric acid and/or molybdovanadophosphoric acid, or a salt of the heteropolyacid, which is suitable for use in preparation of unsaturated carboxylic acid through vapor phase oxidation of unsaturated aldehyde; and also to a method for producing methacrylic acid through vapor phase oxidation or vapor phase oxydehydrogenation of methacrolein, isobutyl aldehyde and/or isobutyric acid in the presence of said heteropolyacid catalyst.
PRIOR ART
It is well known to use heteropolyacid catalyst whose chief component is a heteropolyacid composed of phosphorus-molybdenum or phosphorus-molybdenum-vanadium, or a salt thereof, for producing methacrylic acid through vapor phase oxidation of methacrolein, isobutyl aldehyde and/or isobutyric acid.
Concerning preparation of heteropolyacid catalysts, various methods have been proposed. For example, Official Gazettes of Sho 57(1982)-12830A, Sho 57-171443A, Sho 57-171444A and Sho 57-177347A teach that preparation of heteropolyacid catalyst in the presence of a nitrogen-containing heterocyclic compound improves the catalytic performance. Specifically, in those prior art heteropolyacid catalysts are prepared by dissolving or dispersing a nitrogen-containing heterocyclic compound in water together with raw materials containing such constituent elements as phosphorus, molybdenum, vanadium and the like, concentrating the solution or dispersion under thorough stirring, drying the concentrate and calcining the same.
PROBLEMS TO BE SOLVED BY THE INVENTION
Those heteropolyacid catalysts which are prepared in the presence of a nitrogen-containing heterocyclic compound, however, are inferior in selectivity and activity for reaction and in catalytic life, compared to oxidation catalysts conventionally used for making acrylic acid from acrolein, where they are used, for example, in production of methacrylic acid from methacrolein, isobutyl aldehyde and/or isobutyric acid. In consequence, those heteropolyacid catalysts must be used in large quantities and brings about rise in production costs.
An object of the present invention, therefore, is to provide a method for preparing heteropolyacid catalyst excelling in performance, life and furthermore in strength which is of particular importance for industrial use, over those heteropolyacid catalysts which are prepared by the conventional method.
Another object of the invention is to provide a method for producing methacrylic acid through vapor phase oxidation or vapor phase oxydehydrogenation of methacrolein, isobutyl aldehyde and/or isobutyric acid, using a catalyst prepared in accordance with the novel method of the invention.
MEANS TO SOLVE THE PROBLEMS
We have discovered that the above objects can be accomplished by adjusting, in the occasion of preparing a solution or dispersion of raw materials, which contain the elements constituting the intended heteropolyacid catalyst, and a nitrogen-containing heterocyclic acid in water, the ammonium ion content and nitrate anion content of said solution or dispersion to fall within specific ranges. This invention is completed based on this knowledge.
According to the invention, thus a method for preparing a heteropolyacid catalyst containing a heteropolyacid composed of molybdophosphoric acid and/or molybdovanadophosphoric acid, or a salt of the heteropolyacid in the presence of a nitrogen-containing heterocyclic compound is provided, which method comprises preparing an aqueous solution or aqueous dispersion which
(1) contains the nitrogen-containing heterocyclic compound, nitrate anions and ammonium ions,
(2) the ammonium ion content not exceeding 1.7 mols per mol of the nitrate anion content, and
(3) the ammonium ion content not exceeding 10 mols per 12 mols of the molybdenum atom content, by mixing raw materials containing the catalyst-constituting elements with a nitrogen-containing heterocyclic compound in the presence of water, then drying and calcining the same.
Again according to the present invention, a method for producing methacrylic acid is provided, which method comprises vapor-phase oxidation or oxydehydrogenation of methacrolein, isobutyl aldehyde and/or isobutyric acid, characterized in that a heteropolyacid catalyst which is obtained by the above-described method is used as the catalyst.
EMBODIMENTS OF THE INVENTION
The method of the invention comprises dissolving or uniformly dispersing the raw materials containing the heteropolyacid catalyst-constituting elements such as phosphorus, molybdenum, vanadium and the like and a nitrogen-containing heterocyclic compound in water, concentrating the resultant aqueous solution or dispersion, drying the concentrate and calcining the same. The characteristic feature of the invention resides in that the nitrogen-containing heterocyclic compound, ammonium ions and nitrate anions are present in said aqueous solution or dispersion, and in that the ammonium ion content and nitrate anion content are adjusted to fall within the earlier-specified ranges. It is whereby made possible to prepare a heteropolyacid catalyst excelling in performance, life and strength.
According to the method of the invention, it is possible to prepare any heteropolyacid catalyst, as long as it contains a heteropolyacid composed of molybdophosphoric acid and/or molybdovanadophosphoric acid or a salt of such heteropolyacid. The heteropolyacid catalyst, for example, can be expressed by the following general formula:
P
a
Mo
b
V
c
X
d
O
x
(wherein P, Mo and V are phosphorus, molybdenum and vanadium, respectively; X represents at least one metal element capable of constituting a heteropolyacid salt, which is selected from alkali metals (potassium, rubidium, cesium and the like), alkaline earth metals, copper, silver, zirconium, niobium, zinc, magnesium, selenium, tellurium, arsenic, antimony, germanium, iron, nickel and silicon; O is oxygen, a, b, c, d and x signify atomic ratios of P, Mo, V, X and O, respectively, where b is 12, a is 0.1-3, c is 0-6, d is 0.05-5, and x is a numerical value determined by valency of each element).
As nitrogen-containing heterocyclic compound, any of those known may be used. For example, pyridine, piperidine, piperazine, pyrimidine, quinoline, isoquinoline and alkyl derivatives of the foregoing may be named. Use of these compounds in the form of inorganic salts such as nitrate, sulfate, chloride and the like is recommended, for prevention of generation of odor at the time of the catalyst preparation and recovery and reuse of these compounds. The use rate of such a nitrogen-containing heterocyclic compound can be suitably selected within a range of 1-50% by weight based on the weight of oxides of the raw materials containing the catalyst-constituting elements.
The raw materials containing the catalyst-constituting elements are subject to no particular limitation, but any of those generally used for preparation of heteropolyacid catalysts may be used. For example, as molybdenum material, ammonium molybdates such as ammonium paramolybdate, ammonium dimolybdate and the like, molybdic acid, molybdenum trioxide, etc. can be used. As vanadium material, vanadium pentoxide, ammonium metavanadate, sodium metavanadate, vanadyl oxalate, vanadyl sulfate and the like can be used. As phosphorus material, orthophosphoric acid, disodium hydrogenphosphate, ammonium phosphate and the like can be used. It is also permissible to use a raw material containing more than one element, such as molybdophosphoric acid, molybdovanadophosphoric acid and the like.
As source for ammonium ion supply, ammonia or ammonium salts are useful. As examples of ammonium salts, besides ammonium nitrate, ammonium carbonate, ammonium hydrogencarbonate, ammonium acetate and the like, those raw materials containing catalyst-constituting elements, such as ammonium molybd

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