TH20107B - Acrylic acid production process - Google Patents

Abstract

Acrylic acid can be produced effectively by the introduction of acrylonitrile. Oxidation of the gas phase with a catalyst in the presence of an oxide catalyst. With molybdenum / vanadium as a basis, which is prepared by using a specific substance as Raw materials of each elemental metal Make up the catalyst Prepare the sample that should be used. Of that catalyst by using It is the raw material of vanadium, ammonium, methavanate, and at least one type of vanadium oxide, of which vanadium's valence is greater than 0 but less than 5, it is the raw material of copper copper nitrate and is at least part of the raw material ( Maybe several) of antimony, at least one type of antimony oxide, whose wavelength is greater than 0 but less than 5.

Claims (3)

1. Process for producing acrylic acid by adopting acrylonitrile or gas. Which is an oxidation gas cycle with molecular oxygen or gas with oxygen that is The molecules in the presence of molybdenum / vanadium-based oxide catalysts are represented by the following general formula (I): MoaVbWcCudXeYfZgOh (I), where Mo is molybdenum, V is vanadium, W is tanten, Cu is copper, X is at least one element chosen from antimony and tin, Y is the least. One element selected from magnesium, calcium, strontium and barium, Z is at least one element selected from titanium, zirconium and cerium, O is oxygen a, b, c, d, e, f, g and h. Is the atomic number of Mo, V, W, Cu, X, Y, and Z, respectively, with the condition that when a is 12,2 (less than or equal to) b (less than or equal to) 14, O (less than or equal to ) C (less than or equal to) 12, O (less than) d (less than or equal to) 5, O (less than or equal to) e (less than or equal to) 5, O (less than or equal to) f (less Greater than or equal to) 3 and O (less than or equal to) g (less than or equal to) 10; And h is the number by the oxidation number of each element besides O, which gives rise to the process. Oxide catalyst with molybdenum / vanadium It is fundamental by using the following substances. It is the raw material of vanadium, copper, antimony and tin: when the molybdenum / vanadium oxide catalyst is the basis, neither antimony nor tin is present, that is, when e = O (A), the raw material of vanadium is ammonium methava. Nedet, and at least vanadium. One oxide Where vanadium's valence is greater than O but less than 5, and copper's raw material is copper nitrate, or (B) vanadium's raw material is ammonium methavanate, and copper's material is copper. Nitrate and at least one type of copper oxide in which the valence of copper is greater than 0 but less than 2 or (C), the raw material of vanadium is ammonium methavanate and at least one vanadium oxide. A type in which the valence of vanadium is greater than 0 but less than 5, and the raw material of copper is copper nitrate and at least one type of coperoxide whose valence of copper is greater than 0 but less than 2, and When the accelerator The molybdenum / vanadium-based oxide reactions have antimony and / or tin, that is, when O (less than) e (less than or equal to) 5, (D), the raw material of vanadium is ammonium methavanate. And at least vanadium One oxide Which vanadium's valence is more than 0 but less than 5, the raw material of copper is copper nitrate and at least part of the raw material. (Maybe several) of antimony is at least The most antimony One type of oxide in which antimony welens is greater than 0 but less than 5 or (E). Vanadium's raw material is ammonium. Metavanedate and at least Vanadium One oxide of vanadium is greater than 0 but less than 5. The raw material of copper is copper nitrate, and at least the raw material (possibly several) of tin is at least one tin oxide. Tin's weles is greater than 0 but less than 4 or (F), the raw material of vanadium is ammonium. Metavanedate and at least Vanadium One oxide Where vanadium is greater than 0 but less than 5, the raw material of copper is copper nitrate. At least, the antimony (possibly several) raw materials is at least. The most antimony oxide wavelength is greater than 0 but less than 5, and at least part of the raw material. (Possibly several) of tin is, at least, one type of finoxide. Where tin is greater than 0 but less than 4 or (G) vanadium's raw material is ammonium methavanate, copper's raw material is copper nitrate, and at least one coperoxide. The weles of copper is greater than 0, but less than 2, and at least part of the raw material. (Maybe several) of antimony is at least Finally, one type of antimony oxide, in which the antimony's wlenits are greater than 0 but less than 5 or (H), the raw material of vanadium is ammonium methavanate, the raw material of copper is copper nitrate, and at least a coper. A One oxide Which copper welenes are greater than 0 but less than 2 and at least part of the raw material (Maybe several) of tin is, at least, one type of tin oxide, where the weles of tin is greater than 0, but less than 4, or (I). Vanadium's raw material is ammonium methavanate, the raw material of copper is a copper. Nitrate and at least one type of coperoxide in which copper wavelength is greater than 0 but less than 2 at least the raw material. The antimony's wavelength is greater than 0 but less than 5, and at least the raw material (possibly several) of tin is at least one type of tin oxide. Tin's welenz is greater than 0 but less than 4 or (J), the raw material of vanadium is ammonium methavanate, and at least one type of vanadium oxide, where vanadium's welenz is greater than 0 but less than 5, the raw material of copper is copper. Nitrate and at least one type of coperoxide in which the copper wavelength is greater than 0 but less than 2, and at least the raw material (possibly several) of antimony is at least one type of antimony oxide. Where antimony's valence is greater than 0 but less than 5 or (K), vanadium's raw material is ammonium, methavanedate, and at least vanadium. One oxide Where vanadium's valence is greater than 0 but less than 5, the raw material of copper is copper nitrate and at least one type of copper oxide, whose valence copper is greater than 0 but less than 2 and at least. Raw material part (Possibly several) of tin is at least one type of tin oxide in which the weles of tin is greater than 0 but less than 4 or (L). The raw material of vanadium is ammonium methavanate and at least one type of vanadium oxide which Vanadium's valence is greater than 0 but less than 5. The raw material of copper is copper nitrate and at least one type of copper oxide, whose valence copper is greater than 0 but less than 2 at least. raw material (Maybe several) of antimony is at least The most antimony oxide wavelength is greater than 0 but less than 5, and at least part of the raw material. (Possibly several) of tin is, at least, one type of tin oxide, in which the weles of tin is greater than 0 but less than 4 or (M). Vanadium's raw material is ammonium methavanate, and part of it in the form of Complexes with antimony compounds Antimony's welenes are greater than 0 but less than 5, and copper raw material is copper nitrate or (N). Vanadium raw material is ammonium methavanate and its part in the form of a complex with Tin compounds in which the vane of tin is greater than 0 but less than 4 and the raw material of copper is copper nitrate or (O) uses vanadium raw materials, ammonium methavanate, and part of it as a substance. Complexes with (1) antimony compounds Antimony's welesis greater than 0 but less than 5 and (2) tin compounds, of which the welens of tin is greater than 0 but less than 4, and the raw material of copper is coper nitrate 2. Process according to claim 1, which the accelerator The reaction was supported on an inactive carrier. 3. Treatment according to claim 1 or 2, which performed the oxidation reaction by contact with the catalyst. Mixed gas consisting of 1-15% by volume of acryline, 0.5-25% by volume of oxygen, 0-30% by volume of water vapor and 20-80% by volume of inert gas at 180- 350 ํ at normal pressure up to 10 atmospheres at the space velocity (STP) of 500-20,000 hr-1 4. Process according to claim 1 or 2, which is performed by contact oxidation with a catalyst. Mixed gas consisting of 4-12% by volume of acro-lein, 2-20% by volume of oxygen, 3-25% by volume of water vapor and 50-70% by volume of inert gas at 200- 330 ํ at normal pressure pressure up to 10 atmospheres at the space velocity (STP) is 1,000-10,000 hr-1 5. The process of claim 1, in which the catalyst When taken to do X-rays Differential Tomitri The ratio of peak intensity at d = 1.38 ํ A to peak intensity at d = 4.00 ํ A was less than 0.07 6. Process according to claim 1, in which the catalyst maintained peak intensity. At least 80% when peak intensity retention is specified as a percentage of peak intensity at d = 4.00 ํ A of catalysts applied after 4,000 hours of processing per peak intensity at d = 4.00 ํ A. Of unused catalysts when introducing catalysts Both came to do X-rays. Diffractomitri 7. The procedure according to claim 1, where d in Cud is 0.01 to 6 and e in Xe is 0.01 to 5, however, it is conditional that Sb and Sn halides are not used in the preparation of Catalyst Except when using In order to prepare this catalyst, 8. Procedure according to claim 5, where d in Cud is 0.01 to 6 and e in Xe is 0.01 to 5, however. Sb and Sn halides were not used in the preparation of the catalyst. Except when using Reagents to form complexes V-Sb and V-Sn to prepare for this catalyst 9. Process according to claim 1, where d in Cud is 0.01 to 6 and e in Xe is 0.01 to 5 and g in Zg is 0. , However, it is conditional that Sb and Sn halides are not used in the preparation of the catalyst except when this substance is used for the formation of V-Sb and V-sn complexes for the preparation of this catalyst. Holding the right 5, where d in Cud is 0.01 to 6 and e in Xe is 0.01 to 5 and g in Zg is 0, however Sb and Sn halides are not used in the preparation of a catalyst except when using reagents. This is to create complexes V-Sb and V-sn to prepare for this catalyst 1. 1. Process for producing acrylic acid by adopting acrylonitrile or gas. Which is an oxidation gas phase with molecular oxygen or gas with oxygen that is The molecules in the presence of a molybdenum / vanadium oxide catalyst are represented by the following general formula (I): MoaVbWcCudXeYfZgOh (I), where Mo is molybdenum, V is vanadium, W. Is tanten, Cu is copper, X is at least one element chosen from antimony and tin, Y is the least. One element selected from magnesium, calcium, strontium and barium, Z is at least one element selected from titanium, zirconium and cerium, O is oxygen, a, b, c, d, e, f, g and h is the atomic number of Mo, V, W, Cu, X, Y, and Z, respectively, with the condition that when a is 12,2 (less than or equal to) b (less than or equal to) 14, O (less than or Equals) C (less than or equal to) 12, O (Less than or equal to) d (less than or equal to) 6, O (less than or equal to) e (less than or equal to) 5, O (less than or equal to) f (less than or equal to) 3 and O (less than Greater than or equal to) g (less than or equal to) 10; And h is the number determined by the oxidation number of each element other than O, which forms the process. Oxide catalyst with molybdenum / vanadium It is fundamental by using the following substances. As raw materials of vanadium, copper, antimony and tin: when the oxide catalyst contains Molybdenum / vanadium as a basis, neither antimony nor tin, ie when e = O, however, there is a condition that Sb and Sn halides are not used in the preparation of the catalyst, except when using this substance. In complexes V-Sb and V-Sn (A), the raw material of vanadium is ammonium methavanate, and the effective content of At least vanadium. A type of oxide which Vanadium's valence is greater than 0 but less than 5, and copper's raw material is copper nitrate, or (B) vanadium's raw material is ammonium methavanate, and copper is copper material. Nitrate and the effective quantity of at least one type of copper oxide, whose valence copper is greater than 0 but less than 2 or (C), the raw material of vanadium is ammonium methavanate and its Get the results of At least one type of vanadium oxide, of which vanadium's valence is more than 0 but less than 5, and the raw material of copper is copper nitrate, and the effective content of at least one copper oxide. Which copper valence is greater than 0 but less than 2, and when the catalyst Molybdenum / vanadium-based oxide reactions have antimony and / or tin, that is, when 0 is less than e, less than or equal to 5, (D). Vanadium raw material is ammonium methavanate and its yield. Result of At least vanadium. One type of oxide in which vanadium welenium is greater than 0 but less than 5, the raw material of copper is copper nitrate, and at least the raw material. (Maybe several) of antimony is the effective quantity of things. Least antimony One type of oxide in which antimony welens is greater than 0 but less than 5 or (E). Vanadium's raw material is ammonium. Metavanedate and effective dosage of At least vanadium. One oxide, in which vanadium's wavelength is greater than 0 but less than 5, the raw material of copper is copper nitrate, and at least the raw material (possibly several) of tin is the least effective amount, tin oxide. One of a kind which Tin's weles is greater than 0 but less than 4 or (F), the raw material of vanadium is ammonium. Metavanedate and effective dosage of At least vanadium. One oxide Where vanadium's valence is more than 0 but less than 5, the raw material of copper is copper nitrate, at least the antimony (possibly various) raw material is the effective quantity of the sample. Least antimony One oxide Which antimony's valence is more than 0, but less than 5, and at least part of the raw material (maybe several) of tin. Is the effective quantity of At least one type of tin oxide Where tin is greater than 0 but less than 4 or (G) vanadium raw material is ammonium methavanate, copper raw material is copper nitrate, and the effective content of at least copper. One type of oxide Which copper welenes are greater than 0 but less than 2 and at least part of the raw material (Possibly several) of antimony is the effective quantity of At least, antimony One oxide Where antimony's welenes are greater than 0 but less than 5 or (H) vanadium raw material is ammonium methavanate, copper raw material is copper nitrate, and the effective content of at least copper. One type of oxide Which copper welenes are greater than 0 but less than 2 and at least part of the raw material (Maybe several) of tin is the effective quantity of At least one type of tin oxide The welenses of tin are greater than 0 but less than 4, or (I) vanadium's raw material is ammonium methavanate, copper's raw material is copper nitrate, and at least one coperoxide. Copper wavelength greater than 0 but less than 2 at least part of the raw material. (Maybe several) of antimony is the effective quantity of things. Least antimony One oxide Which antimony's wavelength is greater than 0, but less than 5, and at least part of the raw material. (Maybe several) of tin is the effective quantity of things. Minimal tin One oxide The welenses of tin were greater than 0 but less than 4 or (J). Vanadium's raw material was ammonium methavanate and the effective quantity of At least vanadium. One oxide Where vanadium is greater than 0 but less than 5, the raw material of copper is copper nitrate, and the effective content of at least one type of copper oxide. Which copper welesies are greater than 0 but less than 2, and at least part of the raw material (Possibly several) of antimony is the effective quantity of At least, antimony One oxide The antimony's welenes are greater than 0 but less than 5 or (K). Vanadium raw material is ammonium methavanate and the effective quantity of At least vanadium. One oxide Where the valence of vanadium is more than 0 but less than 5, the raw material of copper is copper nitrate, and the effective content of at least one type of copper oxide, of which copper is less than 0, but less. More than 2 and at least part of the raw material (Maybe several) of tin is the effective quantity of At the very least One oxide The welenses of tin were greater than 0 but less than 4 or (L) vanadium's raw material was ammonium methavanate and the effective quantity of At least vanadium. One oxide Where the valence of vanadium is more than 0 but less than 5, the raw material of copper is copper nitrate and the effective quantity of at least one type of copper oxide. The welens of copper is greater than 0 but less than 2, the effective quantity of at least part of the raw material. The antimony's wavelength is greater than 0 but less than 5, and the effective amount of at least the raw material. (Possibly several) of tin is, at least, one type of tin oxide, in which the weles of tin is greater than 0 but less than 4 or (M), vanadium raw material is ammonium methavanacate and its parts in the form Of the effective quantities of complexes and antimony compounds. Antimony's welesis greater than 0 but less than 5, and copper or copper nitrate raw material, or (N) vanadium, ammonium methavanacate, and part of it in the form of quantities. Get the effect of the complex with the tin compound The welensis of tin is greater than 0 but less than 4 and copper material is copper nitrate or (O). Vanadium raw material is ammonium methavanate and its parts. In the form of effective quantities of complex substances with (1) antimony compounds. Where antimony's welensis greater than 0 but less than 5 and (2) tin compounds, whose welensis of tin are greater than 0 but less than 4, and copper's raw material is copper nitrate 1. 2. Procedure according to claim 11, where d in Cud is 0.01 to 6 and e in Xe is 0.01 to 5. 3. The process according to claim 11, where d in Cud is 0.01 to 6 and e in Xe is 0.01 to 5 and g in Zg is 0.