A kind of α-alumina carrier and its preparation method and application
An alumina carrier and alumina technology, which is applied in catalyst carriers, chemical instruments and methods, metal/metal oxide/metal hydroxide catalysts, etc., can solve the problem of reducing the specific surface area of α-alumina carrier and sintering alumina particles. Reunion, etc.
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[0037] The preparation method of the α-alumina carrier involved in the second aspect of the present invention comprises the following steps:
[0038] Step A, mixing alumina trihydrate, alumina monohydrate, gallium-containing compounds and optional alkaline earth metal compounds and / or fluorides to obtain a solid mixture;
[0039] Step B, adding a binder and water to the solid mixture to obtain an α-alumina precursor mixture;
[0040] In step C, the α-alumina precursor mixture is kneaded, shaped, dried and calcined to obtain an α-alumina carrier.
[0041] In the method for preparing the α-alumina carrier of the present invention, the alumina trihydrate and alumina monohydrate are used as aluminum sources and converted into α-alumina after being calcined. The alumina trihydrate includes gibbsite and / or pyrenite, whose mass accounts for 20%-90% of the total mass of the solid mixture. The alumina monohydrate includes boehmite and / or diaspore, whose mass accounts for 5%-50% of th...
Embodiment 1
[0068] Weigh 480.0g of pyrenite, 120.0g of boehmite, 11.0g of ammonium fluoride, 3.0g of barium sulfate, and 1.5g of gallium hydroxide, put them into a mixer and mix evenly, transfer them to a kneader, and add Dilute nitric acid (nitric acid: water = 1:3, volume ratio) until it is kneaded into a paste that can be extruded. Put the paste into the extruder and extrude it into a seven-hole column. Dry for more than 24 hours to reduce the free water content to less than 10%, then put the dried seven-hole column into a natural gas kiln for roasting at a temperature of 1350°C, roast at a constant temperature for 25 hours, and finally cool to room temperature to obtain α- Alumina carrier. The relevant physical property data of the α-alumina carrier prepared in this example are shown in Table 1.
Embodiment 2
[0070] Weigh 480.0g of pyrenite, 120.0g of boehmite, 11.0g of ammonium fluoride, 3.0g of barium sulfate, and 15.0g of gallium hydroxide, put them into a mixer and mix evenly, transfer them to a kneader, and add Dilute nitric acid (nitric acid: water = 1:3, volume ratio) until it is kneaded into a paste that can be extruded. Put the paste into the extruder and extrude it into a seven-hole column. Dry for more than 24 hours to reduce the free water content to less than 10%, then put the dried seven-hole column into a natural gas kiln for roasting at a temperature of 1300°C, roast at a constant temperature for 25 hours, and finally cool to room temperature to obtain α- Alumina carrier. The relevant physical property data of the α-alumina carrier prepared in this example are shown in Table 1.
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