Spherical diatomite mesoporous composite and supported catalyst, preparation method thereof and application thereof, and ethyl acetate preparation method
A supported catalyst and composite material technology, which is applied in the preparation of organic compounds, organic compound/hydride/coordination complex catalysts, catalyst carriers, etc., can solve the problems of low conversion rate of reaction raw materials and achieve less side reactions, The effect of simple post-processing and high conversion rate of reaction raw materials
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[0048] In step (1), "providing a mesoporous molecular sieve material with a three-dimensional cubic pore structure" can be a product of directly weighing or selecting a mesoporous molecular sieve material with a three-dimensional cubic pore structure, or it can be the preparation of a mesoporous molecular sieve material with a three-dimensional cubic pore structure. Mesoporous molecular sieve materials. The preparation method of the mesoporous molecular sieve material with a three-dimensional cubic channel structure can be implemented according to a conventional method, for example, the preparation method can include: preparing a filter cake of a mesoporous molecular sieve material with a three-dimensional cubic channel structure according to the above method, and then The obtained filter cake is dried, and the templating agent in the product obtained after drying is removed. The conditions for removing the template agent may include: a temperature of 300-600° C. and a time of...
Embodiment 1
[0080] This example is used to illustrate the spherical diatomite mesoporous composite material and supported catalyst of the present invention and their preparation methods.
[0081] (1) Preparation of spherical diatomite mesoporous composites
[0082] Dissolve 6g (0.001mol) of triblock copolymer surfactant P123 in 10ml of hydrochloric acid with a pH value of 4 and 220ml of deionized aqueous solution, stir for 4 hours until P123 dissolves to form a transparent solution, and then add 6g (0.08mol) n-butanol and stirred for 1h, then placed in a water bath at 40°C, slowly added 12.9g (0.062) ethyl tetrasilicate to the solution dropwise, keeping the temperature at about 40°C and pH Stir for 24 hours under the condition of 4.5, then hydrothermally treat at 100°C for 24 hours, then filter and wash with deionized water for 4 times, and then suction filter to obtain filter cake A1 of mesoporous molecular sieve material with three-dimensional cubic pore structure.
[0083] The water g...
Embodiment 2
[0100] This example is used to illustrate the spherical diatomite mesoporous composite material and supported catalyst of the present invention and their preparation methods.
[0101] The spherical diatomite mesoporous composite material and the supported catalyst were prepared according to the method of Example 1. The difference was that there was no spray-drying step in the process of preparing the supported catalyst, but the benzenesulfonic acid was loaded on the surface only by impregnation. On the spherical diatomite mesoporous composite material, the supported catalyst Cat-2 was prepared.
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