Ruthenium-based ammonia synthesis catalyst and preparation method of same
An ammonia synthesis and catalyst technology, applied in the field of ammonia synthesis, can solve the problems of low catalytic activity, poor hydration resistance, small specific surface area, etc., and achieve the effects of large specific surface area, preventing hydrogen inhibition, and improving low temperature and low pressure activity.
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Embodiment 1
[0029] The preparation method of the ruthenium-based ammonia synthesis catalyst provided by the present embodiment comprises the following steps:
[0030] (1) Dissolve 20g of urea in 100g of water to form a nitrogen-containing solution, load the nitrogen-containing solution on magnesium-aluminum hydrotalcite with a magnesium-aluminum molar ratio of 0.6, heat and dry at 100°C, and Roasting in a nitrogen atmosphere at 190°C for 2 hours to obtain nitrogen-doped magnesium aluminum hydrotalcite, the doping amount of nitrogen element by mass is 5.5% of the mass of magnesium aluminum hydrotalcite;
[0031] (2) The above-mentioned nitrogen-doped magnesium aluminum hydrotalcite was heated to 630°C at a rate of 15°C / min and kept roasted for 1h, and then heated to 700°C at a rate of 3°C / min and kept roasted for 0.75h, and the roasted product It is the catalyst carrier, which contains 30v% spinel phase;
[0032] (3) Heating potassium fluorotantalate and sulfuric acid to above 400°C, and ...
Embodiment 2
[0036] The preparation method of the ruthenium-based ammonia synthesis catalyst provided by the present embodiment comprises the following steps:
[0037] (1) Dissolve 15ml of ammonia water in 90ml of water to form a nitrogen-containing solution, and load the nitrogen-containing solution on magnesium-aluminum hydrotalcite with a magnesium-aluminum molar ratio of 1.7 by an equal-volume impregnation method, heat and dry at 80°C, and Roasting in an ammonia atmosphere at 200°C for 0.5h to obtain nitrogen-doped magnesium aluminum hydrotalcite, the doping amount of nitrogen element by mass is 8% of the mass of magnesium aluminum hydrotalcite;
[0038] (2) The above-mentioned nitrogen-doped magnesium aluminum hydrotalcite was heated to 600°C at a rate of 10°C / min and kept roasted for 3h, and then heated to 710°C at a rate of 5°C / min and kept roasted for 0.5h, and the roasted product It is the catalyst carrier, which contains 45v% spinel phase, and the pore radius distribution is in t...
Embodiment 3
[0043] The preparation method of the ruthenium-based ammonia synthesis catalyst provided by the present embodiment comprises the following steps:
[0044] (1) 12ml of hydrazine hydrate was dissolved in 100ml of water to form a nitrogenous solution, and the nitrogenous solution was loaded on magnesium-aluminum hydrotalcite with a magnesium-aluminum molar ratio of 2.5 by an equal-volume impregnation method, heated and dried at 90°C, and Roasting in an ammonia atmosphere at 200° C. for 1 h to obtain nitrogen-doped magnesium aluminum hydrotalcite, the doping amount of nitrogen element by mass is 10% of the mass of magnesium aluminum hydrotalcite;
[0045] (2) The above-mentioned nitrogen-doped magnesium aluminum hydrotalcite was heated to 650°C at a rate of 5°C / min and kept roasted for 2h, and then heated to 720°C at a rate of 1°C / min and kept roasted for 0.5h, and the roasted product It is the catalyst carrier, which contains 37v% spinel phase;
[0046] (3) Heating potassium fluor...
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