Novel organic sulfur hydrogenation catalyst carrier and preparation method thereof

A technology for hydrogenation catalysts and organic sulfur, which is applied in the direction of catalyst carriers, chemical instruments and methods, metal/metal oxide/metal hydroxide catalysts, etc., and can solve the problem of reducing active components, reducing catalytic performance of catalysts, and affecting the use of catalysts Life and other issues, to achieve the effect of high catalytic efficiency and strong catalytic performance

Active Publication Date: 2012-06-13
BEIJING SJ ENVIRONMENTAL PROTECTION & NEW MATERIAL CO LTD +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In the prior art, the Chinese patent document CN101797508A discloses a coke oven gas organic sulfur hydrogenation catalyst, which uses γ-Al2O3 as a carrier, and is impregnated The organic sulfur hydrogenation catalyst was prepared by loading the oxides of the active components iron, molybdenum and cobalt on the catalyst support; this technology uses γ-Al2O3 As a carrier, due to the large pore volume and loose structure of γ-Al2O3, γ-Al2O3 The strength and compression resistance of the carrier are low. Under actual working conditions, the catalyst is easily crushed due to pressure, which affects the service life of the catalyst. In order to maintain normal production, the catalyst needs to be replaced frequently, which increases the cost of production
[0004] In order to enhance the strength and compression resistance of the catalyst, Chinese patent CN101450327B discloses an alumina carrier that can be used for organosulfur hydrogenation catalysts. The carrier is passed through alumina ( or pseudo-boehmite) mixed with binders and pore-forming agents, and obtained through granulation, drying, tablet molding, and roasting, so that the combination of alumina (or pseudo-boehmite) and additives can improve The strength and compression resistance of the carrier are improved, and the strength and compression resistance of the hydrodesulfurization catalyst are correspondingly improved; However, the surface of alumina (or pseudoboehmite) has a large amount of impurities such as Cl ions and SO4 ions adsorbed on the surface of alumina (or pseudoboehmite), which occupy the The adsorption sites on the surface of pseudo-boehmite) reduce the adsorption amount of active components, thereby reducing the amount of active components loaded on the carrier, which reduces the catalytic performance of the catalyst, reduces the efficiency of catalytic hydrodesulfurization reaction, and reduces the production efficiency

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0037] Add the same mass of ammonia water to the pseudo-boehmite, soak for 2 hours, then fully mix the ammonia water and pseudo-boehmite, stir to form a slurry, and directly add the same mass of ammonia water to acetic acid solution to neutralize to pH=7.0- 7.5, take out the neutralized pseudo-boehmite, wash it with water, and press filter to obtain the neutralized material, the pore volume of the obtained neutralized material is 1.1cm 3 / g, the specific surface area is 400m 2 / g.

[0038] Add 100 kg of neutralizing material to 8 kg of water and knead it evenly, put it into the extruder, extrude the material into a Ф4×2-8mm strip molding, and then dry the molding at 100°C for 2 hours, 450 Roast at ℃ for 3 hours to obtain the carrier; prepare an active component solution containing 4wt% ammonium molybdate and 1wt% cobalt nitrate, put the cooled carrier into the solution and soak for 3 hours, the mass ratio of carrier to active component is 74:5 , taken out, dried at 100°C for...

Embodiment 2

[0040] Add 1.1 times the weight of pseudo-boehmite to the sodium hydroxide solution and soak it for 1 hour, then fully mix the lye and pseudo-boehmite, stir to form a slurry, and directly add hydrochloric acid with the same mass as the lye Neutralize the solution to pH = 7.0-7.5, take out the neutralized pseudo-boehmite, wash it with water, and press filter to obtain a neutralization material. The pore volume of the obtained neutralization material is 1.0cm 3 / g, the specific surface area is 380m 2 / g.

[0041] Mix 90 kg of neutralizing material and 10 kg of attapulgite evenly, add 4 kg of water and knead them evenly, then put them into the extruder, extrude the materials into Ф4×2-8mm strip moldings, and then put the moldings in Dry at 110°C for 2 hours and roast at 450°C for 5 hours to obtain the carrier; prepare an active component solution containing 5wt% nickel nitrate and 2wt% copper nitrate, put the cooled carrier into the solution and soak for 3 hours, the carrier and...

Embodiment 3

[0043] Add 1.1 times the weight of pseudo-boehmite to the sodium hydroxide solution and soak it for 1 hour, then fully mix the lye and pseudo-boehmite, stir to form a slurry, and directly add hydrochloric acid with the same mass as the lye Neutralize the solution to pH = 7.0-7.5, take out the neutralized pseudo-boehmite, wash it with water, and press filter to obtain a neutralization material. The pore volume of the obtained neutralization material is 1.0cm 3 / g, the specific surface area is 380m 2 / g.

[0044] Mix 98 kg of neutralizing material and 2 kg of attapulgite evenly, add 4 kg of water and knead evenly, then put it into the extruder, extrude the material into a Ф4×2-8mm strip molding, and then place the molding Dry at 110°C for 2 hours and roast at 450°C for 5 hours to obtain the carrier; prepare an active component solution containing 5wt% nickel nitrate and 2wt% copper nitrate, put the cooled carrier into the solution and soak for 2 hours, the carrier and active T...

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Abstract

The invention relates to a novel organic sulfur hydrogenation catalyst carrier. A preparation method of the carrier comprises steps that: a neutralization material, pseudoboehmite (gamma-alumina), an adhesive, a hole expansion agent and a metal additive are mixed; the mixture is subject to knead-molding, drying, and roasting, such that a finished product is obtained. The method is characterized in that the neutralization material is prepared through steps that: pseudoboehmite is soaked by using an alkaline solution, and is neutralized by using an acid solution; and the pseudoboehmite is subject to washing and press-filtrating, such that the neutralization material is obtained. Therefore, impurity content in the pores is greatly reduced, such that the loading of active components is promoted. A catalyst prepared by using the carrier is suitable to be used in hydrogenation catalyzing of organic sulfur in natural gas, coke oven gas, exhaust gas, and the like. Organic sulfur is converted into inorganic sulfides; and the sulfides are removed with the cooperation of an inorganic sulfur desulfurizing agent.

Description

technical field [0001] The invention relates to a catalyst carrier for organic sulfur hydrogenation, belonging to the field of desulfurizers. Background technique [0002] Gases such as coke oven gas, natural gas, petroleum-associated gas, and refinery waste gas contain a large amount of organic sulfur compounds, including carbonyl sulfide, sulfide, mercaptan, and thiophene. Harmful, and when these gases continue to be used in industrial production, organosulfur compounds will deactivate the catalyst used in industrial reactions, affect the catalytic performance of the catalyst, resulting in a decline in industrial yield, for example, when using coke oven gas to produce methanol , the general methanol synthesis catalyst requires the total sulfur content of coke oven gas to be less than 0.1ppm, and even more advanced methanol synthesis catalysts require the total sulfur content of coke oven gas to be less than 0.05ppm, otherwise the catalyst will Furnace gas will be deactiva...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B01J32/00B01J23/882B01J23/755B01J23/885B01J23/881C10K1/34B01D53/86B01D53/48
Inventor 李博赵素云谢红冯续马海福王宏斌张宗柏
Owner BEIJING SJ ENVIRONMENTAL PROTECTION & NEW MATERIAL CO LTD
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