Preparation method of hydrorefining catalyst

A technology for hydrorefining and catalysts, applied in chemical instruments and methods, physical/chemical process catalysts, metal/metal oxide/metal hydroxide catalysts, etc. Pore ​​distribution and dispersion, etc., to achieve the effect of improving ultra-deep hydrodesulfurization performance, improving interaction, and good coordination

Active Publication Date: 2018-10-12
CHINA PETROLEUM & CHEM CORP +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0010] The bulk phase hydrogenation catalyst disclosed by CN102049265A adds ammonium bicarbonate during the coprecipitation process, and the bulk phase hydrogenation catalyst disclosed by CN102451703A adds carbon dioxide during the coprecipitation process to generate carbonate or bicarbonate. It releases a certain amount of gas during the roasting process. Under the impact of the gas, the pore volume and specific surface area of ​​the catalyst are increased, so that more metal active sites are exposed on the surface of the catalyst, but this method will cause some pores to collapse. , the pore distribution is dispersed, the mechanical strength is reduced, and the active metal is locally aggregated, and the exposed metal active sites are limited
The co-precipitation method adopted above will make the distribution of different hydrogenation active metals difficult to control, thereby affecting the distribution of different hydrogenation active metals and reducing the interaction between active metals. At the same time, the content of surface active metals in the catalyst is relatively low. Small and low active center density, which ultimately affects the ultra-deep hydrodesulfurization performance of the catalyst

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0044] Nickel chloride and aluminum chloride solutions were dissolved in purified water respectively, and mixed solution A was prepared. In mixed solution A, the weight concentration of NiO was 19 g / L, and Al 2 O 3 The weight concentration of 13g / L. Dissolve ammonium metatungstate, ammonium molybdate and aluminum chloride solutions in purified water respectively, and prepare mixed solution B. In mixed solution B, WO 3 The weight concentration of 39g / L, MoO 3 The weight concentration is 16g / L, Al 2 O 3The weight concentration of 13g / L. Benzylamine and ammonia water were added to solution A under stirring, the molar ratio of benzylamine to active metal Ni was 0.7, the gel formation temperature was kept at 60 °C, the pH value was controlled at 7.8 at the end, and the gel formation time was controlled at 60 minutes, resulting in Nickel, Aluminum Precipitate Slurry I. 1000mL of purified water was added to the reaction tank, and benzylamine, ammonia water and solution B were a...

Embodiment 2

[0046] According to the method of embodiment 1, according to the component content ratio of catalyst B in table 1, add nickel nitrate, aluminum nitrate, zirconium oxychloride solution in dissolving tank 1, prepare working solution A, add in dissolving tank 2 Aluminum nitrate, ammonium metatungstate, and ammonium molybdate make up working solution B. Ethanolamine and ammonia water were added to solution A under stirring, the molar ratio of ethanolamine to active metal Ni was 1.5, the gel formation temperature was kept at 50°C, the pH value was controlled at 8.0 at the end, and the gel formation time was controlled at 50 minutes to generate nickel, Aluminum Precipitate Slurry I. 600mL of purified water was added to the reaction tank, and ethanolamine, ammonia water, and solution B were added to the reaction tank in parallel. The molar ratio of ethanolamine and active metal W was 0.5. The value is controlled at 7.8, the gel formation time is controlled at 60 minutes, and the slu...

Embodiment 3

[0048] According to the method of embodiment 1, according to the component content ratio of catalyst C in table 1, add nickel chloride, aluminum chloride, phosphoric acid solution in dissolving tank 1, prepare working solution A, add chlorine in dissolving tank 2 Aluminium, ammonium metatungstate and ammonium molybdate make up working solution B. Benzylamine and ammonia water were added to solution A under stirring, the molar ratio of benzylamine to active metal Ni was 0.8, the gel formation temperature was kept at 45°C, the pH value was controlled at 7.6 at the end, and the gel formation time was controlled at 60 minutes, resulting in Nickel, Aluminum Precipitate Slurry I. 1000 mL of purified water was added to the reaction tank, ethanolamine and aqueous ammonia solution B were added to the reaction tank in parallel, the molar ratio of ethanolamine and active metal W was 0.8, the gel-forming temperature was maintained at 55°C, and the pH value during the co-current gel-formin...

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Abstract

The present invention discloses a hydrorefining catalyst preparation method. According to the method, a nickel aluminum precipitate is prepared through a positive adding method, a tungsten, molybdenum and aluminum precipitate is prepared through a parallel flow method, an organic amine is added during any one or two above gelatinization processes, the two precipitates are mixed, aging is performed, a hydrothermal treatment is performed while urea is added, and molding and the like are performed to prepare the catalyst. According to the present invention, the prepared catalyst is particularly suitable for super deep hydrodesulfurization and denitrification reaction of diesel oil distillates, and has high hydrodesulfurization and hydrodenitrogenation activity.

Description

technical field [0001] The present invention relates to a preparation method of a hydrotreating catalyst, in particular to a preparation method of a highly active bulk phase hydrotreating catalyst. Background technique [0002] Currently in the world, crude oil is becoming heavier and inferior, coupled with the continuous development of the world economy and the increasingly stringent environmental regulations, it is necessary to produce a large amount of light and clean fuels. The development and use of ultra-low sulfur or even sulfur-free gasoline and diesel is the trend of clean fuel development in the world today. Using traditional hydrodesulfurization catalysts, by increasing the reaction severity, such as increasing the reaction temperature, hydrogen partial pressure or reducing the reaction space velocity, deep desulfurization or even ultra-deep desulfurization of diesel can also be achieved. Variation and catalyst life are shortened, while reduced space velocity mea...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B01J23/888C10G45/08
Inventor 徐学军冯小萍王海涛刘东香
Owner CHINA PETROLEUM & CHEM CORP
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