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Noble metal catalyst used in hydrocracking and isomerization of Fischer-Tropsch synthetic wax and preparation method thereof

A noble metal catalyst and Fischer-Tropsch synthetic wax technology, applied in chemical instruments and methods, metal/metal oxide/metal hydroxide catalysts, physical/chemical process catalysts, etc., can solve the problem of low oil selectivity and middle distillates in catalysts Poor selectivity, high heterogeneity and other problems, to achieve the effect of uniform radial distribution, good uniformity and high dispersion

Active Publication Date: 2012-05-30
WUHAN KAIDI ENG TECH RES INST CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, at present, hydrocracking catalysts containing zeolite are used in the processing of heavy crude oil. These catalysts have relatively strong cracking ability. When applied to the processing of wax, the selectivity of middle distillates (including jet fuel and diesel oil) is poor.
[0005] Chinese patent 01111439.8 discloses a catalyst for producing diesel from Fischer-Tropsch synthesis product wax and its preparation method. In addition to using Y zeolite components, the catalyst uses alumina or a silicon-aluminum mixture as a dispersant. It is characterized in that it uses cobalt oxide or oxide At the same time, Mo or W oxide is used as the active component. Although the catalyst has the characteristics of high activity and high isomerization performance, the selectivity of medium oil of the catalyst is low
Although the catalyst has high medium oil selectivity, its activity is low. To achieve 60% conversion rate, the reaction temperature is generally above 400°C

Method used

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Examples

Experimental program
Comparison scheme
Effect test

preparation example Construction

[0025] The preparation method of the Fischer-Tropsch synthetic wax hydrocracking and isomerization precious metal catalyst, the steps are as follows:

[0026] 1) Add the required weight of amorphous silica-alumina to alumina binder, and add 1-5wt% of amorphous silica-alumina pore-forming agent CMC and 1-3wt% extrusion aid nitrile powder, knead and roll After agglomeration, extrude on an extruder, dry and roast to obtain the carrier;

[0027] 2) The active components Pt and Pd noble metal elements are supported by a conventional impregnation method, and then vacuum-dried and calcined to obtain a catalyst.

[0028] The drying condition of the carrier involved in the step 1) is: drying at 60° C. for 2-3 hours, and then drying at 110° C. for 6-48 hours.

[0029] The catalyst drying conditions involved in the step 2) are: vacuum degree 0.09-0.10 MPa, drying at 60° C. for 1-3 hours, and then drying at 80° C. for 1-3 hours.

[0030] The involved carrier and catalyst calcination condi...

example 1

[0033] Example 1 Catalyst A prepared by the inventive method:

[0034] Take a specific surface area of ​​280m 2 / g, pore volume 0.76ml / g, SiO 2 Mix 190g of amorphous with a content of 40w%, 1.5g of nitrile powder and 1.5g of CMC evenly, add 170g of jelly-like adhesive with a pore volume of 0.40ml / g plus nitric acid peptization and knead into a group , into the extruder to extrude a clover shape with a maximum diameter of 1.2mm, then dried at 60°C for 2h, then dried at 110°C for 10h, and calcined at 500°C for 30h to obtain A catalyst carrier.

[0035] Take 30g of the obtained carrier and immerse it in 55ml aqueous solution containing palladium nitrate and tetraaminodinitroplatinum. The solution contains 0.09g palladium and 0.015g platinum. Immerse at room temperature for 24h. After immersion, filter the solution and dry it under vacuum. The degree of vacuum is 0.095MPa, drying at 60°C for 1h, drying at 80°C for 1.5h, and calcining at 500°C for 5h to prepare Catalyst A.

example 2

[0036] Example 2 is made into catalyst B:

[0037] Take 30 g of the carrier obtained in Example 1 and immerse it in 55 ml of an aqueous solution containing palladium nitrate and tetraaminodinitroplatinum. The solution contains 0.12 g of palladium and 0.12 g of platinum, and soak for 24 hours at room temperature. After soaking, filter the solution and dry it under vacuum. . The vacuum degree is 0.095MPa, dried at 60°C for 1h, then dried at 80°C for 1.5h, and calcined at 500°C for 5h to prepare Catalyst B.

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Abstract

The invention provides a noble metal catalyst used in hydrocracking and isomerization of Fischer-Tropsch synthetic wax and a preparation method thereof. The a catalyst carrier comprises the following components: 70 to 85 weight percent of amorphous silicon aluminum and 15 to 30 weight percent of alumina adhesive, wherein active components are selected from noble metal Pt and Pd elements (in a molar ratio of 0.1 to 0.6) and the noble metal active components account for 0.1 to 1 weight percent of the carrier; the specific surface area of the catalyst is 150 to 400m2 / g, while the pore volume is 0.3 to 1.4ml / g and the NH3-TPD total acidity is between 0.5 and 1.5mmol / g; and 4 to 15nm pore distribution accounts for 60 to 90 percent of total pore volume respectively. The preparation method comprises the following steps: (1) adding the alumina adhesive, 1 to 5 weight percent pore-forming agent CMC of the amorphous silicon aluminum and 1 to 3 weight percent extrusion-aid agent sesbania powder into the amorphous silicon aluminum of required weight, extruding the mixture on an extruder after mixed kneading and roller compaction, and drying and baking to obtain the carrier; and (2) loading active components Pt and Pd noble metal elements by a common dipping method and then carrying out vacuum drying to obtain the catalyst through calcination.

Description

technical field [0001] The invention relates to a precious metal catalyst for hydrocracking and isomerization of Fischer-Tropsch synthesis wax and a preparation method thereof, more specifically to an amorphous silicon-aluminum precious metal catalyst for producing middle distillate oil and a preparation method thereof. The invention belongs to the technical field of cracking and isomerization of heavy distillate oil and wax synthesized by Fischer-Tropsch. Background technique [0002] In recent years, with the shrinking of the world's oil resources and the rise of crude oil prices, related research and technological progress in seeking oil alternative resources are in the ascendant. Synthesis gas (CO+H) is obtained by gasification of coal, natural gas or biomass 2 ), followed by conversion of syngas to hydrocarbons (CH) by Fischer-Tropsch synthesis, a process commonly referred to as XTL. The products of Fischer-Tropsch synthesis can be further processed to obtain high-qua...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B01J23/44B01J23/42B01J21/12B01J35/10C10G49/06
Inventor 李顺清许莉张金桥宋德臣刘倩倩
Owner WUHAN KAIDI ENG TECH RES INST CO LTD
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