Nickel selective hydrogenation catalyst and preparation method thereof

A hydrogenation catalyst and selective technology, applied in chemical instruments and methods, metal/metal oxide/metal hydroxide catalysts, heterogeneous catalyst chemical elements, etc., can solve the problem of reducing catalyst activity selectivity and poor catalyst stability And other issues

Active Publication Date: 2019-02-22
江苏华海三联净化材料有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Al 2 o 3 When used as a carrier, in the process of reducing nickel ions at high temperature, it is easy to cause the form...

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0021] 1. Preparation of nickel-doped lanthanum ferrite

[0022] Under stirring conditions, dissolve 2.51mol lanthanum nitrate in 120mL water, add citric acid and stir to dissolve; then add 4.79mol iron nitrate, then add 190g sodium polyacrylate, then add 42g nickel nitrate aqueous solution, continue stirring for 30min, after drying Drying, roasting and grinding to obtain nickel-doped lanthanum ferrite.

[0023] 2. Preparation of silica-alumina carrier

[0024] Add citric acid to 4.5 g of nickel-doped lanthanum ferrite for later use. Add 300g of pseudo-boehmite powder and 25.0g of fenugreek powder into a kneader, add nitric acid, then add 40.2g of sodium polyacrylate nitric acid solution, and mix well, then add nickel-doped lanthanum ferrite, mix well, and get Alumina precursor. Dissolve 5g of sodium polyacrylate in nitric acid, then add 38g of microsilica powder and 50g of pseudoboehmite powder, and stir evenly to obtain a mixture of microsilica powder-pseudoboehmite-sodium ...

Embodiment 2

[0028] The preparation of nickel-doped lanthanum ferrite is the same as in Example 1, except that 260g of sodium polyacrylate is added, and the preparation of the silica-alumina carrier is the same as in Example 1. The silica-alumina carrier contains 4.4wt% of silicon oxide, 5.7wt% % nickel-doped lanthanum ferrite, 1.6wt% potassium, carrier mesopores accounted for 64.2% of the total pores, and macropores accounted for 25.6% of the total pores. The unit content of sodium polyacrylate in the alumina precursor is 3 times higher than the content of sodium polyacrylate in the silicon source-organic polymer mixture. The preparation method of catalyst 2 is the same as that of Example 1. The content of catalyst 2 is 10.3wt% of nickel oxide, 5.28wt% of molybdenum oxide and 2.1wt% of potassium oxide.

Embodiment 3

[0030] The preparation of nickel-doped lanthanum ferrite is the same as in Example 1, except that 220g of polyacrylic acid is added, and the preparation of the silica-alumina carrier is the same as in Example 1. The silica-alumina carrier contains 8.4wt% of silicon oxide, 2.6wt% Nickel-doped lanthanum ferrite, 0.8wt% potassium, the carrier mesopores account for 54.6% of the total pores, and the macropores account for 33.5% of the total pores. The unit content of polyacrylic acid in the alumina precursor is 3.3 times higher than that in the silicon source-organic polymer mixture. The preparation method of catalyst 3 is the same as that of Example 1. The content of catalyst 3 is 21.1wt% of nickel oxide, 3.3wt% of molybdenum oxide and 0.30wt% of potassium oxide.

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PUM

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Abstract

The invention relates to a nickel selective hydrogenation catalyst. The catalyst is prepared from a silica-alumina carrier and metal active ingredients, including nickel, molybdenum and potassium, loaded on the carrier, and comprises the following components based on total weight of the catalyst: 9-25 weight percent of nickel oxide, 2.5-8 weight percent of molybdenum oxide, 0.02-2.5 weight percentof potassium oxide and 75-91 weight percent of silica-alumina carrier. The catalyst has strong colloid resistance, arsenic resistance, sulfur resistance and water resistance.

Description

technical field [0001] The invention relates to a catalyst for selective hydrogenation of unsaturated hydrocarbons and a preparation method thereof, in particular to a nickel-based selective hydrogenation catalyst for one-stage selective hydrogenation of pyrolysis gasoline. Background technique [0002] Pyrolysis gasoline is an important by-product of steam cracking industrial production of ethylene and propylene, including C5-C10 fractions. The composition of pyrolysis gasoline is very complex, mainly including benzene, toluene, xylene, mono-olefins, di-olefins, straight-chain alkanes, cycloalkanes, and organic compounds of nitrogen, sulfur, oxygen, chlorine and heavy metals, etc., a total of more than 200 components, of which Benzene, toluene, and xylene (collectively referred to as BTX) are about 50-90%, and unsaturated hydrocarbons are 25-30%. According to the characteristics of a large amount of aromatics in pyrolysis gasoline, it has a wide range of uses. It can be us...

Claims

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Application Information

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IPC IPC(8): B01J23/883C10G45/08
CPCB01J23/002B01J23/883B01J2523/00C10G45/08C10G2300/202B01J2523/847B01J2523/13B01J2523/68
Inventor 陈新忠施清彩庄旭森陈明海
Owner 江苏华海三联净化材料有限公司
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