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A kind of waste lubricating oil full hydrogenation type regenerated catalyst and its preparation method and application

A technology for regenerating catalysts and waste lubricating oils, applied in chemical instruments and methods, metal/metal oxides/metal hydroxide catalysts, physical/chemical process catalysts, etc. Problems such as hydrogenation regeneration, to achieve strong demetallization and anti-metal ability, improve the dispersion of active metals, and simplify the process flow

Inactive Publication Date: 2011-12-21
FUSHUN XINRUI CATALYST +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The purpose of the present invention is to provide a waste lubricating oil full hydrogenation regenerated catalyst and its preparation method and application to overcome the poor adaptability of the existing waste lubricating oil hydrogenation regenerated catalyst to heavy metals and the inability to hydrogenate the whole distillate of waste lubricating oil Regeneration and many other deficiencies

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0017] ①Preparation of catalyst carrier

[0018] According to the mass ratio of 1:0.015:0.026:0.045, weigh alumina dry rubber powder, ammonium bicarbonate, field greens powder and nitric acid (d=1.2) and mix them, then add deionized water and knead, and extrude to Φ1.6 ×(3~8)mm clover-shaped, placed at room temperature for 6 hours to air-dry, then dried at 110°C for 3 hours, and then calcined at 700°C for 2 hours to obtain an alumina carrier;

[0019] ② Preparation of co-immersion solution

[0020] Take the ammonium metatungstate solution with a mass concentration of 57%, add nickel carbonate and organic acid to the ammonium metatungstate solution at the ratio of 0.065g and 0.06g per 1ml of ammonium metatungstate solution, stir and dissolve to obtain a mixed solution , then according to the volume ratio of mixed solution: silicic acid solution=1:0.15, add silicic acid solution to the mixed solution to obtain W-Ni-Si co-immersion solution;

[0021] ③ Preparation of catalyst ...

Embodiment 2

[0024] ①Preparation of catalyst carrier

[0025] According to the mass ratio of 1: 0.022: 0.036: 0.05, weigh alumina dry rubber powder, ammonium bicarbonate, field greens powder and nitric acid (d=1.2) and mix, then add deionized water and knead, extrude to Φ1.6 ×(3-8)mm clover-shaped, placed at room temperature for 6 hours to air-dry, then dried at 120°C for 5 hours, and then calcined at 780°C for 2.5 hours to obtain an alumina carrier;

[0026] ② Preparation of co-immersion solution

[0027] Take the ammonium metatungstate solution with a mass concentration of 57%, add nickel carbonate and organic acid to the ammonium metatungstate solution at the ratio of 0.075g and 0.065g per 1ml of ammonium metatungstate solution, stir and dissolve to obtain a mixed solution , then according to the volume ratio of mixed solution: silicic acid solution=1:0.17, add silicic acid solution to the mixed solution to obtain W-Ni-Si co-immersion solution;

[0028] ③ Preparation of catalyst

[0...

Embodiment 3

[0031] ①Preparation of catalyst carrier

[0032] According to the mass ratio of 1: 0.03: 0.046: 0.055, weigh alumina dry rubber powder, ammonium bicarbonate, field greens powder and nitric acid (d=1.2) and mix, then add deionized water and knead, extrude to Φ1.6 ×(3~8)mm clover-shaped, placed at room temperature for 6 hours to air-dry, then dried at 130°C for 7 hours, and then calcined at 850°C for 3 hours to obtain an alumina carrier;

[0033] ② Preparation of co-immersion solution

[0034] Take the ammonium metatungstate solution with a mass concentration of 57%, add nickel carbonate and organic acid to the ammonium metatungstate solution at the ratio of 0.085g and 0.07g per 1ml of ammonium metatungstate solution, stir and dissolve to obtain a mixed solution , then according to the volume ratio of the mixed solution: silicic acid solution=1:0.2, add the silicic acid solution to the mixed solution to obtain the W-Ni-Si co-immersion solution;

[0035] ③ Preparation of cataly...

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Abstract

The invention discloses a waste lubricating oil full hydrogenation type regenerated catalyst as well as its preparation method and application. The catalyst is composed of a catalyst carrier and active components. The active components are WO3, NiO and additive Si, among which WO3 accounts for 28%-38% of the total weight of the catalyst, NiO accounts for 4%-8% of the total weight of the catalyst, and Si accounts for The total weight is 2%-3%, and the balance is alumina carrier; the specific surface area of ​​the catalyst is 230-265m2 / g, and the pore volume is 0.47-0.55ml / g. The catalyst of the present invention is aimed at the characteristics of waste lubricating oil, selects a specific ratio of W and Ni two-component metal combination as the active component, and is equipped with the additive component Si, through the selection and rational proportioning of each component to obtain higher Hydrogenation catalytic activity and selectivity. With ultra-high specific surface area, large pore size, weak acidity, it can hydrogenate the whole distillate of waste lubricating oil, has a strong ability to remove S, N, O and non-ideal components, and has a strong hydrogenation capacity Demetallization and antimetallization capabilities.

Description

1. Technical field [0001] The invention belongs to the technical field of catalysts, and in particular relates to a waste lubricating oil full-hydrogenation regenerated catalyst and its preparation method and application. 2. Background technology [0002] With the requirements of environmental protection and energy saving, automobiles and industrial machinery processing equipment need high-quality lubricating oil. In order to prepare high-grade lubricating oil products, high-quality lubricating oil base oil must be used. Before the 1990s, my country's lubricating oil production was completely based on the old three sets of processing technologies. Although the speed of refinery transformation has accelerated in recent years, my country's hydrogenation production of Group II and III base oils only accounts for about 20% of the total production capacity. However, the market demand for hydrotreated and isomerized dewaxed base oils has reached about 30%, which is far from meetin...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B01J23/888C10M175/00
Inventor 罗继刚史文权
Owner FUSHUN XINRUI CATALYST