Heterogeneous Cu-Mn-Ce Fenton-like catalyst, and preparation method and use thereof

A cu-mn-ce, heterogeneous technology, applied in the field of heterogeneous Cu-Mn-Ce Fenton catalyst and its preparation, can solve the problems of uneven dispersion of active components, small contact surface, limited catalytic activity, etc. , to achieve the effect of wide application range of pH, uniform and orderly pores, and simple production process

Active Publication Date: 2015-07-08
TONGJI UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Among them, the researchers found that bimetallic mixed oxide catalysts, such as MO·Fe 2 o 3 (M:Fe,Co,Cu,Mn), generally has higher catalytic activity than Fe2O3 catalysts, and CuO·Fe 2 o 3 and CoO·Fe 2 o 3 It also has a wider pH tolerance range (Applied Catalysis B: Environmental2006, 66, (3-4), 258-264.), but this type of metal oxide catalyst is not dispersed and cannot reach the nanometer scale, and the contact surface is small , which limits its catalytic activity
There are also some researchers who disperse the active component Cu on ZSM-5 molecular sieves (Journal of hazardous materials 2007, 144, (3), 663-667), but the pores of ZSM-5 molecular sieves are microporous, which is difficult to apply to macromolecular substances.
Some researchers have selected some mesoporous supports for dispersion, and the heterogeneous catalysts prepared by them have also shown higher catalytic activity than undispersed catalysts, but the active components of this type of catalysts have no dispersant It is prone to agglomeration, which affects its catalytic activity (catalysis communications2006, 7, (7), 478-483)
According to the results of literature and patents, the existing heterogeneous Fenton catalysts for dye wastewater usually have low catalytic activity, uneven dispersion of active components, and easy agglomeration

Method used

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  • Heterogeneous Cu-Mn-Ce Fenton-like catalyst, and preparation method and use thereof
  • Heterogeneous Cu-Mn-Ce Fenton-like catalyst, and preparation method and use thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0028] (1) First, configure a mixed solution of 1mol / L copper nitrate, manganese nitrate and cerium nitrate (a mixed solution with copper nitrate, manganese nitrate and cerium nitrate concentration of 1mol / L each) for use;

[0029] (2) Next, repeatedly dip 1g of SBA-15 into 50mL of the above-mentioned mixed solution of copper nitrate, manganese nitrate and cerium nitrate (20g / L) and stir for 8h, then filter and dry;

[0030] (3) Next, place the sample obtained in step (2) in a muffle furnace and calcinate at 300°C for 6 hours to obtain a heterogeneous Cu-Mn-Ce-based Fenton catalyst. The TEM picture is as follows figure 1 shown. Depend on figure 1 It can be seen that the catalyst shows a wide range of ordered strip structures along the [110] direction, and the shaded part in the figure is the active metal oxide successfully supported on the mesoporous silica. Its structural parameters are shown in Table 1;

[0031] (4) Then, add 0.2 g / L heterogeneous Cu-Mn-Ce Fenton catalyst...

Embodiment 2

[0034] (1) First, configure a mixed solution of 0.1mol / L copper nitrate, manganese nitrate and cerium nitrate for use (a mixed solution with a concentration of 0.1mol / L each of copper nitrate, manganese nitrate and cerium nitrate);

[0035] (2) Next, repeatedly dip 0.5g of MCM-41 into the above 50mL mixed solution of copper nitrate, manganese nitrate and cerium nitrate (10g / L) and stir for 4h, then filter and dry;

[0036] (3) Next, place the sample obtained in step (2) in a muffle furnace and calcinate at 500°C for 6 hours to obtain a heterogeneous Cu-Mn-Ce-based Fenton catalyst;

[0037] (4) Then, add 0.1 g / L heterogeneous Cu-Mn-Ce Fenton catalyst and 0.2 mol / L hydrogen peroxide to the 2000 mg / L high-concentration acid red 1 solution, adjust the pH to 3, and heat the solution to 70 ℃, let the system react for 210min, the results are shown in Table 2.

Embodiment 3

[0039] (1) First, configure a mixed solution of 0.5mol / L copper nitrate, manganese nitrate and cerium nitrate (a mixed solution with copper nitrate, manganese nitrate and cerium nitrate concentrations of 0.5mol / L each) for use;

[0040] (2) Next, repeatedly dip 2g of MCM-41 into 50mL of a mixed solution of copper nitrate, manganese nitrate and cerium nitrate (40g / L) and stir for 6h, then filter and dry;

[0041] (3) Next, place the sample obtained in step (2) in a muffle furnace and calcinate at 400°C for 6 hours to obtain a heterogeneous Cu-Mn-Ce-based Fenton catalyst;

[0042] (4) Then, add 0.4 g / L heterogeneous Cu-Mn-Ce Fenton catalyst and 0.8 mol / L hydrogen peroxide to the 1500 mg / L high-concentration rhodamine B solution, adjust the pH to 5, and heat the solution to 80 ℃, let the system react for 210min, the results are shown in Table 2.

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Abstract

The invention provides a preparation method and a use of a high-performance heterogeneous Cu-Mn-Ce Fenton-like catalyst. The preparation method of the catalyst comprises the following steps: 1, preparing a copper nitrate, cerium nitrate and manganese nitrate mixed solution; 2, repeatedly dipping a highly ordered meso-porous silicon oxide material in the mixed solution obtained in step 1, filtering, washing, and drying; and 3, calcining a material prepared in step 2 in a muffle furnace to obtain the heterogeneous Cu-Mn-Ce Fenton-like catalyst. A Fenton-like reaction system formed by the catalyst and hydrogen peroxide can realize efficient catalytic degradation of high-concentration dye wastewater at a low temperature under normal pressure, and has the advantages of simple making technology, low cost, large specific surface area, narrow aperture distribution, high catalysis activity and wide pH application range.

Description

technical field [0001] The invention belongs to the field of catalyst preparation and application, and relates to a heterogeneous Cu-Mn-Ce Fenton catalyst, a preparation method and application thereof. Background technique [0002] Dye wastewater has caused serious environmental pollution and a great threat to human health. Although the traditional homogeneous Fenton catalyst has considerable catalytic activity for dye wastewater, its pH range is narrow. Therefore, it is of great engineering practical significance to prepare a heterogeneous catalyst with high efficiency and a wide pH range. In recent years, some heterogeneous catalysts for dye wastewater have also been reported. Among them, the researchers found that bimetallic mixed oxide catalysts, such as MO·Fe 2 o 3 (M:Fe,Co,Cu,Mn), generally has higher catalytic activity than Fe2O3 catalysts, and CuO·Fe 2 o 3 and CoO·Fe 2 o 3 It also has a wider pH tolerance range (Applied Catalysis B: Environmental2006, 66, (3-4...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B01J23/889C02F1/72C02F103/30
Inventor 范建伟姜序李丹丹闵弘扬
Owner TONGJI UNIV
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