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Nickel-copper-rare earth-aluminum oxide catalysis separation composite film and preparation method and application thereof

A technology of aluminum oxide and rare earth oxide, applied in chemical instruments and methods, hydrogen separation, semi-permeable membrane separation, etc., can solve the problems of limited industrial application and high price.

Inactive Publication Date: 2013-02-06
SHANGHAI INST OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0007] One of the purposes of the present invention is to solve the problem that in the above-mentioned catalysts for catalytic methane steam reforming to produce hydrogen, only palladium and palladium alloys are used for simultaneous catalysis and separation. To provide a nickel-copper-rare earth-aluminum oxide catalytic separation composite membrane

Method used

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  • Nickel-copper-rare earth-aluminum oxide catalysis separation composite film and preparation method and application thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0043] A method for preparing a nickel-copper-rare earth-aluminum oxide catalytic separation composite membrane, specifically comprising the following steps:

[0044] (1) Put the 90mm×60mm×250μm porous through-hole anodized aluminum oxide film into a 500mL beaker, add 420mL of pure water, clean it with ultrasonic waves for 30min, take out the porous through-hole anodized aluminum oxide film, and dry it in an oven at 100°C 0.5h, burn in a high-temperature furnace at 800°C for 5h, take out the porous through-hole anodic aluminum oxide film and cool to room temperature;

[0045] (2) Use transparent tape to paste the above-mentioned porous through-hole anodized aluminum film to be plated on the electrolytic nickel plate of 150mm×60mm×2mm, and paste the transparent tape on the reverse side of the electrolytic nickel plate, specifically as follows figure 1 As shown, that is, firstly, the above-mentioned porous through-hole anodized aluminum film to be plated is placed on one end of...

Embodiment 2

[0057] A method for preparing a nickel-copper-rare earth-aluminum oxide catalytic separation composite membrane, specifically comprising the following steps:

[0058] (1) Put a 90mm×60mm×250μm porous through-hole anodized aluminum oxide film into a 500mL beaker, add 420mL of pure water, clean it with ultrasonic waves for 5min, take out the porous through-hole anodized aluminum oxide film, and dry it in an oven at 50°C 5h, burn in a high-temperature furnace at 1100°C for 0.5h, take out the porous through-hole anodized aluminum film and cool it to room temperature;

[0059] (2) Paste the above-mentioned treated porous through-hole anodic aluminum oxide film to be plated on an electrolytic copper plate of 150 mm × 60 mm × 2 mm with double-sided adhesive tape, and stick a transparent tape on the reverse side of the electrolytic copper plate, specifically the same as in Example 1 ;

[0060] (3) Weigh 5.7631g of gadolinium oxide in a 100mL small beaker, add 30mL of concentrated nit...

Embodiment 3

[0072] A method for preparing a nickel-copper-rare earth-aluminum oxide catalytic separation composite membrane, specifically comprising the following steps:

[0073] (1) Put a 90mm×60mm×250μm porous through-hole anodized aluminum oxide film into a 500mL beaker, add 420mL of pure water, clean it with ultrasonic waves for 17min, take out the porous through-hole anodized aluminum oxide film, and dry it in an oven at 85°C 2h, burn in a high-temperature furnace at 900°C for 3h, take out the porous through-hole anodized aluminum film and cool it to room temperature;

[0074] (2), the above-mentioned treated porous through-hole anodic aluminum oxide film to be plated is pasted on a steel plate of 150mm * 60mm * 2mm with scotch tape, and the scotch tape is pasted on the back of the steel plate, specifically the same as in Example 1;

[0075](3) Weigh 0.5852g of praseodymium oxide into a 100mL small beaker, add 15mL of concentrated nitric acid under stirring, heat to dissolve it, and ...

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Abstract

The invention discloses a nickel-copper-rare earth-aluminum oxide catalysis separation composite film and a preparation method and the application thereof. The method includes adopting an electroplating method to plate a nickel-copper-rare earth film on the surface of a porous through hole anode alumina film. In the preparation process, the nickel-copper-rare earth film bonded to a cathode and plated on the face is compact in structure, and the thickness of the nickel-copper-rare earth film is 0.1-0.5mum. Finally, the nickel-copper-rare earth-aluminum oxide catalysis separation composite film with multiple nanometer holes on one face and the nickel-copper-rare earth film on the other face is formed. The nickel-copper-rare earth-aluminum oxide catalysis separation composite film is applied to reproduction of hydrogen by catalyzing methane and water vapor and separation of hydrogen in mixed gas. Finally, the methane catalysis and conversion rate is 100%, the hydrogen transmission rate is 7.52-8.02*10-6mol*m-2*s-1Pa-1, the separation coefficient of the hydrogen obtained in reproduction of hydrogen by catalyzing methane and water vapor is 996-1002, and the separation coefficient of the hydrogen in the mixed gas is 1000-1008.

Description

technical field [0001] The invention relates to a nickel alloy film formed on a non-metal surface, in particular to a nickel-copper-rare earth alloy film formed on the surface of a porous through-hole anodized aluminum film, that is, a nickel-copper-rare earth-dioxide Aluminum catalytic separation composite membrane, its preparation method and its application in hydrogen production by catalytic methane steam reforming and separation of hydrogen in mixed gas. Background technique [0002] The anodic aluminum oxide membrane has the characteristics of highly ordered pores and large specific surface area, and has broad application prospects in the fields of catalytic materials and separation. Catalytic membranes can be prepared on anodized aluminum membranes by dipping and sol-gel methods. [0003] For example: Ganley JC et al impregnated the porous anodized aluminum membrane in RuCl 3 and Ni(NO 3 ) 2 In the mixed solution, Ru-Ni-Al was prepared 2 o 3 The membrane catalyst...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B01D71/02B01D67/00B01D69/12C01B3/56
Inventor 刘小珍陈捷
Owner SHANGHAI INST OF TECH
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