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Granular supported nano gold catalyst for closed CO2 laser device

A catalyst and supported technology, which is applied in the direction of lasers, laser components, metal/metal oxide/metal hydroxide catalysts, etc., can solve the problems of harsh preparation conditions, high service life cost of lasers, poor direction selectivity of physical manufacturing process, etc. problem, to achieve the effect of long-term output power, prolonging the effective service life, and stable output power

Active Publication Date: 2014-03-12
YANTAI UNIV +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Prolonged CO 2 The service life cost of the laser is high, the direction selectivity of the physical manufacturing process is poor, and the preparation conditions are harsh

Method used

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  • Granular supported nano gold catalyst for closed CO2 laser device
  • Granular supported nano gold catalyst for closed CO2 laser device
  • Granular supported nano gold catalyst for closed CO2 laser device

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0033] Weigh Al 2 o 3 1.94g of the original carrier was roasted at 650°C for 4h, and set aside; weighed 0.0712g La(NO 3 ) 3 ·6H 2 O, 0.0655g Fe(NO 3 ) 3 9H 2 O was dissolved in 2.8ml deionized water to form a Fe-La salt solution; the above-mentioned roasted Al 2 o 3  1.5h, then the resulting product was dried at 80°C for 8h, and calcined at 850°C for 4h to obtain FeLaO x / Al 2 o 3 (abbreviated as FLA) composite carrier.

[0034] Weigh HAuCl 4 ·H 2 O plus deionized water to prepare 7.14g Au / L solution, adjust the pH of the solution to 9~10 with KOH to obtain a gold precursor solution; impregnate the above-mentioned FLA composite carrier with equal volume of the gold precursor solution for 1.5h, soak the resulting product in ammonia water for 24h, and then remove the gold precursor solution for 24h. Wash with deionized water to remove chloride ions, then dry at 60°C for 12h, and then reduce with hydrogen at 300°C for 1h to prepare 1%Au / FLA catalyst.

[0035] The...

Embodiment 2

[0037] Adopt the Au / FLA catalyst prepared by specific embodiment 1, adopt simulated CO 2 The gas composition of the laser (1%CO, 0.5%O 2 , 60%CO 2 , 0.5% water vapor, the balance gas is an inert gas N 2 ), each time a freshly prepared catalyst was taken to test the catalytic ability of the catalyst for CO oxidation at different temperatures. The results are shown in Table 1. The Au / FLA catalyst showed relatively good catalytic activity, and the stability of the reaction catalyst at 120°C was relatively good within the investigated time period.

[0038] Table 1 Catalytic activity of 1%Au / FLA catalyst at different reaction temperatures in a simulated laser atmosphere (conversion rate R : CO mol (g Au ) -1 h -1 ) as a function of reaction time (h)

[0039]

Embodiment 3

[0041] Weigh 0.0610g La(NO 3 ) 3 ·6H 2 O, 0.0561g Fe(NO 3 ) 3 9H 2 O, 0.0210g zinc nitrate is dissolved in 2.8ml deionized water to form Zn-Fe-La salt solution, take the preparation procedure of embodiment 1, obtain ZnFeLaO x / Al 2 o 3 (ZFLA) vector. According to the steps in Example 1, only the reduction temperature was adjusted to 450° C. to obtain a 1% Au / ZFLA catalyst.

[0042] Using the evaluation conditions of Example 1, CO is completely converted into CO 2 The lowest full conversion temperature is -10°C.

[0043] Using the evaluation conditions of Example 2, the 1%Au / ZFLA catalyst also exhibits relatively good catalytic performance at different temperature ranges, and its stability is relatively good at 120°C. The experimental statistics are shown in Table 2.

[0044] Table 2 Catalytic activity of 1%Au / ZFLA catalyst at different reaction temperatures in a simulated laser atmosphere (R : CO mol (g Au ) -1 h -1 ) as a function of reaction time (h)

[004...

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Abstract

The invention relates to a granular composite-oxide-modified alumina-supported nano gold catalyst for a closed CO2 laser device. An isometric impregnation method is utilized to prepare a series of alumina-supported gold catalysts modified by different metal oxide compositions in different proportions. The CO2 laser device is utilized to simulate an atmosphere to evaluate the catalytic activity and stability of the catalyst. When a better catalyst is packaged in a gas storage tube of the radio-frequency-excited CO2 laser device, the experimental result indicates that the catalyst can stabilize the output power of the laser device for a long time, thereby prolonging the service life of the closed CO2 laser device.

Description

technical field [0001] The present invention relates to a closed CO 2 Granular supported nano-gold catalysts for lasers. Background technique [0002] Pneumatic CO since 1966 2 Since the birth of the laser, the laser technology of various countries in the world has made great progress. CO 2 Laser is currently the most researched type of gas laser, which is widely used in communication, material processing, medical treatment, military and other fields. It is famous for its high output power and high work efficiency, accounting for almost 45% of the global laser market. [0003] CO 2 In the laser, the main working substances are composed of three gases: CO?, nitrogen, and helium. Among them, CO? is the gas that produces laser radiation, and nitrogen and helium are auxiliary gases. The main components of the machine include a laser tube, an optical resonator, a power supply, and a pump. The laser tube is the most critical part of the laser, and usually consists of three ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B01J23/89H01S3/036
CPCH01S3/036H01S3/2232B01J23/52B01J23/894B01J35/23
Inventor 翁占斌祁彩霞李守生苏惠娟宋文杰管仁贵孙立波孙逊郑玉华林会安立敦
Owner YANTAI UNIV