Preparation method and application of super-hydrophobic foam iron

A foam iron and super-hydrophobic technology, applied in separation methods, chemical instruments and methods, liquid separation, etc., can solve problems such as endangering human health and cumbersome processes, and achieve low production costs, high separation efficiency, and good corrosion resistance. Effect

Active Publication Date: 2020-08-14
TAIYUAN UNIV OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, this method is cumbersome, uses substances that are harmful to human health and still requires high temperature treatment

Method used

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  • Preparation method and application of super-hydrophobic foam iron
  • Preparation method and application of super-hydrophobic foam iron
  • Preparation method and application of super-hydrophobic foam iron

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0050] (1) Configuration of the high-entropy alloy electrolytic bath: first mix 0.01 mol / L zinc chloride, 0.01 mol / L ferric sulfate heptahydrate, 0.01 mol / L cobalt sulfate, 0.01 mol / L nickel sulfate and 0.01 mol / L of manganese sulfate is mixed and dissolved to form a mixed solution; then the mixed solution is added to the glycerin solution to obtain an organic system electrolytic bath with glycerin as the electrolyzer;

[0051] (2) Preparation of high-entropy alloy thin film: the foam iron sample to be plated is used as the cathode, and the platinum sheet is used as the anode, placed in the electrolytic bath prepared in step (1), and prepared by -3V constant potential polarization electrodeposition High-entropy alloy thin film, electrodeposition time is 10min;

[0052] (3) Preparation of superhydrophobic high-entropy alloy film: the foam iron sample containing high-entropy alloy film coating prepared in step (2) was first cleaned with deionized water and dried, and the sample...

Embodiment 2

[0062] (1) Configuration of the high-entropy alloy electrolytic bath: first mix 0.015mol / L zinc sulfate, 0.017mol / L ferric sulfate heptahydrate, 0.014mol / L cobalt chloride, 0.015mol / L nickel sulfate and 0.016mol / L of manganese sulfate is mixed and dissolved to form a mixed solution; then the mixed solution is added to the glycerin solution to obtain an organic system electrolytic bath with glycerin as the electrolyzer;

[0063] (2) Preparation of high-entropy alloy thin film: the iron foam sample to be plated is used as the cathode, and the platinum sheet is used as the anode, placed in the electrolytic bath prepared in step (1), and prepared by -2V constant potential polarization electrodeposition High-entropy alloy thin film, electrodeposition time is 15min

[0064] (3) Preparation of superhydrophobic high-entropy alloy film: the foam iron sample containing high-entropy alloy film coating prepared in step (2) was first cleaned with deionized water and dried, and the sample ...

Embodiment 3

[0066] (1) Configuration of the high-entropy alloy electrolytic bath: first mix 0.051mol / L zinc sulfate, 0.051mol / L ferric sulfate heptahydrate, 0.045mol / L cobalt chloride, 0.052mol / L nickel sulfate and 0.050mol / L of manganese chloride is mixed and dissolved to form a mixed solution; then the mixed solution is added to the glycerin solution to obtain an organic system electrolytic bath using glycerin as the electrolyte

[0067] (2) Preparation of high-entropy alloy thin film: the iron foam sample to be plated is used as the cathode, and the platinum sheet is used as the anode, placed in the electrolytic bath prepared in step (1), and prepared by -6V constant potential polarization electrodeposition High-entropy alloy thin film, electrodeposition time is 10min;

[0068](3) Preparation of superhydrophobic high-entropy alloy film: the foam iron sample containing high-entropy alloy film coating prepared in step (2) was first cleaned with deionized water and dried, and the sample ...

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Abstract

The invention discloses a preparation method and application of super-hydrophobic foam iron. The preparation method comprises the following steps: firstly, electro-depositing a high-entropy alloy on super-hydrophilic foam iron, then carrying out super-hydrophobic surface treatment to obtain super-hydrophobic foam iron, and then applying the super-hydrophobic foam iron to a designed oil-water separation device to carry out oil-water separation. The method is simple in preparation process, low in production cost, green, efficient and suitable for large-scale industrial production. The prepared super-hydrophobic foam iron has the characteristics of self-cleaning, pollution prevention, long-term corrosion resistance, high oil-water separation efficiency and the like, the static contact angle of the super-hydrophobic foam iron is larger than 150 degrees, and the rolling angle of the super-hydrophobic foam iron is smaller than 10 degrees. The designed oil-water separation device can realizecontinuous oil-water separation and is suitable for oil-water separation of light oil and heavy oil, and has high separation efficiency in the separation process.

Description

technical field [0001] The invention relates to a preparation method and application of superhydrophobic iron foam, and belongs to the technical field of metal surface coating treatment. Background technique [0002] In recent years, the rapid development of the offshore oil industry and the frequent occurrence of oil spill accidents have aroused people's great concern and concern. The risk of oil spills highlights the need to develop simple and effective techniques to remove oil from spill sites. Large-scale oil spills, in addition to the direct threat to marine species and their ecosystems, this disaster and its resulting economic consequences may last for more than a decade. When an oil spill occurs, the oil seal boom is usually used to prevent the spread of oil spills and to carry out subsequent cleaning measures. Examples include oil skimmers, in situ combustion, oil absorbing materials, etc. However, most oil skimmers are inefficient at cleaning and recover mostly a...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B01D17/022
CPCB01D17/0202
Inventor 张猛张杰田光元赵晶晏泓郭睿劼
Owner TAIYUAN UNIV OF TECH
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