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A preparation method of multi-component organically modified bentonite embedding nanometer zero-valent iron

A nano-zero-valent iron, bentonite technology, applied in the fields of nanotechnology, nanotechnology, nanotechnology for materials and surface science, can solve the problem that modified nano-zero-valent iron particles are not necessarily applicable, and achieve environmental behavior and Improved form, simple process, enhanced synergistic effect

Active Publication Date: 2015-09-02
SHANGHAI ACADEMY OF ENVIRONMENTAL SCIENCES
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0009] However, some of the refractory organic pollutants concerned in the remediation of groundwater zero-valent iron are mainly dissociated in the heavy non-aqueous phase, which contains less water and is mainly the organic phase. The enhancement effect of the non-aqueous phase is not necessarily applicable, especially considering the complexity and diversity of the non-aqueous environment, the existing modification methods have certain limitations in the treatment of pollutants in the non-aqueous phase

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0028] Bentonite is purified before the preparation of the composite material, and the bentonite particles are added to deionized water. After stirring for 6 hours, centrifuge at a low speed of 600 rpm for 10 minutes to remove bentonite particles with a particle size greater than 2 microns; add 20 g of bentonite particles per liter of solution Add 0.1M FeCl 3 In the solution, mix for about 24 hours under the action of magnetic stirring, centrifuge and discard the supernatant; add 0.1M FeCl to the obtained bentonite particles in an amount of 20 g per liter of solution 3 The solution was stirred and mixed for about 24 hours and centrifuged, and the process was repeated once more to obtain Fe 3+ Saturate the particles, then add deionized water to wash; put iron ion-saturated bentonite into deoxygenated deionized water, adjust the pH of the solution to about 2 with 1M hydrochloric acid, and under the protection of nitrogen, add NaBH 4 Quickly add to the particle slurry, quickly c...

Embodiment 2

[0031] Bentonite is purified before the preparation of the composite material, and the bentonite particles are added to deionized water. After stirring for 8 hours, centrifuge at a low speed of 650 rpm for 10 minutes to remove bentonite particles with a particle size greater than 2 microns; add 30 g of bentonite particles per liter of solution Add 0.1M FeCl 3 In the solution, mix for about 24 hours under the action of magnetic stirring, centrifuge and discard the supernatant; add 0.1M FeCl to the obtained bentonite particles in an amount of 30g per liter of solution 3 The solution was stirred and mixed for about 24 hours and centrifuged, and the process was repeated once more to obtain Fe 3+ Saturate the particles, then add deionized water to wash; put iron ion-saturated bentonite into deoxygenated deionized water, adjust the pH of the solution to about 2.5 with 1M hydrochloric acid, and under the protection of nitrogen, add NaBH 4 Quickly add to the particle slurry, quickly ...

Embodiment 3

[0034] Bentonite is purified before the preparation of the composite material, and the bentonite particles are added to deionized water. After stirring for 10 hours, centrifuge at a low speed of 620 rpm for 10 minutes to remove bentonite particles with a particle size greater than 2 microns; add 50 g of bentonite particles per liter of solution. Add 0.1M FeCl 3 In the solution, mix for about 24 hours under the action of magnetic stirring, centrifuge and discard the supernatant; add 0.1M FeCl to the obtained bentonite particles in an amount of 50 g per liter of solution 3 The solution was stirred and mixed for about 24 hours and centrifuged, and the process was repeated once more to obtain Fe 3+ Saturate the particles, then add deionized water to wash; put iron ion-saturated bentonite into deoxygenated deionized water, adjust the pH of the solution to about 3 with hydrochloric acid, and under the protection of nitrogen, add NaBH 4 Quickly add to the particle slurry, quickly cl...

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Abstract

The invention discloses a method for preparing multi-component organically-modified bentonite-embedded nanoscale zero-valent iron. The method comprises the following steps that (1) bentonite is preprocessed; (2) 20-50 g / L of bentonite particles are added to 0.1 M of a FeCl3 solution, the bentonite particles and the solution are fully mixed and centrifuged, supernatant liquor is removed, and the process is repeated twice, so that Fe3+ saturated bentonite particles are obtained; (3) the Fe3+ saturated bentonite particles are added to deionized water, the pH is regulated to range from 2 to 3.5, NaBH4 is added to the mixture according to the molar ratio, 25-35:1, of the NaBH4 to Fe3+ under the protection of inert gas, the mixture reacts for 1-3 min at room temperature, and then bentonite-embedded zero-valent iron is obtained through high-speed centrifugation; (4) three organic cation modifying agents, namely HDTMA, TPMA and TMA are added to the deionized water mixed with the bentonite-embedded zero-valent iron, a replacement reaction is conducted for 15-30 min in an oxygen-free environment, and then the multi-component organically-modified bentonite-embedded nanoscale zero-valent iron is obtained through high-speed centrifugation. By means of the method, the clustering phenomenon of nanoscale iron in a complex heavy nonaqueous-phase environment can be relieved, and the surface hydrophobic performance is improved; through organic modification of the three components, adsorption of the bentonite and the reducing action of iron, the environmental behavior and the form of the nanoscale iron are improved, and the degradation efficiency of the nanoscale iron is improved finally.

Description

technical field [0001] The invention belongs to the technical field of groundwater environmental pollution restoration, and in particular relates to a preparation method of multi-component organically modified bentonite embedded with nanometer zero-valent iron. Background technique [0002] With the rapid development of the economy, the environmental pollution of groundwater in my country is becoming more and more serious. Among them, organic pollution in groundwater is a common and refractory pollutant. How to remove organic pollutants in groundwater economically and effectively has always been an issue of environmental pollution in groundwater. The goal pursued by the restorative world. [0003] Since the late 1980s, it was reported that zero-valent iron could in situ restore chlorinated organics in groundwater [R.W.Gillham, A.F.O'Hannesin. Ehanced degradation of halogenated alphatics by zero-valent iron. Ground Water, 1994,32:958-967 .], the use of zero-valent iron to tre...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B22F9/24B22F1/00C02F1/28C02F1/70B82Y30/00B82Y40/00C02F101/30
Inventor 喻恺杨洁张长波朱杰吉敏朱悦王旌高洁
Owner SHANGHAI ACADEMY OF ENVIRONMENTAL SCIENCES
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