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Method for repairing heavy metal contaminated soil in situ by adopting multifunctional biological charcoal

A technology of contaminated soil and in-situ remediation, which is applied in the restoration of contaminated soil, chemical instruments and methods, and other chemical processes, can solve the problems of reducing the mobility of heavy metals, and cannot solve heavy metals and pollution stably for a long time, and achieve a solution Fix long-term stability effects

Inactive Publication Date: 2015-01-28
WUHAN UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

For example lime is a kind of effective fixing agent, by improving soil pH value, reduces the solubility of heavy metals, effectively reduces the mobility of heavy metals (Zhang Xiaoxi, the impact of lime on cadmium form and mustard cadmium absorption on heavy metal polluted soil, 2003, 18 (3 ): 151~154), but for metal ions with good water solubility under alkaline conditions such as arsenic and chromium, the effect of reducing toxicity cannot be achieved
Organic matter such as sawdust, chaff, and poultry manure can bind heavy metal ions to a certain extent, limit the activity of heavy metals, and increase the fixation rate of heavy metals. However, with the decomposition of organic matter under the long-term action of the environment, the large amount of volatile organic carbon can effectively stimulate microorganisms. The active development of organic carbon accelerates the mineralization of organic carbon and releases CO2 (J.R. Quilty and S.R. Cattle, Use and understanding of organic amendments in Australian agriculture: a review, Soil Res.49: ppl -26, 2011)
Heavy metals will be released again, which cannot solve the problem of heavy metal pollution in a long-term and stable manner

Method used

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Examples

Experimental program
Comparison scheme
Effect test

example 1

[0029] A method for in-situ remediation of heavy metal-contaminated soil using multifunctional biochar. The method is to plow and mix the heavy metal polluted soil with a relative humidity of 60-90% and the multifunctional biochar, the depth of the plowing and mixing is 5-20cm, and aging for 20-25 days. Among them: the mass ratio of multifunctional biochar to heavy metal polluted soil is (0.5~2)︰100.

[0030] The heavy metal polluted soil refers to the content of Cr(VI)>200mg / kg in the polluted soil.

[0031] The preparation method of the multifunctional biochar described in this example: immerse the biomass in a KOH solution with a mass fraction of 1 to 5% for 20 to 30 hours, wash with water until neutral, and dry to obtain the treated biomass; then It is placed in a tube furnace for carbonization under mixed atmosphere conditions, the carbonization temperature is 650-750°C, and the carbonization time is 1-5 hours to prepare multifunctional biochar.

[0032] The multifuncti...

example 2

[0037] A method for in-situ remediation of heavy metal-contaminated soil using multifunctional biochar. The method is to plow and mix the heavy metal polluted soil with a relative humidity of 60-90% and the multifunctional biochar, the plowing and mixing depth is 5-20cm, and aging for 20-25 days. Among them: the mass ratio of multifunctional biochar to heavy metal polluted soil is (0.1~1.5)︰100.

[0038] The heavy metal polluted soil refers to the content of Pb(II)>300mg / kg in the polluted soil.

[0039] The preparation method of the multifunctional biochar described in this example: immerse the biomass in a NaOH solution with a mass fraction of 5-10% for 40-50 hours, wash with water until neutral, and dry to obtain the treated biomass; then It is placed in a tube furnace for carbonization under mixed atmosphere conditions, the carbonization temperature is 750-850°C, and the carbonization time is 5-10 hours to prepare multifunctional biochar.

[0040] The multifunctional bio...

example 3

[0045] A method for in-situ remediation of heavy metal-contaminated soil using multifunctional biochar. The method is to plow and mix the heavy metal polluted soil with a relative humidity of 60-90% and the multifunctional biochar, the depth of plowing and mixing is 5-15cm, and aging for 20-25 days. Among them: the mass ratio of multifunctional biochar to heavy metal polluted soil is (1~3)︰100.

[0046] The heavy metal polluted soil refers to the content of Cd(II)>10mg / kg in the polluted soil.

[0047] The preparation method of the multifunctional biochar described in this example: immerse the biomass in a KOH solution with a mass fraction of 10-15% for 30-40 hours, wash with water until neutral, and dry to obtain the treated biomass; then It is placed in a tube furnace for carbonization under mixed atmosphere conditions, the carbonization temperature is 300-500°C, and the carbonization time is 10-20 hours to prepare multifunctional biochar.

[0048] The multifunctional bioc...

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Abstract

The invention relates to a method for repairing heavy metal contaminated soil in situ by adopting multifunctional biological charcoal. According to the technical scheme, the multifunctional biological charcoal is prepared from biological waste such as straws and sawdust, the surface of the multifunctional biological charcoal is provided with multiple surface functional groups and rich enterable micropores, the heavy metal contaminated soil of which the relative humidity is 60-90% is turned over and mixed with the multifunctional biological charcoal of which the granularity is 0.074-0.178mm, the turnover mixing depth is 5-30cm, and the soil can be repaired after being aged for 20-30 days. The mass ratio of the multifunctional biological charcoal to the heavy metal contaminated soil is (0.1-5) to 100. The multifunctional biological charcoal serving as a soil additive in the in-situ repairing process can effectively fix heavy metals in the soil, improve the ecological environment, supplement organic charcoal, protect the soil health, reduce the toxicity of the contaminated soil and restore the productivity of the soil; and the method is also applicable to engineering repairing of water bodies and solid matrixes.

Description

technical field [0001] The invention belongs to the technical field of in-situ remediation of heavy metal polluted soil. Specifically, it relates to a method for in-situ remediation of heavy metal-contaminated soil by using multifunctional biochar. technical background [0002] Heavy metals mainly refer to elements with a specific gravity greater than 5, such as chromium, lead, cadmium, mercury, copper, arsenic and other metal elements with significant biological toxicity. With the rapid development of my country's industry, more and more unreasonable discharges of waste water and residues in industries such as electroplating, steel and dyes have formed a severe situation of heavy metal pollution in soil and water. Heavy metal ions are chemically stable and cannot be degraded by microorganisms, and can also be enriched in organisms through the food chain. [0003] There are a variety of substances in the human body, including protein, which is composed of a variety of amin...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B09C1/00B01J20/20B01J20/30
Inventor 童仕唐张越林珈羽
Owner WUHAN UNIV OF SCI & TECH
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