Microbial restoration method for heavy metal polluted soil

A technology for microbial remediation and contaminated soil, applied in the field of microbial remediation of heavy metal contaminated soil, can solve the problems of large manpower consumption, financial resources, large soil disturbance, high price, etc., to reduce the use of chemical reagents, restore soil biological characteristics, and reduce environmental pollution Effect

Inactive Publication Date: 2018-05-15
INST OF SOIL FERTILIZER & WATER SAVING AGRI GANSU ACAD OF AGRI SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The above heavy metal repair techniques all have a certain effect on heavy metal repair, but they also have their own shortcomings in practical applications.
Phytoremediation technology has limited types of plants for remediation, and its repair speed is slow, and the retreatment of plants that accumulate a large amount of heavy metals is also the main factor that limits the large-scale promotion of phytoremediation technology; microbial remediation technology generally only adsorbs a single heavy metal. The effect is good, and because the microbial organisms are small, the amount of heavy metals repaired is also small, so this also limits the application of using microorganisms for large-scale on-site repair; the electrodynamic repair technology is still in the experimental research stage, and due to different soil Different physical and chemical properties also have a series of limiting factors i

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0049] A method for microbial remediation of heavy metal contaminated soil, comprising the steps of:

[0050] A. Land plowing

[0051] Dig the heavy metal-contaminated plot 30cm deep, and dig out the soil for later use;

[0052] B. Soil mix

[0053] Add microbial strains in the soil, and the microbial strains are rhizopus;

[0054] C. Cover the isolation layer

[0055] The deep pit is covered with asbestos fiber cloth to form an isolation layer;

[0056] D. Covering the absorbent layer

[0057] The asbestos fiber cloth of the isolation layer is covered with attapulgite powder to form an absorption layer;

[0058] E. Soil backfill

[0059] Backfill the mixed soil into the deep pit;

[0060] F. Watering and covering

[0061] Leave to stand for 5-7 days after watering;

[0062] G. Remove the mulched planting plants

[0063] Plant the plants after removing the mulch.

Embodiment 2

[0065] A method for microbial remediation of heavy metal-contaminated soil, comprising the steps of:

[0066] A. Land plowing

[0067] Dig the heavy metal-contaminated plot 30cm deep, and dig out the soil for later use;

[0068] B. Soil mix

[0069] Add microbial strains to the soil, including Escherichia coli and Penicillium punctatus;

[0070] C. Cover the isolation layer

[0071] The deep pit is covered with asbestos fiber cloth to form an isolation layer;

[0072] D. Covering the absorbent layer

[0073] The asbestos fiber cloth of the isolation layer is covered with attapulgite powder to form an absorption layer;

[0074] E. Soil backfill

[0075] Backfill the mixed soil into the deep pit;

[0076] F. Watering and covering

[0077] Leave to stand for 5-7 days after watering;

[0078] G. Remove the mulch planting plants

[0079] Plant the plants after removing the mulch.

[0080] In the step C, the asbestos fiber cloth of the isolation layer is covered with attapu...

Embodiment 3

[0082] A method for microbial remediation of heavy metal contaminated soil, comprising the steps of:

[0083] A. Land plowing

[0084] Dig the heavy metal-contaminated plot 30cm deep, and dig out the soil for later use;

[0085] B. Soil mix

[0086] Add microbial strains to the soil, including Rhizopus, Escherichia coli, Trichoderma, Penicillium punctatus, and Phyllostachys chrysogenum;

[0087] C. Cover the isolation layer

[0088] The deep pit is covered with asbestos fiber cloth to form an isolation layer;

[0089] D. Covering the absorbent layer

[0090] The asbestos fiber cloth of the isolation layer is covered with attapulgite powder to form an absorption layer;

[0091] E. Soil backfill

[0092] Backfill the mixed soil into the deep pit;

[0093] F. Watering and covering

[0094] Leave to stand for 5-7 days after watering;

[0095] G. Remove the mulch planting plants

[0096] Plant the plants after removing the mulch.

[0097] In the step C, the asbestos fibe...

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Abstract

The invention relates to the technical field of soil pollution treatment and especially provides a microbial restoration method for heavy metal polluted soil. In the method, the planting mode for plants for restoration of the heavy metal polluted soil is completely changed, wherein the plants for restoration are not pre-cultured in a greenhouse and can be directly planted into the heavy metal polluted soil; the method is free of requirement on concentration of heavy metal ions in the soil and greatly reduces planting difficulty. Heavy metal ions in the lower layer are effectively isolated by covering an asbestos fiber fabric to form an isolation layer; microorganisms are added to soil to reduce the content of metal ions in soil; the soil is watered and then is covered with a film to complex and settle the metal ions; finally, an absorption layer of attapulgite powder can absorb the metal ions for preventing secondary pollution.

Description

technical field [0001] The invention relates to the technical field of soil pollution control, in particular to a method for microbial remediation of heavy metal polluted soil. Background technique [0002] With the continuous development of the global economy, soil heavy metal pollution has become a major problem facing the global environmental quality. Human activities (mineral mining, metal smelting, domestic wastewater discharge, use of chemical fertilizers and pesticides, etc.) have greatly accelerated the production of heavy metals on the earth. The chemical cycle makes the heavy metals in the environment continuously increase, which increases the harm of heavy metals to human health. When heavy metals entering the environment exceed their capacity in the environment, heavy metal pollution can occur. Heavy metal pollutants are persistent pollutants, and the harm to the environment and human body is difficult to eliminate. Heavy metals have the characteristics of stro...

Claims

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Application Information

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IPC IPC(8): B09C1/10B09C1/08B09C1/00
CPCB09C1/08B09C1/10B09C1/105
Inventor 杨虎德冯丹妮李崇霄王卓冯海山张迎丰马彦
Owner INST OF SOIL FERTILIZER & WATER SAVING AGRI GANSU ACAD OF AGRI SCI
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