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Method for governing tibbas by utilizing modified sand

A sandy soil modification technology, applied in horticultural methods, soil protection, botanical equipment and methods, etc., can solve the problems of oil content decrease, needle penetration decrease, particles easy to move, etc.

Active Publication Date: 2013-10-16
易志坚 +1
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  • Summary
  • Abstract
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  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, emulsified asphalt also exists during use because the asphaltene and resin in the asphalt are easily destroyed by oxygen, light, heat, moisture and microorganisms in the atmosphere, and the oil content decreases.
The gradual intensification of this change will lead to the deterioration of asphalt performance, such as the increase of softening point, the decrease of penetration, and the decrease of elongation, so that the united layer gradually becomes brittle, hard, loses plasticity, ages, and eventually cracks and dies. Destroyed by wind erosion, losing sand-fixing effect
[0022] (3) Fundamental difficulties and existing problems in desertification control
However, the particles in the sand are discrete particles, and the fundamental difficulty in governance is that the particles in the sand are easy to move, difficult to retain water and store nutrients
Based on the current sand control measures, it is not difficult to find that the existing sand and desert control methods are far from fundamentally solving the two problems of easy movement of particles in sand and difficulty in water retention and storage of nutrients.
[0024] The existing sand control methods are the same as the desert control methods, mainly focusing on sand fixation. Regardless of the use of engineering (mechanical) measures, plant measures and chemical measures, they do not start from improving the properties of the sand itself, but only avoid the harm caused by the movement of sand. Therefore, from the point of view of its methods and methods, it is still passive sand control, which can overcome the problem of desertification to a certain extent or in a short period of time, but it is difficult to fundamentally solve the problem of sandy soil that is difficult to retain water and store nutrients. There is still a long way to go in "sand turning oasis"
[0025] ①Engineering (mechanical) measures can temporarily change the physical form (natural existence mode) of desert or sandy soil. Short-term taming cannot achieve the effect of "curing the root cause". After a long time, the sand will still return to its original appearance
[0030] Plant sand fixation uses the upper part of the plant to block and block sand, and uses the root of the plant to fix sand, which can change the microclimate and micro soil environment to a certain extent. However, the fundamental difficulty of plant sand fixation is that the sand itself is not conducive to plant growth, such as sandy soil is unstable and Frequent wind and sand movement, poor sandy soil, insufficient water and difficulty in water retention and temperature adjustment all have adverse effects on plants
[0031] Wind and sand movement can cause plants to be harmed by blowing erosion, sand burial, and sand cutting. Wind and sand movement can be solved by engineering protection measures and chemical sand fixation. However, the fundamental problem of insufficient water in the sand and difficulty in water retention limits the applicability of traditional plant sand fixation. greatly restricted

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0110] Embodiment one: comprise the following steps:

[0111] a. Prepare modified sandy soil:

[0112] a1. Polyvinyl alcohol is selected as the solid organic substance soluble in water;

[0113] Stir polyvinyl alcohol and water according to the weight ratio of 5:100 to form a solution;

[0114] a2. Get 1000kg of sandy soil, then take 200kg of solution formed by dissolving polyvinyl alcohol in water, add the solution to the sandy soil, then mix and stir evenly to form modified sandy soil; the weight ratio of polyvinyl alcohol in the modified sandy soil to sandy soil is 1:105.0;

[0115] b Spread the modified sand on the simulated sand surface with a certain area, the paving thickness is about 10cm, the water in the modified sand is well preserved, and the evaporation is small. Take part of the modified sand and take measures such as drying to make the surface After dehydration, the surface of the modified sand is compacted into a whole; then water is sprinkled on the surfac...

Embodiment 2

[0118] Embodiment two: comprise the following steps:

[0119] a. Prepare modified sandy soil:

[0120] a1. The solid organic substance that can dissolve in water is selected from hydroxypropyl methylcellulose;

[0121] Stir hydroxypropyl methylcellulose and water according to the weight ratio of 0.2:100 to form a solution;

[0122] a2. Take 1000kg of sandy soil, then take 190kg of hydroxypropyl methylcellulose solution, mix the sandy soil with the solution and stir evenly to form modified sandy soil, the weight ratio of hydroxypropyl methylcellulose and sandy soil in the modified sandy soil is 1:2637;

[0123] b Spread the modified sand on the simulated sand surface with a certain area, the paving thickness is about 5cm, the water in the modified sand is well preserved, and under the spring climate conditions in Chongqing, the evaporation is small, after the water in the modified sand evaporates When it encounters water again, the sand particles are bonded together again, ...

Embodiment 3

[0126] Embodiment three: comprise the following steps:

[0127] a. Prepare modified sandy soil:

[0128] a1. the solid organic matter that can dissolve in water is selected carboxymethyl cellulose sodium for use;

[0129] Stir carboxymethylcellulose sodium and water according to the weight ratio of 1:100 to form a solution;

[0130] a2. Get 1000kg of sandy soil, then get 210kg of sodium carboxymethyl cellulose solution, mix the sandy soil and sodium carboxymethyl cellulose solution and stir evenly to form modified sandy soil, and the material sodium carboxymethylcellulose in the modified sandy soil is mixed with The weight ratio of sand to soil is: 1:481.0;

[0131] b. Spread the modified sand on the simulated sand surface with a certain area, the paving thickness is about 15cm, the water in the modified sand is well preserved, the evaporation is small, and the appearance of the modified sand is similar to that of the soil. Drying and other measures, after the surface los...

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Abstract

The invention discloses a method for governing tibbas by utilizing modified sand. The modified sand is paved on the surface of a tibba to be governed, and is formed by dissolving a water-soluble solid organic matter in water to form a cohesive and adhesive solution, and mixing the cohesive and adhesive solution with sand; after moisture evaporates, the water-soluble solid organic matter can bond sand, and can be dissolved in water again after meeting water to form the cohesive and adhesive solution to bond sand. According to the invention, common sand can serve as soil; the interaction among sand grains is changed fundamentally; a particle pore structure with binding force (sticking force) is formed; after repeated evaporation and wetting, materials cannot run off easily due to the cohesive and adhesive properties, and the modified sand can be as stable as soil, and can store water and nutrients as soil. Therefore, the method provides a solid condition for tree growth, and is an ideal tibba governing measure.

Description

technical field [0001] The invention relates to the fields of utilization of sandy soil resources and control of land desertification, in particular to a modified sandy soil with soil properties. Background technique [0002] Sandy soil refers to soil with a lot of sand. The sandy soil is loose and has good water permeability and air permeability, but its ability to retain water and fertilizer is poor, so it needs to be improved during cultivation. Sandy soil is not suitable for the growth of certain plants. When the sand content is high, it is similar to the surface sand or sandy soil in deserts or desertified areas. In addition to natural existence, sandy soil is mostly formed by land desertification. [0003] (1) Desertification and its hazards [0004] Desertification is the most serious major environmental problem facing mankind today. [0005] The land area of ​​the world is 162 million square kilometers, accounting for 30.3% of the total earth area, of which about ...

Claims

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Application Information

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IPC IPC(8): A01G1/00A01G7/00E02D3/00
Inventor 易志坚赵朝华谷建义马银华周超
Owner 易志坚
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