CN110012811A - A kind of matrix granule and preparation method thereof for high altitude localities vegetation repair - Google Patents

Abstract

The matrix granule and preparation method thereof that the invention discloses a kind of for high altitude localities vegetation repair.The matrix granule includes component A, component B and component C；Preparation method are as follows: (1) by formula respectively component A and component B row is crushed and be granulated, the component A and component B particle that diameter is 2~3mm is prepared, it is spare；(2) component B particle is taken, continues to crush, then is divided into two parts, a copy of it is taken to be wrapped up with starch-grafted film, obtains component D；Another is wrapped up with polyester film, obtains component E, spare；(3) remaining component B, component C, component D and component E are mixed according to weight ratio, obtains component F.The present invention can effectively promote the long-acting ability of matrix granule, while enhance plant survival rate and growth result.

Description

A kind of matrix particle for vegetation restoration in high altitude area and preparation method thereof

technical field

The invention belongs to the technical field of vegetation restoration, and in particular relates to a matrix particle for vegetation restoration in high-altitude areas and a preparation method thereof.

Background technique

Due to the needs of social and economic development, the number of engineering construction projects in my country's high-altitude areas has been increasing in recent years, resulting in a large number of artificial bare land, which can easily lead to environmental problems such as ecological damage and soil erosion, and has become the focus of my country's ecological environment construction field.

The climatic conditions in high-altitude areas in my country are harsh, the water and heat conditions change drastically, and most of the artificial bare land lacks soil conditions, which brings great difficulties to the restoration of bare land vegetation. There are problems of poor vegetation restoration effect and high cost.

Therefore, inventing a matrix particle material for vegetation restoration in high altitude areas that can solve the above problems has become an urgent problem to be solved at present.

SUMMARY OF THE INVENTION

In view of the above deficiencies in the prior art, the present invention provides a matrix particle for vegetation restoration in high altitude areas and a preparation method thereof, which can effectively solve the problem of poor vegetation restoration effect of existing artificial matrix material particles in high altitude areas.

For realizing the above-mentioned purpose, the technical scheme that the present invention solves its technical problem adopts is:

A matrix particle for vegetation restoration in high-altitude areas, comprising component A, component B, and component C;

Component A includes the following components by weight: 10-15 parts of bentonite, 10-15 parts of nano-titanium dioxide, 10-15 parts of carbon black, and 10-15 parts of polyacrylamide;

Component B includes the following components by weight: 5-10 parts attapulgite, 15-20 parts peat, 20-30 parts superabsorbent resin, 10-15 parts ammonium dihydrogen phosphate, 10-15 parts potassium dihydrogen phosphate , 5-8 parts of kaempferol-7-O-glucoside, and 5-10 parts of polyacrylamide;

Component C includes the following components in parts by weight: 5-10 parts of bentonite, 10-15 parts of citric acid, 10-15 parts of sugar bagasse, 30-40 parts of microbial residue, 5-10 parts of calcium chloride, and 5 parts of ~10 parts glycerin.

Further, in component A, the diameter of bentonite is 0.01-0.02 mm; the diameter of nano titanium dioxide is 300-400 mm; the diameter of carbon black is 400-800 mm; and the diameter of polyacrylamide is 0.1-0.2 mm.

Further, the diameter of attapulgite in component B is 0.01-0.02 mm; the diameter of peat is 0.5-0.8 mm; the diameters of superabsorbent resin and polyacrylamide are both 0.1-0.3 mm; The diameter of potassium hydrogen is 0.1 to 0.5 mm.

Further, the diameter of bentonite in component C is 0.01-0.02 mm; the diameter of sugar bagasse is 1-2 mm.

Further, the microbial residue in component C is composed of a volume ratio of 1:1:1 after filtration of a Bacillus culture solution, a Trichoderma reesei culture solution and a yeast culture solution.

The preparation method of above-mentioned matrix particle, comprises the following steps:

(1) Component A and Component B are respectively pulverized and granulated according to the formula to prepare Component A and Component B granules with diameters of 2 to 3 mm, for subsequent use;

(2) Take 1/3～2/3 part of the granules of component B, continue to pulverize until the diameter is 0.2～0.3mm, then divide it into two parts, take one part and wrap it with a starch graft film to obtain a diameter of 0.2～0.3mm. Component D with a diameter of 3-4mm; the other part is wrapped with polyester film to form a component E with a diameter of 3-4mm, for use;

(3) Mix the remaining component B, component C, component D and component E in a weight ratio of 1-3:1-2:0.5-1:1-2 to obtain component F .

Further, in step (2), the surface of the polyester film is sprayed with a nano-mixture with a thickness of 30-60 nm.

Further, the nano-mixture includes nano-silicon dioxide and nano-titanium dioxide in a weight ratio of 1-3:7-9.

Further, the weight ratio of the remaining component B, component C, component D and component E in step (3) is 1:1:1:1.

The beneficial effects of the present invention are:

After application, the material that is not wrapped in film takes effect immediately, and the validity period is 3-6 months; the material wrapped with polyester film begins to degrade in the soil in 3-6 months, and the material begins to take effect; after coating The polyester film-wrapped material begins to degrade in the soil in 12-18 months, and the material begins to take effect. Guaranteed long-term effectiveness of functional materials.

Detailed ways

The specific embodiments of the present invention are described below to facilitate those skilled in the art to understand the present invention, but it should be clear that the present invention is not limited to the scope of the specific embodiments. For those skilled in the art, as long as various changes Such changes are obvious within the spirit and scope of the present invention as defined and determined by the appended claims, and all inventions and creations utilizing the inventive concept are within the scope of protection.

Example 1

A matrix particle for vegetation restoration in high-altitude areas, comprising component A, component B and component C;

A includes the following components by weight: 10 parts of bentonite, 10 parts of nano-titanium dioxide, 10 parts of carbon black, and 10 parts of polyacrylamide; wherein, the diameter of the bentonite is 0.01mm; the diameter of the nano-titanium dioxide is 300mm; the diameter of the carbon black is 400mm; the diameter of polyacrylamide is 0.1mm;

Component B includes the following components by weight: 5 parts of attapulgite, 15 parts of peat, 20 parts of superabsorbent resin, 10 parts of ammonium dihydrogen phosphate, 10 parts of potassium dihydrogen phosphate, 5 parts of kaempferol-7-O -Glucoside, and 5 parts of polyacrylamide; wherein, the diameter of attapulgite is 0.01mm; the diameter of peat is 0.5mm; the diameter of superabsorbent resin and polyacrylamide are both 0.1mm; The diameter of potassium hydrogen is 0.1mm;

Component C includes the following components by weight: 5 parts of bentonite, 10 parts of citric acid, 10 parts of sugar bagasse, 30 parts of microbial residue, 5 parts of calcium chloride, and 5 parts of glycerol; wherein, the diameter of the bentonite is 0.01 mm; the diameter of bagasse is 1mm;

The microbial residue is composed of a Bacillus culture solution, a Trichoderma reesei culture solution and a yeast culture solution in a volume ratio of 1:1:1 after filtration.

The preparation method of above-mentioned matrix particle, comprises the following steps:

(1) Component A and Component B are respectively pulverized and granulated according to the formula to prepare Component A and Component B granules with diameters of both 2-3 mm;

(2) Take 2/3 parts of component B particles, continue to pulverize to a diameter of 0.2mm, then divide it into two parts, take one part and wrap it with a starch grafted film with a thickness of 0.05mm to obtain a diameter of 0.05mm. 3mm of component D; the other is wrapped with a polyester film with a thickness of 0.02mm to form a component E with a diameter of 3mm, for use; wherein, the surface of the polyester film is sprayed with a nano-mixture with a thickness of 30nm; the nano-mixture includes Nano silicon dioxide and nano titanium dioxide in a weight ratio of 3:7;

(3) The remaining component B, component C, component D and component E are mixed according to the weight ratio of 1:1:1:1 to obtain component F.

During vegetation restoration, a mixture of component F and plant seeds with a thickness of 5 cm is spread on the surface of the slope to be restored, and then component A with a thickness of 0.5 cm is applied to the surface layer.

Example 2

A matrix particle for vegetation restoration in high-altitude areas, comprising component B and component C;

Component B includes the following components by weight: 10 parts of attapulgite, 20 parts of peat, 30 parts of superabsorbent resin, 15 parts of ammonium dihydrogen phosphate, 15 parts of potassium dihydrogen phosphate, 8 parts of kaempferol-7-O -Glucoside, and 10 parts of polyacrylamide; wherein, the diameter of attapulgite is 0.02mm; the diameter of peat is 00.8mm; the diameter of superabsorbent resin and polyacrylamide are both 0.3mm; ammonium dihydrogen phosphate and diphosphate The diameter of potassium hydrogen is 0.5mm;

Component C includes the following components by weight: 10 parts of bentonite, 15 parts of citric acid, 15 parts of sugar bagasse, 40 parts of microbial residue, 10 parts of calcium chloride, and 10 parts of glycerin; wherein, the diameter of the bentonite is 0.02 mm; the diameter of the bagasse is 2mm;

The microbial residue is composed of a Bacillus culture solution, a Trichoderma reesei culture solution and a yeast culture solution in a volume ratio of 1:1:1 after filtration.

The preparation method of above-mentioned matrix particle, comprises the following steps:

(1) pulverize and granulate component B according to the formula, and prepare component B particles with a diameter of 3 mm;

(2) Take 2/3 parts of component B particles, continue to pulverize to a diameter of 0.3mm, then divide it into two parts, take one part and wrap it with a starch grafted film with a thickness of 0.06mm to obtain a diameter of 0.06mm. 4mm of component D; the other is wrapped with a polyester film with a thickness of 0.03mm to form a component E with a diameter of 4mm, for use; wherein, the surface of the polyester film is sprayed with a nano-mixture with a thickness of 60nm; the nano-mixture includes Nano silicon dioxide and nano titanium dioxide in a weight ratio of 3:7;

(3) The remaining component B, component C, component D and component E are mixed according to the weight ratio of 1:1:1:1 to obtain component F.

During vegetation restoration, a mixture of component F and plant seeds with a thickness of 10 cm can be spread on the surface of the slope to be restored.

Example 3

A matrix particle for vegetation restoration in high-altitude areas, comprising component A, component B and component C;

A includes the following components by weight: 12 parts of bentonite, 14 parts of nano-titanium dioxide, 12 parts of carbon black, and 12 parts of polyacrylamide; wherein, the diameter of the bentonite is 0.01mm; the diameter of the nano-titanium dioxide is 340mm; the diameter of the carbon black is 600mm; the diameter of polyacrylamide is 0.1mm;

Component B includes the following components by weight: 8 parts of attapulgite, 18 parts of peat, 25 parts of superabsorbent resin, 10 parts of ammonium dihydrogen phosphate, 14 parts of potassium dihydrogen phosphate, and 8 parts of polyacrylamide; wherein, The diameter of attapulgite is 0.01mm; the diameter of peat is 0.6mm; the diameter of superabsorbent resin and polyacrylamide is 0.2mm; the diameter of ammonium dihydrogen phosphate and potassium dihydrogen phosphate is 0.4mm;

Component C includes the following components in parts by weight: 6 parts of bentonite, 10 parts of citric acid, 15 parts of sucrose bagasse, 35 parts of microbial residue, 8 parts of calcium chloride, and 6 parts of glycerol; wherein, the diameter of the bentonite is 0.01 ～0.02mm; the diameter of bagasse is 1～2mm;

The microbial residue is composed of a Bacillus culture solution, a Trichoderma reesei culture solution and a yeast culture solution in a volume ratio of 1:1:1 after filtration.

The preparation method of above-mentioned matrix particle, comprises the following steps:

(1) Component A and Component B are respectively pulverized and granulated according to the formula to prepare Component A and Component B granules with diameters of both 2-3 mm;

(2) Take 2/3 parts of component B particles, continue to pulverize to a diameter of 0.2mm, then divide it into two parts, take one part and wrap it with a starch grafted film with a thickness of 0.05mm to obtain a diameter of 0.05mm. Component D of 4mm; another part is wrapped with a polyester film with a thickness of 0.02mm to form a component E with a diameter of 4mm, for use; wherein, the surface of the polyester film is sprayed with a nano-mixture with a thickness of 30-60nm; The mixture includes nano-silicon dioxide and nano-titanium dioxide in a weight ratio of 3:7;

(3) The remaining component B, component C, component D and component E are mixed according to the weight ratio of 1:1:1:1 to obtain component F.

During vegetation restoration, a mixture of component F and plant seeds with a thickness of 10 cm is spread on the surface of the slope to be restored, and then component A with a thickness of 1 cm is applied to the surface layer.

Example 4

A matrix particle for vegetation restoration in high-altitude areas, comprising component A, component B and component C;

A includes the following components by weight: 15 parts of bentonite, 10 parts of nano-titanium dioxide, 10 parts of carbon black, and 15 parts of polyacrylamide; wherein, the diameter of the bentonite is 0.01mm; the diameter of the nano-titanium dioxide is 300mm; the diameter of the carbon black is 800mm; the diameter of polyacrylamide is 0.2mm;

Component B includes the following components by weight: 10 parts of attapulgite, 20 parts of peat, 30 parts of superabsorbent resin, 15 parts of ammonium dihydrogen phosphate, 15 parts of potassium dihydrogen phosphate, 8 parts of kaempferol-7-O - Glucoside, and 5 parts of polyacrylamide; wherein, the diameter of attapulgite is 0.02mm; the diameter of peat is 0.8mm; the diameter of superabsorbent resin and polyacrylamide are both 0.3mm; ammonium dihydrogen phosphate and diphosphate The diameter of potassium hydrogen is 0.5mm;

Component C includes the following components in parts by weight: 10 parts of bentonite, 15 parts of citric acid, 15 parts of sucrose bagasse, and 30 parts of microbial bacterial bagasse; wherein, the diameter of the bentonite is 0.02mm; the diameter of the bagasse is 2mm;

The microbial residue is composed of a Bacillus culture solution, a Trichoderma reesei culture solution and a yeast culture solution in a volume ratio of 1:1:1 after filtration.

The preparation method of above-mentioned matrix particle, comprises the following steps:

(1) Component A and Component B are respectively pulverized and granulated according to the formula to prepare Component A and Component B granules with a diameter of 3 mm;

(2) Take 2/3 parts of component B particles, continue to pulverize to a diameter of 0.3mm, then divide it into two parts, take one part and wrap it with a starch grafted film with a thickness of 0.06mm to obtain a diameter of 0.06mm. Component D with a thickness of 3 to 4 mm; another part is wrapped with a polyester film with a thickness of 0.03 mm to form a component E with a diameter of 4 mm, for use; wherein, the surface of the polyester film is sprayed with a nano-mixture with a thickness of 60 nm; The mixture includes nano-silicon dioxide and nano-titanium dioxide in a weight ratio of 3:7;

(3) The remaining component B, component C, component D and component E are mixed according to the weight ratio of 1:1:1:1 to obtain component F.

During vegetation restoration, a mixture of component F and plant seeds with a thickness of 10 cm is spread on the surface of the slope to be restored, and then component A with a thickness of 1 cm is applied to the surface layer.

Example 5

A matrix particle for vegetation restoration in high-altitude areas, comprising component B and component C;

Component B includes the following components by weight: 5 parts of attapulgite, 15 parts of peat, 30 parts of superabsorbent resin, 10 parts of ammonium dihydrogen phosphate, 10 parts of potassium dihydrogen phosphate, and 5 parts of polyacrylamide; wherein, The diameter of attapulgite is 0.01mm; the diameter of peat is 0.5mm; the diameter of superabsorbent resin and polyacrylamide is 0.1mm; the diameter of ammonium dihydrogen phosphate and potassium dihydrogen phosphate is 0.1mm;

Component C includes the following components in parts by weight: 10 parts of bentonite, 15 parts of citric acid, 15 parts of sucrose bagasse, and 30 parts of microbial bacterial bagasse; wherein, the diameter of the bentonite is 0.02mm; the diameter of the bagasse is 2mm;

The microbial residue is composed of a Bacillus culture solution, a Trichoderma reesei culture solution and a yeast culture solution in a volume ratio of 1:1:1 after filtration.

The preparation method of above-mentioned matrix particle, comprises the following steps:

(1) pulverize and granulate component B according to the formula, and prepare component B particles with a diameter of 2 mm;

(2) Take 2/3 parts of component B particles, continue to pulverize to a diameter of 0.3mm, then divide them into two parts, take one part and wrap it with a starch grafted film with a thickness of 0.05mm to obtain a diameter of 0.05mm. 4mm of component D; the other is wrapped with a polyester film with a thickness of 0.02mm to form a component E with a diameter of 4mm, for use; wherein, the surface of the polyester film is sprayed with a nano-mixture with a thickness of 60nm; the nano-mixture includes Nano silicon dioxide and nano titanium dioxide in a weight ratio of 3:7;

(3) The remaining component B, component C, component D and component E are mixed according to the weight ratio of 1:1:1:1 to obtain component F.

During vegetation restoration, a mixture of component F and plant seeds with a thickness of 10 cm can be spread on the surface of the slope to be restored.

Example 6

A matrix particle for vegetation restoration in high-altitude areas, comprising component A, component B and component C;

A includes the following components by weight: 10 parts of bentonite, 15 parts of nano-titanium dioxide, 15 parts of carbon black, and 10 parts of polyacrylamide; wherein, the diameter of the bentonite is 0.02mm; the diameter of the nano-titanium dioxide is 300mm; the diameter of the carbon black is 400mm; the diameter of polyacrylamide is 0.1mm;

Component B includes the following components by weight: 5 parts of attapulgite, 15 parts of peat, 20 parts of superabsorbent resin, 15 parts of ammonium dihydrogen phosphate, 15 parts of potassium dihydrogen phosphate, 8 parts of kaempferol-7-O -Glucoside, and 10 parts of polyacrylamide; wherein, the diameter of attapulgite is 0.01mm; the diameter of peat is 0.5mm; the diameter of superabsorbent resin and polyacrylamide are both 0.1mm; ammonium dihydrogen phosphate and diphosphate The diameter of potassium hydrogen is 0.1mm;

Component C includes the following components by weight: 10 parts of bentonite, 15 parts of citric acid, 15 parts of sugar bagasse, 30 parts of microbial residue, 10 parts of calcium chloride, and 5 parts of glycerol; wherein, the diameter of the bentonite is 0.01 mm; the diameter of bagasse is 1mm;

The microbial residue is composed of a Bacillus culture solution, a Trichoderma reesei culture solution and a yeast culture solution in a volume ratio of 1:1:1 after filtration.

The preparation method of above-mentioned matrix particle, comprises the following steps:

(1) Component A and Component B are respectively pulverized and granulated according to the formula to prepare Component A and Component B granules with a diameter of 2 mm;

(2) Component B and component C are mixed in a weight ratio of 1:1 to obtain component F.

During vegetation restoration, a mixture of component F and plant seeds with a thickness of 10 cm is spread on the surface of the slope to be restored, and then component A with a thickness of 1 cm is applied to the surface layer.

The matrix particles prepared in Examples 1 to 6 of the present invention are used as matrix materials, and the plant seeds are Rhododendron alpine. The slope repair detection is carried out on a simulated slope with an altitude of 3400 meters and a slope of 45°. The results are shown in Table 1. .

Table 1 Vegetation growth and development status

As can be seen from the data in Table 1, the vegetation growth condition cultivated by the substrate obtained in Example 1 is obviously better than that in Examples 2 to 6, indicating that the preparation method of the present invention can not only effectively improve the long-acting ability of the substrate, improve the cultivation effect of the substrate, and simultaneously It can also enhance plant survival and growth.

Claims (9)

1. a matrix particle for vegetation restoration in high altitude areas, is characterized in that, comprises component A, component B, and component C; The component A includes the following components by weight: 10-15 parts of bentonite, 10-15 parts of nano-titanium dioxide, 10-15 parts of carbon black, and 10-15 parts of polyacrylamide; The component B includes the following components in parts by weight: 5-10 parts attapulgite, 15-20 parts peat, 20-30 parts super absorbent resin, 10-15 parts ammonium dihydrogen phosphate, 10-15 parts diphosphoric acid Potassium hydrogen, 5-8 parts of kaempferol-7-O-glucoside, and 5-10 parts of polyacrylamide; The component C includes the following components in parts by weight: 5-10 parts of bentonite, 10-15 parts of citric acid, 10-15 parts of sucrose bagasse, 30-40 parts of microbial residue, 5-10 parts of calcium chloride, And 5 to 10 parts of glycerin. 2. The matrix particle for vegetation restoration in high-altitude areas according to claim 1, wherein the diameter of the bentonite in the component A is 0.01-0.02 mm; the diameter of the nano-titanium dioxide is 300-400 mm; the carbon black The diameter of the polyacrylamide is 400 ~ 800mm; the diameter of the polyacrylamide is 0.1 ~ 0.2mm. 3. The matrix particle for vegetation restoration in high-altitude areas according to claim 1, wherein the diameter of attapulgite in the component B is 0.01-0.02 mm; the diameter of peat is 0.5-0.8 mm; The diameters of the superabsorbent resin and the polyacrylamide are both 0.1-0.3 mm; the diameters of the ammonium dihydrogen phosphate and the potassium dihydrogen phosphate are 0.1-0.5 mm. 4 . The matrix particle for vegetation restoration in high altitude areas according to claim 1 , wherein the diameter of the bentonite in the component C is 0.01-0.02 mm; the diameter of the sugar bagasse is 1-2 mm. 5 . 5. the matrix particle that is used for vegetation restoration in high altitude area according to claim 1, is characterized in that, the microbial slag in described component C is cultivated by bacillus nutrient solution, Trichoderma reesei nutrient solution and yeast After the liquid is filtered, it is composed of a volume ratio of 1:1:1. 6. the preparation method of the matrix particle described in any one of claim 1～5, is characterized in that, comprises the following steps: (1) Component A and Component B are respectively pulverized and granulated according to the formula to prepare Component A and Component B granules with diameters of 2 to 3 mm, for subsequent use; (2) Take 1/3～2/3 part of the granules of component B, continue to pulverize until the diameter is 0.2～0.3mm, then divide it into two parts, take one part and wrap it with a starch graft film to obtain a diameter of 0.2～0.3mm. Component D with a diameter of 3 to 4 mm; the other is wrapped with polyester film to form a component E with a diameter of 3 to 4 mm, for use; (3) Mix the remaining component B, component C, component D and component E in a weight ratio of 1-3:1-2:0.5-1:1-2 to obtain component F . 7 . The preparation method according to claim 6 , wherein in the step (2), the surface of the polyester film is sprayed with a nano-mixture with a thickness of 30-60 nm. 8 . 8 . The preparation method according to claim 7 , wherein the nano-mixture comprises nano-silicon dioxide and nano-titanium dioxide in a weight ratio of 1-3:7-9. 9 . 9. preparation method according to claim 7 is characterized in that, the weight ratio of remaining component B, component C, component D and component E described in step (3) is 1:1:1: 1.