CN112174753A - Full-nutrient functional fertilizer and preparation method thereof - Google Patents

Abstract

The invention relates to a full-nutrient functional fertilizer and a preparation method thereof, relating to the technical field of fertilizers, wherein the full-nutrient functional fertilizer comprises the following components in parts by weight: 650-700 parts of organic animal and plant wastes, 15-30 parts of beneficial compound microorganism strains, 250 parts of synergist 200-120 parts of rare earth powder. The method accords with ecological cycle economic development and harmonious ecological environmental protection safety, builds the growth environment of the big healthy soil and the big healthy crops, activates the soil nutrient structure, removes soil pollution toxins, fully supplies crop nutrient elements, controls the growth situation of the healthy crops, and improves the healthy environment from the source of life and production.

Description

Full-nutrient functional fertilizer and preparation method thereof

Technical Field

The invention relates to the technical field of fertilizers, in particular to a full-nutrient functional fertilizer and a preparation method thereof.

Background

Most of the current biological organic fertilizer, microbial fertilizer, organic fertilizer and organic-inorganic compound fertilizer are expressed in solid powder particle or liquid form, and are prepared by taking organic wastes such as crop straws, livestock and poultry manure and the like as carriers, inoculating one or more beneficial microbial strains, fermenting and degrading, and then mixing with a proper amount of nitrogen-phosphorus-potassium fertilizer or other medium and trace element fertilizers or granulating or canning leached fertilizer liquid. Although the fertilizer has many advantages compared with the traditional fertilizer, can reduce the using amount of the fertilizer, reduce the pollution and damage of the fertilizer to soil, improve the soil structure and improve the quality and value of agricultural products, but still has many disadvantages. If raw materials are not thoroughly deodorized and fermented, the odor is unpleasant, a lot of harmful gases are volatilized in the fermentation process, secondary pollution is caused to the environment, and in addition, the nutrient is low, the using amount is too large, the requirement of crops on comprehensive coordination of the nutrition cannot be met, so the function is limited, and the popularization and the use are difficult.

Disclosure of Invention

The invention aims to provide a reasonably designed full-value nutrient functional fertilizer and a preparation method thereof aiming at the defects and deficiencies of the prior art, the fertilizer conforms to ecological cycle economic development and harmonious ecological environmental protection safety, builds the growth environment of large healthy soil and large healthy crops, activates the soil nutrient structure, removes soil pollution toxins, comprehensively supplies crop nutrient elements, controls the growth situation of the healthy crops, and controls and improves the healthy environment from the life and production sources.

In order to achieve the purpose, the full-nutrient functional fertilizer disclosed by the invention comprises the following components in parts by weight: 650-700 parts of organic animal and plant wastes, 15-30 parts of beneficial compound microorganism strains, 250 parts of synergist 200-120 parts of rare earth powder.

Further, the full-nutrient functional fertilizer comprises the following components in parts by weight: 650 parts of waste of motor plants, 30 parts of beneficial compound microbial strains, 240 parts of synergist and 80 parts of rare earth powder.

Further, the full-nutrient functional fertilizer comprises the following components in parts by weight: 670 parts of motor plant waste, 20 parts of beneficial compound microorganism strains, 210 parts of a synergist and 100 parts of rare earth powder.

Further, the organic animal and plant waste consists of the following components in parts by weight: 450 parts of straw powder, 300 parts of livestock and poultry manure, 30-80 parts of domestic organic garbage, 200 parts of distiller's grains and 80-150 parts of rice chaff.

Further, the vinasse is replaced by sugar residues.

Further, the rice chaff is replaced by dead powder.

Further, the beneficial compound microorganism strains comprise rhodopseudomonas thiophosphaeria, rhodospirillum lutescens, azotobacter vinelandii, azotobacter chroococcum, azospirillum lipogenes, silicate bacteria, bacillus mucilaginosus, bacillus pumilus, (5406) actinomyces gracilis, actinobacillus luteus, bacillus sphaericus and arthrobacter ureafaciens; the weight ratio of the strains is 10: 8: 12: 6: 8: 6.

The preparation method of the full-nutrient functional fertilizer comprises the following operation steps:

drying and crushing collected organic waste dry materials such as straws, rice husks, fruit peels, dead cakes and the like to 120 meshes for later use, and pulping organic waste wet materials such as livestock and poultry manure, agricultural and sideline product processing waste residues and waste liquid (vinasse), domestic organic matter garbage and the like for later use;

step two, respectively carrying out second-generation culture on single strains forming beneficial compound microbial strains, then mixing the strains according to a proportion, and carrying out large-fusion propagation culture for later use;

step three, mixing the organic waste prepared in the step one in proportion, adding the composite microbial strains prepared in the step two in proportion, adjusting the moisture content to 60%, fully and uniformly stirring, and sending into a constant-temperature fermentation tank for glycolysis for 36-48 hours under the condition of keeping 55 ℃ to form an organic blank;

step four, feeding the fermented mature organic blank into a low-temperature baking oven for drying until the water content is less than or equal to 12% for later use;

and step five, mixing the dried organic blank with the synergist and the rare earth powder according to the ratio of 6-7: 2: 1. Then carrying out secondary grinding, refining and fusion to achieve the integral fineness of more than 60 meshes;

step six, performing biochemical inspection on the refined and fused materials;

and seventhly, canning the qualified products after refining and fusion, packaging the products into finished products, and warehousing or selling the finished products to guide users to scientifically apply the finished products.

After the components and the method are adopted, the beneficial effects of the invention are as follows: the invention provides a full-nutrient functional fertilizer and a preparation method thereof, which accord with ecological cycle economic development and harmonious ecological environmental protection safety, build large healthy soil and large healthy crop growth environment, activate soil nutrient structure, remove soil pollution toxin, fully supply crop nutrient elements, control healthy crop growth situation, and control and improve healthy environment from life and production sources.

The specific implementation mode is as follows:

the full-nutrient functional fertilizer in the specific embodiment comprises the following components in parts by weight: 670 parts of motor plant waste, 20 parts of beneficial compound microorganism strains, 210 parts of a synergist and 100 parts of rare earth powder; the organic animal and plant waste consists of the following components in parts by weight: 450 parts of straw (rice hull) powder, 300 parts of livestock and poultry manure, 30-80 parts of domestic organic garbage, 200 parts of distiller's grains and 80-150 parts of rice chaff; the beneficial compound microorganism strains comprise Rhodopseudomonas thiophosphaeria, Rhodospirillum lutescens, azotobacter vinelandii, azotobacter chroococcum, azotobacter lipolyticum, silicate bacteria, Bacillus mucilaginosus, Bacillus pumilus, (5406) Actinomyces tenebrio, Actinobacillus flavus, Bacillus sphaericus and Arthrobacter ureafaciens.

The single strains forming the beneficial compound microbial strains are all purchased from the market; the rare earth powder and the synergist are provided by the special item of the Hunan Hongtao health science and technology development Limited company.

The preparation method of the full-value nutrient functional fertilizer in the specific embodiment comprises the following operation steps:

drying and crushing collected organic waste dry materials such as straws, rice husks and rice chaffs to 120 meshes for later use, and pulping organic waste wet materials such as livestock and poultry manure, agricultural and sideline product processing waste residues and waste liquid (vinasse), domestic organic matter garbage and the like for later use;

step two, carrying out second-generation culture on single strains of rhodopseudomonas thiophilic, rhodospirillum lutescens, azotobacter vinasse (brown), azotobacter chroococcum, azotobacter lipogenes azotobacter, silicate bacteria, bacillus mucilaginosus, bacillus pumilus, (5406) actinomyces gracilis, actinobacillus flavus, bacillus sphaericus and arthrobacter ureafaciens respectively, mixing the single strains according to the weight ratio of 10: 8: 12: 6: 8: 6, and carrying out large-fusion propagation culture for later use;

step three, mixing the organic waste prepared in the step one in proportion, adding the composite microbial strains prepared in the step two in proportion, adjusting the moisture content to 60%, fully and uniformly stirring, and sending into a constant-temperature fermentation tank for glycolysis for 36-48 hours under the condition of keeping 55 ℃ to form an organic blank;

step four, feeding the fermented mature organic blank into a low-temperature baking oven for drying until the water content is less than or equal to 12% for later use;

and step five, mixing the dried organic blank with the synergist and the rare earth powder according to the ratio of 6-7: 2: 1. Then carrying out secondary grinding, refining and fusion to achieve the integral fineness of more than 60 meshes;

and step six, carrying out biochemical inspection on the refined and fused materials, wherein the qualified products meet the following indications: the total organic matter content is more than or equal to 25-65%; the content of the total humic acid is more than or equal to 5-40; the percentage of total amino acid is more than or equal to 5-10; the content of phytic acid is more than or equal to 5-10 percent; the percentage of fatty acid is more than or equal to 5-15; the total content of nitrogen, phosphorus and potassium is more than or equal to 25-45 percent; the nitrogen (calculated by N)% is more than or equal to 8-20; phosphorus (in P)₂O₅Calculated) is more than or equal to 2-12 percent; potassium (in K)₂Calculated by O) percent is more than or equal to 6-18; the number of beneficial microorganisms (cfu) is more than or equal to 0.2-5.0 hundred million/g (ml); the total amount of the saccharides mg/g (ml) is more than or equal to 0.8-3.0; the total content of silicon, calcium, magnesium, sulfur, boron, molybdenum, zinc, manganese, copper, nickel, lanthanum, scandium, vanadium, sodium, selenium, yttrium, germanium, iodine, cobalt and chlorine is more than or equal to 12-25; the pH value is 5.5-8.5; the water content is less than or equal to 12 percent; arsenic (AS) mg/kg is less than or equal to 0.0050; cadmium (Cd) mg/kg is less than or equal to 0.0010; chromium (Cr) mg/kg is less than or equal to 0.0500; mercury (Hg) mg/kg is less than or equal to 0.0005; lead (Pb) mg/kg is less than or equal to 0.0150; the number of faecal coliform bacteria is mpn/g (ml) is less than or equal to 100; the number of coliform groups (per gram or per ml) is less than or equal to 100; the death rate of the roundworm eggs is more than or equal to 95-100 percent; chloride ion (Cl)^-) The mass b percent is less than or equal to 3.0; the fineness or the granularity is less than or equal to 150um or more than or equal to 3-6 mm.

And seventhly, canning the qualified products after refining and fusion, packaging the products into finished products, and warehousing or selling the finished products to guide users to scientifically apply the finished products.

The fertilization method of the specific embodiment is as follows: the solid fertilizer is used as a base fertilizer, the dosage of the solid fertilizer is generally 40-60 kg per mu each time, the solid fertilizer can also be sprayed on the leaf surfaces after being soaked, the fertilizer is diluted by one kilogram of water every 1.5-2.0 kg, and then the solid fertilizer is sprayed on the leaf surfaces of the crops after being diluted by one kilogram of water, and takes effect in 2-3 days; the fertilizer effect period is about 45-50 days, the fertilizer is applied to rhizosphere of crops in a flushing mode, 20-40 kg of fertilizer is diluted with 800-1200 kg of water each time per mu, and then roots are irrigated (or 1200-2000 kg of water is added for drip irrigation); obvious effect can be seen in 5-7 days, and the fertilizer effect period is as long as about 160-180 days. The content quality technical indexes of the beneficial nutrient components of the fertilizer meet (but are not limited to) the following standards: the organic matter content is more than or equal to 20-65 percent; humic acid% (g/L) is more than or equal to 3-6 (30-60); the amino acid (g/L) is more than or equal to 3-10 (30-100); the phytic acid (g/L) is not less than 0.4-5 (4-50);the fatty acid (g/L) is more than or equal to 1-6 (10-30); the number of beneficial microorganism viable bacteria is more than or equal to 0.3-0.5 (0.6-1) per gram (ml); the total content of the vitamins is more than or equal to 0.5-1.5 percent; the total amount of polysaccharide is more than or equal to 0.8-3.0; the total amount of the alcohols is more than or equal to 0.5-1.0 percent; the total ketone content is more than or equal to 0.5-1.0; the total nitrile content is more than or equal to 0.6-2.0; the total amount of esters is more than or equal to 0.8-5.0; the total content of phthalides is more than or equal to 0.3-0.8; the total content of amines is more than or equal to 0.5-2.0; the total content of the nitrogen, phosphorus and potassium nutrients is more than or equal to 8.0-26.0; the total nitrogen (N)% > is more than or equal to 4-12; available phosphorus (P)₂O₅) The percentage is more than or equal to 2-8; effective potassium (K)₂O)% > is more than or equal to 3-12; the total content of the medium and trace elements is more than or equal to 6-25 percent; the content of calcium (calculated by elements) (CaO) is more than or equal to 3-9; silicon (calculated by element) (Si)% > is more than or equal to 50-150; magnesium (calculated by element) (Mg)% > is more than or equal to 1-12; sulfur (calculated by element) (S)% > is more than or equal to 0.5-4; chlorine (calculated by element) (Cl) is less than or equal to 2-15 percent; the (B) mg/kg of boron (calculated by elements) is more than or equal to 30-90; molybdenum (calculated by elements) (Mo) mg/kg is more than or equal to 0.5-10; the mg/kg of zinc (calculated by elements) (Zn) is more than or equal to 50-150; manganese (calculated by elements) (Mn) mg/kg is more than or equal to 3-15; iron (in elemental form) (Fe)₂O₃) The percentage is more than or equal to 0.6; copper (calculated by element) (Cd mg/kg is more than or equal to 6-20), nickel (calculated by element) (Ni) mg/kg is more than or equal to 3-15, scandium (calculated by element) (Sc) mg/kg is more than or equal to 4-15, sodium (calculated by element) (Na)₂O) mg/kg is more than or equal to 300-900; the cobalt (calculated by elements) (Co) mg/kg is more than or equal to 0.2-5; vanadium (calculated by elements) (V) mg/kg is more than or equal to 10-30; selenium (calculated by elements) (Se) mg/kg is more than or equal to 0.1-0.5; yttrium (calculated by element) (Y) mg/kg is more than or equal to 8-15; iodine (calculated by elements) (I) mg/kg is more than or equal to 0.5-7; germanium (calculated by element) (Ge) mg/kg is more than or equal to 0.5-7; the pH value is 5.5-8.5; arsenic (AS) mg/kg is less than or equal to 75; the mg/kg of cadmium (Cd) is less than or equal to 10; lead (Pb) mg/kg is less than or equal to 100; chromium (Cr) mg/kg is less than or equal to 150; mercury (Hg) mg/kg is less than or equal to 5.

After the components and the method are adopted, the beneficial effects of the specific embodiment are as follows:

1. the fertilizer is an optimal solution to the problems that the current agricultural ecological environment is seriously polluted, livestock and poultry manure and urban and rural domestic organic garbage cannot be completely and thoroughly beneficially converted and utilized, the beneficial utilization benefit of crop straws is not high and the like, and an optimal beneficial conversion and utilization mode is found for scientific utilization of all renewable organic wastes;

2. the fertilizer of the invention is applied without applying other fertilizers and pesticides, and the soil is loose, activated and fertile, the crops grow strongly, the quality of agricultural products is obviously improved, and the invention solves the bad problems of 'the melon is not sweet, the fruit is not fragrant, the vegetable is bland, the grain is toxic, the soil is lack of elements and the floor is hard to be knotted' in the past. Meanwhile, the pesticide residue can be removed, the soil toxin can be cleared, the antibody abundance of crops can be enhanced, and the nutrition of agricultural products can be enriched.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (8)

1. A full-nutrient functional fertilizer is characterized in that: the composition comprises the following components in parts by weight: 650-700 parts of organic animal and plant wastes, 15-30 parts of beneficial compound microorganism strains, 250 parts of synergist 200-120 parts of rare earth powder.

2. The full-value nutrient functional fertilizer according to claim 1, characterized in that: the composition comprises the following components in parts by weight: 650 parts of waste of motor plants, 30 parts of beneficial compound microbial strains, 240 parts of synergist and 80 parts of rare earth powder.

3. The full-value nutrient functional fertilizer according to claim 1, characterized in that: the composition comprises the following components in parts by weight: 670 parts of motor plant waste, 20 parts of beneficial compound microorganism strains, 210 parts of a synergist and 100 parts of rare earth powder.

4. The full-value nutrient functional fertilizer according to claim 1, characterized in that: the organic animal and plant waste consists of the following components in parts by weight: 450 parts of straw powder, 300 parts of livestock and poultry manure, 30-80 parts of domestic organic garbage, 200 parts of distiller's grains and 80-150 parts of rice chaff.

5. The full-value nutrient functional fertilizer according to claim 1, characterized in that: the vinasse is replaced by sugar residue.

6. The full-value nutrient functional fertilizer according to claim 1, characterized in that: the rice chaff is replaced by the dead powder.

7. The full-value nutrient functional fertilizer according to claim 1, characterized in that: the beneficial compound microorganism strains comprise Rhodopseudomonas thiophosphaeria, Rhodospirillum lutescens, azotobacter winogradskyi, azotobacter chroococcum, azospirillum lipogenes, silicate bacteria, Bacillus mucilaginosus, Bacillus pumilus, actinomyces gracilis, actinomyces flavus, Bacillus sphaericus and Arthrobacter ureafaciens; the weight ratio of the strains is 10: 8: 12: 6: 8: 6.

8. A preparation method of a full-nutrient functional fertilizer is characterized by comprising the following steps: the operation steps are as follows:

drying and crushing collected organic waste dry materials such as straws, rice husks, fruit peels, dead cakes and the like to 120 meshes for later use, and pulping organic waste wet materials such as livestock and poultry manure, agricultural and sideline product processing waste residues and waste liquid, domestic organic matter garbage and the like for later use;

respectively carrying out second-generation culture on single strains forming the beneficial compound microbial strains, and then mixing the strains according to a proportion and carrying out large-fusion propagation culture for later use;

mixing the organic waste prepared in the step (I) in proportion, adding the composite microbial strain prepared in the step (II) in proportion, adjusting the moisture content to 60%, fully and uniformly stirring, and sending into a constant-temperature fermentation tank for glycolysis for 36-48 hours under the condition of keeping 55 ℃ to form an organic blank;

feeding the fermented mature organic blank into a low-temperature baking oven for drying until the water content is less than or equal to 12% for later use;

and step five, mixing the dried organic blank with the synergist and the rare earth powder according to the ratio of 6-7: 2: 1. Then carrying out secondary grinding, refining and fusion to achieve the integral fineness of more than 60 meshes;

step six, carrying out biochemical inspection on the refined and fused materials;

and step seven, canning the qualified products after the refining and fusion, packaging the products into finished products, and then warehousing or selling the finished products to guide users to scientifically apply the finished products.