CN111286339A - Mineral multifunctional fruit tree soil conditioner and preparation method thereof - Google Patents
Mineral multifunctional fruit tree soil conditioner and preparation method thereof Download PDFInfo
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- CN111286339A CN111286339A CN202010016534.9A CN202010016534A CN111286339A CN 111286339 A CN111286339 A CN 111286339A CN 202010016534 A CN202010016534 A CN 202010016534A CN 111286339 A CN111286339 A CN 111286339A
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- C09K—MATERIALS FOR MISCELLANEOUS APPLICATIONS, NOT PROVIDED FOR ELSEWHERE
- C09K17/00—Soil-conditioning materials or soil-stabilising materials
- C09K17/40—Soil-conditioning materials or soil-stabilising materials containing mixtures of inorganic and organic compounds
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Abstract
The invention discloses a mineral multifunctional fruit and tree soil conditioner, which comprises a mineral raw material, a seawater raw material and industrial waste, wherein the mineral raw material comprises limestone, medical stone, zeolite, ground phosphate rock, silicon-calcium fertilizer, lime nitrogen, lime phosphorus, humic acid, fulvic acid, plant ash and potassium ore, the seawater raw material comprises oyster shell, shell and clam shell, and the industrial waste comprises alkaline residue, monosodium glutamate fermentation tail liquid and steel slag.
Description
Technical Field
The invention relates to the technical field of soil conditioning, in particular to a mineral multifunctional fruit tree soil conditioner and a preparation method thereof.
Background
Soil conditioners are also an indispensable member of fertilizer products today where soil problems are getting worse. But has unique advantages in inhibiting the deterioration of specific soil. Soil conditioning, as the name implies, is intended to improve soil, and mainly refers to the act of improving soil by physical, chemical, or microbial means. At present, soil conditioning can be carried out by using a soil conditioner, such as a Beijing Zhongtian Daiguan soil conditioner.
The existing soil conditioner can not repair soil efficiently, is difficult to stimulate crop growth, can not retain nutrient components, and fruit and tree plants can suffer from disease disturbance and have poor disease resistance, so that the productivity is low and the growth is slow, therefore, the mineral multifunctional fruit and tree soil conditioner and the preparation method thereof are provided.
Disclosure of Invention
The invention provides a mineral multifunctional fruit tree soil conditioner and a preparation method thereof, aiming at the defects in the background art.
The invention aims to solve the phenomenon, adopts the following technical scheme that the mineral multifunctional fruit tree soil conditioner comprises mineral raw materials, seawater production raw materials and industrial waste materials, wherein the mineral raw materials comprise limestone, medical stone, zeolite, phosphate rock powder, silicon-calcium fertilizer, lime nitrogen, lime phosphorus, humic acid, fulvic acid, plant ash and potassium ore, the seawater production raw materials comprise oyster shell, shell and clam shell, and the industrial waste materials comprise caustic sludge, monosodium glutamate fermentation tail liquid and steel slag, wherein the limestone proportion in the mineral raw materials is set to be 5-15%, the medical stone proportion is set to be 5-7%, the zeolite proportion is set to be 2-12%, the phosphate rock powder proportion is set to be 3-5%, the silicon-calcium fertilizer proportion is set to be 5-9%, the lime nitrogen proportion is set to be 5-13%, the lime phosphorus proportion is set to be 2-7%, and the humic acid proportion is set to be 5-10%, the proportion of fulvic acid is set to be 3-8%, the proportion of plant ash is set to be 10-15%, the proportion of potassium ore is set to be 10-25%, the proportion of oyster shells, shells and clam shells in the seawater raw material is 1:1:1, and the proportion of caustic sludge, monosodium glutamate fermentation tail liquid and steel slag in the industrial waste is 2:3: 5.
As a further preferable mode of the present invention, the seawater-based raw material comprises a mineral raw material, a seawater-based raw material and an industrial waste, the mineral raw material comprises limestone, medical stone, zeolite, ground phosphate rock, a silico-calcium fertilizer, lime nitrogen, lime phosphorus, humic acid, fulvic acid, plant ash and potassium ore, the seawater-based raw material comprises oyster shell, shell and clam shell, and the industrial waste comprises caustic sludge, monosodium glutamate fermentation tail liquid and steel slag, wherein the mineral raw material comprises 5% of limestone, 6% of medical stone, 10% of zeolite, 4% of ground phosphate rock, 8% of silico-calcium fertilizer, 13% of lime nitrogen, 6% of lime phosphorus, 5% of humic acid, 3% of fulvic acid, 15% of plant ash and 25% of potassium ore, the preparation ratio of oyster shell, shell and clam shell in the seawater-based raw material is 1:1:1, the preparation ratio of the alkaline residue in the industrial waste, the monosodium glutamate fermentation tail liquid and the steel slag is 2:3: 5.
In a further preferred embodiment of the present invention, the seawater-based raw material comprises a mineral raw material, a seawater-based raw material and an industrial waste, wherein the mineral raw material comprises limestone, medical stone, zeolite, ground phosphate rock, silico-calcium fertilizer, calcium nitrate, lime phosphate, humic acid, fulvic acid, plant ash and potassium ore, the seawater-based raw material comprises oyster shell, shell and clam shell, and the industrial waste comprises caustic sludge, monosodium glutamate fermentation tail liquid and steel slag, wherein the mineral raw material comprises 15% of limestone, 6% of medical stone, 10% of zeolite, 4% of ground phosphate rock, 8% of silico-calcium fertilizer, 13% of lime phosphate, 6% of lime phosphate, 10% of humic acid, 8% of fulvic acid, 10% of plant ash and 10% of potassium ore, and the seawater-based raw material comprises oyster shell, and sodium bicarbonate, The preparation ratio of the shells to the clamshells is 1:1:1, and the preparation ratio of the alkaline residue in the industrial waste, the monosodium glutamate fermentation tail liquid and the steel slag is 2:3: 5.
In a further preferred embodiment of the present invention, the production steps include the following:
s1, preparing and mixing: preparing raw materials in proportion, mixing and pouring the raw materials into reaction kettle equipment, and preparing an acid-base regulator and a loosening agent;
s2, stirring and grinding: starting equipment to stir various raw materials, firstly stirring at a low speed, then stirring at a high speed, crushing and grinding;
s3, drying and cooling: drying the soil conditioner by rotating equipment, controlling the temperature to be about 80 ℃ and the time to be about 35min, and finally cooling to room temperature;
s4, screening and recovering: and (4) adopting screens with different meshes to carry out vibration screening, and after screening is finished, packaging and bagging for recycling.
In a further preferred embodiment of the present invention, in step S1, the mineral material, the seawater material and the industrial waste are added, and then the water-retaining agent is added and mixed uniformly.
In a further preferred embodiment of the present invention, in step S3, the drying step is to dry the soil conditioner in the form of granules at a high temperature, and the humidity is controlled to be 5-10%.
In a further preferred embodiment of the present invention, in step S4, the mesh numbers of the screens are 150 mesh, 100 mesh and 50 mesh, respectively.
In a more preferred embodiment of the present invention, in step S2, the temperature is controlled to about 70 degrees Celsius, the time is controlled to about 25 minutes, and the rotation speed is controlled to 30r/min to 50 r/min.
In a more preferred embodiment of the present invention, in step S2, the temperature is controlled to about 40 ℃, the time is controlled to about 15min, and the rotation speed is controlled to 80r/min-180 r/min.
The mineral multifunctional fruit tree soil conditioner has good effects of soil restoration and crop growth stimulation, can efficiently supply various nutrient components, protects soil for sterilization and disinfection, reduces crop invasion by diseases, enhances the disease resistance of crops, protects nutrient elements, promotes fruit tree plant growth, improves soil properties and improves soil productivity.
Drawings
FIG. 1 is a schematic diagram of a step frame of a multifunctional mineral fruit tree soil conditioner and a manufacturing method thereof.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
The invention provides a technical scheme that: a mineral multifunctional fruit and tree soil conditioner comprises mineral raw materials, seawater raw materials and industrial waste, wherein the mineral raw materials comprise limestone, medical stone, zeolite, phosphate rock powder, calcium silicon fertilizer, lime nitrogen, lime phosphorus, humic acid, fulvic acid, plant ash and potassium ore, the seawater raw materials comprise oyster shell, shell and clam shell, the industrial waste comprises caustic sludge, monosodium glutamate fermentation tail liquid and steel slag, the limestone proportion in the mineral raw materials is set to be 5-15%, the medical stone proportion is set to be 5-7%, the zeolite proportion is set to be 2-12%, the phosphate rock powder proportion is set to be 3-5%, the calcium silicon fertilizer proportion is set to be 5-9%, the lime nitrogen proportion is set to be 5-13%, the lime phosphorus proportion is set to be 2-7%, the humic acid proportion is set to be 5-10%, and the fulvic acid proportion is set to be 3-8%, the ratio of plant ash to wood ash is 10-15%, the ratio of potassium ore to potassium ore is 10-25%, the ratio of oyster shell, shell and clam shell in the seawater raw material is 1:1:1, and the ratio of alkaline residue, monosodium glutamate fermentation tail liquid and steel slag in the industrial waste is 2:3: 5.
A mineral multifunctional fruit and tree soil conditioner comprises mineral raw materials, seawater raw materials and industrial waste materials, wherein the mineral raw materials comprise limestone, medical stone, zeolite, phosphate rock powder, calcium silicon fertilizer, lime nitrogen, lime phosphorus, humic acid, fulvic acid, plant ash and potassium ore, the seawater raw materials comprise oyster shell, shell and clam shell, the industrial waste materials comprise caustic sludge, monosodium glutamate fermentation tail liquid and steel slag, the mineral raw materials comprise 5% of limestone, 6% of medical stone, 10% of zeolite, 4% of phosphate rock powder, 8% of calcium silicon fertilizer, 13% of lime nitrogen, 6% of lime phosphorus, 5% of humic acid, 3% of fulvic acid, 15% of plant ash and 25% of potassium ore, and the oyster shell in the seawater raw materials, The preparation ratio of the shells to the clamshells is 1:1:1, and the preparation ratio of the alkaline residue in the industrial waste, the monosodium glutamate fermentation tail liquid and the steel slag is 2:3: 5.
A mineral multifunctional fruit and tree soil conditioner comprises mineral raw materials, seawater raw materials and industrial waste materials, wherein the mineral raw materials comprise limestone, medical stone, zeolite, phosphate rock powder, calcium silicon fertilizer, lime nitrogen, lime phosphorus, humic acid, fulvic acid, plant ash and potassium ore, the seawater raw materials comprise oyster shell, shell and clam shell, the industrial waste materials comprise caustic sludge, monosodium glutamate fermentation tail liquid and steel slag, the mineral raw materials comprise 15% of limestone, 6% of medical stone, 10% of zeolite, 4% of phosphate rock powder, 8% of calcium silicon fertilizer, 13% of lime nitrogen, 6% of lime phosphorus, 10% of humic acid, 8% of fulvic acid, 10% of plant ash and 10% of potassium ore, and the oyster shell in the seawater raw materials, The preparation ratio of the shells to the clamshells is 1:1:1, and the preparation ratio of the alkaline residue in the industrial waste, the monosodium glutamate fermentation tail liquid and the steel slag is 2:3: 5.
The manufacturing steps comprise:
s1, preparing and mixing: preparing raw materials in proportion, mixing and pouring the raw materials into reaction kettle equipment, and preparing an acid-base regulator and a loosening agent;
s2, stirring and grinding: starting equipment to stir various raw materials, firstly stirring at a low speed, then stirring at a high speed, crushing and grinding;
s3, drying and cooling: drying the soil conditioner by rotating equipment, controlling the temperature to be about 80 ℃ and the time to be about 35min, and finally cooling to room temperature;
s4, screening and recovering: and (4) adopting screens with different meshes to carry out vibration screening, and after screening is finished, packaging and bagging for recycling.
In step S1, mineral raw materials, seawater raw materials and industrial waste are added, and then the water-retaining agent is added and mixed uniformly.
In step S3, the drying is to dry the granular soil conditioner at high temperature and the humidity is controlled at 5-10%.
In step S4, the mesh number of the screen is 150 mesh, 100 mesh and 50 mesh, respectively.
In step S2, the temperature is controlled at about 70 ℃, the time is controlled at about 25min, and the rotating speed is controlled at 30r/min-50 r/min.
In step S2, the temperature is controlled at about 40 ℃, the time is controlled at about 15min, and the rotating speed is controlled at 80r/min-180 r/min.
Example 1
The invention provides a technical scheme that: a mineral multifunctional fruit and wood soil conditioner comprises mineral raw materials, seawater raw materials and industrial waste materials, wherein the mineral raw materials comprise limestone, medical stone, zeolite, ground phosphate rock, silicon-calcium fertilizer, lime nitrogen, lime phosphorus, humic acid, fulvic acid, plant ash and potassium ore, the seawater raw materials comprise oyster shell, shell and clam shell, and the industrial waste materials comprise caustic sludge, monosodium glutamate fermentation tail liquid and steel slag, wherein the mineral raw materials comprise 5% of limestone, 6% of medical stone, 10% of zeolite, 4% of ground phosphate rock, 8% of silicon-calcium fertilizer, 13% of lime nitrogen, 6% of lime phosphorus, 5% of humic acid, 3% of fulvic acid, 15% of plant ash and 25% of potassium ore, and the seawater raw materials comprise oyster shell, oyster shell and oyster shell, The preparation ratio of the shells to the clamshells is 1:1:1, and the preparation ratio of the alkaline residue in the industrial waste, the monosodium glutamate fermentation tail liquid and the steel slag is 2:3: 5.
The manufacturing steps comprise:
s1, preparing and mixing: preparing raw materials in proportion, mixing and pouring the raw materials into reaction kettle equipment, and preparing an acid-base regulator and a loosening agent;
s2, stirring and grinding: starting equipment to stir various raw materials, firstly stirring at a low speed, then stirring at a high speed, crushing and grinding;
s3, drying and cooling: drying the soil conditioner by rotating equipment, controlling the temperature to be about 80 ℃ and the time to be about 35min, and finally cooling to room temperature;
s4, screening and recovering: and (4) adopting screens with different meshes to carry out vibration screening, and after screening is finished, packaging and bagging for recycling.
In step S1, mineral raw materials, seawater raw materials and industrial waste are added, and then the water-retaining agent is added and mixed uniformly.
In step S3, the drying is to dry the granular soil conditioner at high temperature and the humidity is controlled at 5-10%.
In step S4, the mesh number of the screen is 150 mesh, 100 mesh and 50 mesh, respectively.
In step S2, the temperature is controlled at about 70 ℃, the time is controlled at about 25min, and the rotating speed is controlled at 30r/min-50 r/min.
In step S2, the temperature is controlled at about 40 ℃, the time is controlled at about 15min, and the rotating speed is controlled at 80r/min-180 r/min.
Through increasing the plant ash and the potassium ore of more proportion, the plant ash can the high efficiency through the disinfection of disinfecting of fruit and tree class crop, prevents that plant roots from rotting, and the potassium ore is as organic fertilizer for fruit and tree class crop supplements the fertilizer, can promote the plant growth, supplements nitrogen phosphorus potassium nutrient element, plays the sterile effect of disinfecting.
Example 2
The invention provides a technical scheme that: a mineral multifunctional fruit and wood soil conditioner comprises mineral raw materials, seawater raw materials and industrial waste materials, wherein the mineral raw materials comprise limestone, medical stone, zeolite, ground phosphate rock, silicon-calcium fertilizer, lime nitrogen, lime phosphorus, humic acid, fulvic acid, plant ash and potassium ore, the seawater raw materials comprise oyster shell, shell and clam shell, and the industrial waste materials comprise caustic sludge, monosodium glutamate fermentation tail liquid and steel slag, wherein the mineral raw materials comprise 15% of limestone, 6% of medical stone, 10% of zeolite, 4% of ground phosphate rock, 8% of silicon-calcium fertilizer, 13% of lime nitrogen, 6% of lime phosphorus, 10% of humic acid, 8% of fulvic acid, 10% of plant ash and 10% of potassium, and the seawater raw materials comprise oyster shell, oyster shell and oyster shell, The preparation ratio of the shells to the clamshells is 1:1:1, and the preparation ratio of the alkaline residue in the industrial waste, the monosodium glutamate fermentation tail liquid and the steel slag is 2:3: 5.
The manufacturing steps comprise:
s1, preparing and mixing: preparing raw materials in proportion, mixing and pouring the raw materials into reaction kettle equipment, and preparing an acid-base regulator and a loosening agent;
s2, stirring and grinding: starting equipment to stir various raw materials, firstly stirring at a low speed, then stirring at a high speed, crushing and grinding;
s3, drying and cooling: drying the soil conditioner by rotating equipment, controlling the temperature to be about 80 ℃ and the time to be about 35min, and finally cooling to room temperature;
s4, screening and recovering: and (4) adopting screens with different meshes to carry out vibration screening, and after screening is finished, packaging and bagging for recycling.
In step S1, mineral raw materials, seawater raw materials and industrial waste are added, and then the water-retaining agent is added and mixed uniformly.
In step S3, the drying is to dry the granular soil conditioner at high temperature and the humidity is controlled at 5-10%.
In step S4, the mesh number of the screen is 150 mesh, 100 mesh and 50 mesh, respectively.
In step S2, the temperature is controlled at about 70 ℃, the time is controlled at about 25min, and the rotating speed is controlled at 30r/min-50 r/min.
In step S2, the temperature is controlled at about 40 ℃, the time is controlled at about 15min, and the rotating speed is controlled at 80r/min-180 r/min.
By increasing the ratio of humic acid to fulvic acid and classifying the humic acid in biological stimulin, the soil restoration and crop growth stimulation effects are good, the ratio of plant ash to potassium ore is reduced, and fruit tree plants grow slowly and are full of nutrients.
The table of the parameters of the multifunctional flower soil conditioner containing mineral substances is as follows:
water absorption | Growth rate | Redox property | Porosity of the material | |
Example 1 | 30% | 8.8 | 70% | 10% |
Example 2 | 15% | 7.2 | 80% | 25% |
In conclusion, the multifunctional mineral fruit and tree soil conditioner has good effects on soil restoration and crop growth stimulation, can efficiently supply various nutrient components, protects soil for sterilization and disinfection, reduces crop pest damage, enhances the disease resistance of crops, protects nutrient elements, promotes fruit and tree plant growth, improves soil properties and improves soil productivity.
While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.
Claims (9)
1. A mineral multifunctional fruit and wood soil conditioner is characterized by comprising mineral raw materials, seawater raw materials and industrial waste, wherein the mineral raw materials comprise limestone, medical stone, zeolite, ground phosphate rock, silicon-calcium fertilizer, lime nitrogen, lime phosphorus, humic acid, fulvic acid, plant ash and potassium ore, the seawater raw materials comprise oyster shell, shell and clam shell, and the industrial waste comprises caustic sludge, monosodium glutamate fermentation tail liquid and steel slag, wherein the content of the limestone in the mineral raw materials is set to be 5-15%, the content of the medical stone is set to be 5-7%, the content of the zeolite is set to be 2-12%, the content of the ground phosphate rock is set to be 3-5%, the content of the silicon-calcium fertilizer is set to be 5-9%, the content of the lime nitrogen is set to be 5-13%, the content of the lime phosphorus is set to be 2-7%, and the content of the humic acid is set to be 5-10%, the proportion of fulvic acid is set to be 3-8%, the proportion of plant ash is set to be 10-15%, the proportion of potassium ore is set to be 10-25%, the proportion of oyster shells, shells and clam shells in the seawater raw material is 1:1:1, and the proportion of caustic sludge, monosodium glutamate fermentation tail liquid and steel slag in the industrial waste is 2:3: 5.
2. The mineral multifunctional fruit and wood soil conditioner according to claim 1, comprising mineral raw materials, seawater raw materials and industrial waste, wherein the mineral raw materials comprise limestone, medical stone, zeolite, ground phosphate rock, silicon-calcium fertilizer, lime nitrogen, lime phosphorus, humic acid, fulvic acid, plant ash and potassium ore, the seawater raw materials comprise oyster shell, shell and clam shell, and the industrial waste comprises caustic sludge, monosodium glutamate fermentation tail liquid and steel slag, wherein the mineral raw materials comprise 5% of limestone, 6% of medical stone, 10% of zeolite, 4% of ground phosphate rock, 8% of silicon-calcium fertilizer, 13% of lime nitrogen, 6% of lime phosphorus, 5% of humic acid, 3% of fulvic acid, 15% of plant ash and 25% of potassium ore, the preparation ratio of oyster shells, shells and clam shells in the seawater raw materials is 1:1:1, and the preparation ratio of alkaline residues, monosodium glutamate fermentation tail liquid and steel slag in the industrial waste materials is 2:3: 5.
3. The mineral multifunctional fruit and wood soil conditioner according to claim 1, comprising mineral raw materials, seawater raw materials and industrial waste materials, wherein the mineral raw materials comprise limestone, medical stone, zeolite, ground phosphate rock, silicon-calcium fertilizer, lime nitrogen, lime phosphorus, humic acid, fulvic acid, plant ash and potassium ore, the seawater raw materials comprise oyster shell, shell and clam shell, and the industrial waste materials comprise caustic sludge, monosodium glutamate fermentation tail liquid and steel slag, wherein the mineral raw materials comprise 15% of limestone, 6% of medical stone, 10% of zeolite, 4% of ground phosphate rock, 8% of silicon-calcium fertilizer, 13% of lime nitrogen, 6% of lime phosphorus, 10% of humic acid, 8% of fulvic acid, 10% of plant ash and 10% of potassium ore, the preparation ratio of oyster shells, shells and clam shells in the seawater raw materials is 1:1:1, and the preparation ratio of alkaline residues, monosodium glutamate fermentation tail liquid and steel slag in the industrial waste materials is 2:3: 5.
4. The method for preparing the mineral multifunctional fruit tree soil conditioner according to any one of claims 1 to 3, wherein the preparation steps comprise the following steps:
s1, preparing and mixing: preparing raw materials in proportion, mixing and pouring the raw materials into reaction kettle equipment, and preparing an acid-base regulator and a loosening agent;
s2, stirring and grinding: starting equipment to stir various raw materials, firstly stirring at a low speed, then stirring at a high speed, crushing and grinding;
s3, drying and cooling: drying the soil conditioner by rotating equipment, controlling the temperature to be about 80 ℃ and the time to be about 35min, and finally cooling to room temperature;
s4, screening and recovering: and (4) adopting screens with different meshes to carry out vibration screening, and after screening is finished, packaging and bagging for recycling.
5. The method for preparing the mineral multifunctional fruit and wood soil conditioner according to claim 4, wherein in step S1, the mineral raw material, the seawater raw material and the industrial waste are added, and then the water retention agent is added and mixed uniformly.
6. The method for preparing the mineral multifunctional fruit and wood soil conditioner as claimed in claim 4, wherein in the step S3, the drying is carried out by drying the granular soil conditioner at high temperature and controlling the humidity at 5-10%.
7. The method for preparing a mineral multifunctional fruit and wood soil conditioner according to claim 4, wherein in step S4, the mesh number of the screen is 150 meshes, 100 meshes and 50 meshes respectively.
8. The method for preparing the mineral multifunctional fruit and wood soil conditioner according to claim 4, wherein in step S2, the temperature is controlled at about 70 ℃, the time is controlled at about 25min, and the rotation speed is controlled at 30r/min-50 r/min.
9. The method for preparing the mineral multifunctional fruit and wood soil conditioner according to claim 4, wherein in step S2, the temperature is controlled at about 40 ℃, the time is controlled at about 15min, and the rotation speed is controlled at 80r/min-180 r/min.
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CN114054466A (en) * | 2021-11-09 | 2022-02-18 | 武汉理工大学 | Method for disinfecting and deodorizing refuse landfill by using calcium silicate powder |
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CN114054466A (en) * | 2021-11-09 | 2022-02-18 | 武汉理工大学 | Method for disinfecting and deodorizing refuse landfill by using calcium silicate powder |
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