Global Solutions for Agricultural / Mining / Chemical Equipment – EMCC Industry Customized Services
Shanghai Exceed Industry Co., Ltd. is dedicated to developing granulation and drying technologies for global clients, serving industries such as chemical, organic, and compound fertilizer manufacturing, as well as mining, forestry, aggregate, and soil remediation. Additionally, we provide segmented process design and solutions for the upgrade of existing production lines in older plants.
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Chemical Fertilizers
NPK Compound Fertilizers
Organic Fertilizers
Organic-Inorganic Compound Fertilizers
Biogas Residue Fertilizers
Bulk-blending Fertilizers
Slow And Controlled Release Fertilizers
Liquid Fertilizers
Composting Fertilizers
Mineral Powder Granulation
Municipal Waste Treatment, Sludge Treatment
SOP Production Line
Cat Litter Granulation Production Line
Phosphorus Chemical Process Package
Ammonium sulfate granules
Industry Introduction
Main types include: Nitrogen fertilizer, phosphate fertilizer, potash fertilizer, compound fertilizers, as well as microelement fertilizers like boron and zinc fertilizers.
Common Granulation Products: Monoammonium Phosphate (MAP), Diammonium Phosphate (DAP), Triple Superphosphate (TSP), Monopotassium Phosphate (MKP) and Dipotassium Phosphate (DKP), potash fertilizers, compound fertilizers.
Granulation Methods: MAP, DAP, TSP, and compound fertilizers generally use wet granulation methods, such as rotary drum granulation lines or disc granulation production lines; Potassium chloride and potassium sulfate are typically granulated using compaction granulation.
NPK compound fertilizer is a common blended fertilizer containing the three primary nutrients essential for plant growth: Nitrogen (N), Phosphorus (P), and Potassium (K).
Granulation Process:
Nutrients like Nitrogen (N), Phosphorus (P), and Potassium (K) are mixed and formed into granules through physical or chemical methods. This process not only facilitates fertilizer transportation and application but also ensures uniform distribution and controlled release.
Organic fertilizer is typically produced by fermenting and decomposing animal and plant residues (e.g., livestock manure, crop straw, and food waste). It is primarily used to provide plant nutrition while improving the physical, chemical, and biological properties of the soil
Processing Flow:
Raw Material Collection > Pre-treatment > Fermentation > Curing > Screening & Granulation > Drying & Cooling > Coating > Packaging & Storage
Also known as mixed organic-inorganic fertilizer, this type combines organic matter with inorganic nutrients. It harnesses the benefits of both organic fertilizers (soil improvement) and inorganic fertilizers (rapid nutrient supply).
Processing Flow:
Raw Material Selection > Pre-treatment > Fermentation > Mixing > Screening & Granulation > Drying & Cooling > Coating > Packaging & Storage
Biogas residue fertilizer is the solid byproduct of biogas fermentation. Its primary sources are closely related to biogas feedstock, including: agricultural waste, livestock manure, industrial organic waste, municipal organic waste, and other organic residues.
Processing Flow:
Raw Material Selection > Crushing > Screening & Granulation > Drying & Cooling > Coating > Packaging & Storage
Bulk blended fertilizer production lines, also known as BB fertilizer lines, mechanically blend two or more single-nutrient fertilizers into compound fertilizers. They offer low cost and high nutrient concentration. Nutrient ratios can be flexibly adjusted based on soil and crop needs, enhancing fertilization precision.
Processing Flow:
Manual Feeding > Automatic Batching per Set Formula > Automatic Conveying > Automatic Mixing per Set Time > Automatic Packaging per Set Weight > Manual Bag Placement > Automatic Bag Sealing & Cutting
These are novel fertilizers that use physical or chemical means to control the release of nutrients, meeting plant nutritional demands while minimizing nutrient loss. Key advantages include improved fertilizer use efficiency, reduced application frequency, labor savings, and minimized environmental impact.
Processing Flow:
Raw Material Selection > Formulation & Proportioning > Mixing > Granulation > Drying > Cooling > Screening > Coating > Packaging
Liquid fertilizer can be applied directly or sprayed using water as a carrier. It includes various water-soluble fertilizers like liquid nitrogen, liquid phosphorus, liquid potassium, and compound liquid fertilizers. Benefits include ease of application, high absorption efficiency, and suitability for foliar spraying or fertigation systems. EMCC China provides complete liquid fertilizer production lines.
Processing Flow:
Raw Material Selection > Formulation > Dissolution > Screening & Filtration > Stabilization Treatment > Packaging & Storage
Composting is the process of converting organic waste into fertilizer. It involves collecting and piling organic waste (e.g., food scraps, plant residues, animal manure) and utilizing microbial decomposition to transform it into compost.
Processing Flow:
Waste Collection > Piling > Turning > Decomposition > Maturation
Mineral powder granulation is the process of converting fine mineral powders into granular products through a series of steps. This facilitates storage, transportation, and application.
Processing Flow:
Raw Material Preparation > Wet Granulation > Drying > Screening & Packaging
Municipal Waste Drying: The process of drying municipal solid waste to reduce moisture content and volume, typically applied to wet or organic waste for further processing or disposal.
Processing Flow:
Collection & Sorting > Drying Equipment > Parameter Control > Drying Time > Post-Drying Treatment
Sludge Treatment Processing Flow:
Dehydration > Drying Equipment > Parameter Control > Drying Time > Post-Drying Treatment
Potassium sulfate (SOP) is primarily used for chloride-sensitive, potassium-loving crops like tobacco, sugar beets, grapes, watermelons, potatoes, garlic, and tea. As a fertilizer, SOP improves crop quality (e.g., enhances tobacco flammability and color and increases sweetness and color vibrancy in berries and melons). It is widely used in the production of NPK ternary compound fertilizers.
The cat litter granulation line is a specialized automated system for processing raw materials into granules suitable for feline use. The line primarily consists of raw material handling equipment, mixing equipment, granulators, drying equipment, screening equipment, coating machines, packaging equipment, and environmental protection facilities.
Processing Flow:
Raw Material Preparation > Crushing & Screening > Mixing > Granulation > Drying & Screening > Coating > Packaging
Fine phosphates are highly purified phosphate compounds that undergo specific chemical modification, or possess precisely defined physical forms. They are no longer simple fertilizer raw materials but function as critical additives or key components in high-tech industrial and consumer applications demanding exceptional purity, performance, and consistency.
Core Characteristics: High purity, specific chemical composition & structure, precise physical properties.
Primary Applications: pH regulation & buffering, chelation/complexation, water retention/thickening, emulsification/stabilization, fermentation nutrition/leavening, scale inhibition/corrosion inhibition, nutritional fortification, ionic conductivity/structural stability, flame retardant.
EMCC Ammonium Sulfate Granules feature a purity of over 99%, presenting as white, uniform particles with minimal heavy metals, chlorine ions, and other harmful impurities. With a stable nitrogen content of 20.5%–21% and sulfur content of 23%–24%, the ammonium nitrogen is readily absorbed by crops. Suitable for wheat, corn, fruit trees, and more. Direct from the manufacturer with free technical guidance available.
Chemical Fertilizer (Phosphate Fertilizer, Potash Fertilizer Processing)
Main types include: Nitrogen fertilizer, phosphate fertilizer, potash fertilizer, compound fertilizers, as well as microelement fertilizers like boron and zinc fertilizers.
Common Granulation Products: Monoammonium Phosphate (MAP), Diammonium Phosphate (DAP), Triple Superphosphate (TSP), Monopotassium Phosphate (MKP) and Dipotassium Phosphate (DKP), potash fertilizers, compound fertilizers.
Granulation Methods: MAP, DAP, TSP, and compound fertilizers generally use wet granulation methods, such as rotary drum granulation lines or disc granulation production lines; Potassium chloride and potassium sulfate are typically granulated using compaction granulation.
NPK Compound Fertilizer
NPK compound fertilizer is a common blended fertilizer containing the three primary nutrients essential for plant growth: Nitrogen (N), Phosphorus (P), and Potassium (K).
Granulation Process:
Nutrients like Nitrogen (N), Phosphorus (P), and Potassium (K) are mixed and formed into granules through physical or chemical methods. This process not only facilitates fertilizer transportation and application but also ensures uniform distribution and controlled release.
Organic Fertilizer
Organic fertilizer is typically produced by fermenting and decomposing animal and plant residues (e.g., livestock manure, crop straw, and food waste). It is primarily used to provide plant nutrition while improving the physical, chemical, and biological properties of the soil
Processing Flow:
Raw Material Collection > Pre-treatment > Fermentation > Curing > Screening & Granulation > Drying & Cooling > Coating > Packaging & Storage
Organic Inorganic Compound Fertilizer
Also known as mixed organic-inorganic fertilizer, this type combines organic matter with inorganic nutrients. It harnesses the benefits of both organic fertilizers (soil improvement) and inorganic fertilizers (rapid nutrient supply).
Processing Flow:
Raw Material Selection > Pre-treatment > Fermentation > Mixing > Screening & Granulation > Drying & Cooling > Coating > Packaging & Storage
Biogas Residue Fertilizer
Biogas residue fertilizer is the solid byproduct of biogas fermentation. Its primary sources are closely related to biogas feedstock, including: agricultural waste, livestock manure, industrial organic waste, municipal organic waste, and other organic residues.
Processing Flow:
Raw Material Selection > Crushing > Screening & Granulation > Drying & Cooling > Coating > Packaging & Storage
Bulk-blending Fertilizer
Bulk blended fertilizer production lines, also known as BB fertilizer lines, mechanically blend two or more single-nutrient fertilizers into compound fertilizers. They offer low cost and high nutrient concentration. Nutrient ratios can be flexibly adjusted based on soil and crop needs, enhancing fertilization precision.
Processing Flow:
Manual Feeding > Automatic Batching per Set Formula > Automatic Conveying > Automatic Mixing per Set Time > Automatic Packaging per Set Weight > Manual Bag Placement > Automatic Bag Sealing & Cutting
Slow And Controlled Release Fertilizer
These are novel fertilizers that use physical or chemical means to control the release of nutrients, meeting plant nutritional demands while minimizing nutrient loss. Key advantages include improved fertilizer use efficiency, reduced application frequency, labor savings, and minimized environmental impact.
Processing Flow:
Raw Material Selection > Formulation & Proportioning > Mixing > Granulation > Drying > Cooling > Screening > Coating > Packaging
Liquid Fertilizer
Liquid fertilizer can be applied directly or sprayed using water as a carrier. It includes various water-soluble fertilizers like liquid nitrogen, liquid phosphorus, liquid potassium, and compound liquid fertilizers. Benefits include ease of application, high absorption efficiency, and suitability for foliar spraying or fertigation systems. EMCC China provides complete liquid fertilizer production lines.
Processing Flow:
Raw Material Selection > Formulation > Dissolution > Screening & Filtration > Stabilization Treatment > Packaging & Storage
Composting Fertilizer
Composting is the process of converting organic waste into fertilizer. It involves collecting and piling organic waste (e.g., food scraps, plant residues, animal manure) and utilizing microbial decomposition to transform it into compost.
Processing Flow:
Waste Collection > Piling > Turning > Decomposition > Maturation
Mineral Powder Granulation
Mineral powder granulation is the process of converting fine mineral powders into granular products through a series of steps. This facilitates storage, transportation, and application.
Processing Flow:
Raw Material Preparation > Wet Granulation > Drying > Screening & Packaging
Municipal Waste Treatment, Sludge Treatment
Municipal Waste Drying: The process of drying municipal solid waste to reduce moisture content and volume, typically applied to wet or organic waste for further processing or disposal.
Processing Flow:
Collection & Sorting > Drying Equipment > Parameter Control > Drying Time > Post-Drying Treatment
Sludge Treatment Processing Flow:
Dehydration > Drying Equipment > Parameter Control > Drying Time > Post-Drying Treatment
SOP Production Line
Potassium sulfate (SOP) is primarily used for chloride-sensitive, potassium-loving crops like tobacco, sugar beets, grapes, watermelons, potatoes, garlic, and tea. As a fertilizer, SOP improves crop quality (e.g., enhances tobacco flammability and color and increases sweetness and color vibrancy in berries and melons). It is widely used in the production of NPK ternary compound fertilizers.
Cat Litter Granulation Production Line
The cat litter granulation line is a specialized automated system for processing raw materials into granules suitable for feline use. The line primarily consists of raw material handling equipment, mixing equipment, granulators, drying equipment, screening equipment, coating machines, packaging equipment, and environmental protection facilities.
Processing Flow:
Raw Material Preparation > Crushing & Screening > Mixing > Granulation > Drying & Screening > Coating > Packaging
Phosphorus Chemical Process Package
Fine phosphates are highly purified phosphate compounds that undergo specific chemical modification, or possess precisely defined physical forms. They are no longer simple fertilizer raw materials but function as critical additives or key components in high-tech industrial and consumer applications demanding exceptional purity, performance, and consistency.
Core Characteristics: High purity, specific chemical composition & structure, precise physical properties.
Primary Applications: pH regulation & buffering, chelation/complexation, water retention/thickening, emulsification/stabilization, fermentation nutrition/leavening, scale inhibition/corrosion inhibition, nutritional fortification, ionic conductivity/structural stability, flame retardant.
Ammonium sulfate granules
EMCC Ammonium Sulfate Granules feature a purity of over 99%, presenting as white, uniform particles with minimal heavy metals, chlorine ions, and other harmful impurities. With a stable nitrogen content of 20.5%–21% and sulfur content of 23%–24%, the ammonium nitrogen is readily absorbed by crops. Suitable for wheat, corn, fruit trees, and more. Direct from the manufacturer with free technical guidance available.
Learn More > Get Solutions >
Main types include: Nitrogen fertilizer, phosphate fertilizer, potash fertilizer, compound fertilizers, as well as microelement fertilizers like boron and zinc fertilizers.
Common Granulation Products: Monoammonium Phosphate (MAP), Diammonium Phosphate (DAP), Triple Superphosphate (TSP), Monopotassium Phosphate (MKP) and Dipotassium Phosphate (DKP), potash fertilizers, compound fertilizers.
Granulation Methods: MAP, DAP, TSP, and compound fertilizers generally use wet granulation methods, such as rotary drum granulation lines or disc granulation production lines; Potassium chloride and potassium sulfate are typically granulated using compaction granulation.
NPK compound fertilizer is a common blended fertilizer containing the three primary nutrients essential for plant growth: Nitrogen (N), Phosphorus (P), and Potassium (K).
Granulation Process:
Nutrients like Nitrogen (N), Phosphorus (P), and Potassium (K) are mixed and formed into granules through physical or chemical methods. This process not only facilitates fertilizer transportation and application but also ensures uniform distribution and controlled release.
Organic fertilizer is typically produced by fermenting and decomposing animal and plant residues (e.g., livestock manure, crop straw, and food waste). It is primarily used to provide plant nutrition while improving the physical, chemical, and biological properties of the soil
Processing Flow:
Raw Material Collection > Pre-treatment > Fermentation > Curing > Screening & Granulation > Drying & Cooling > Coating > Packaging & Storage
Also known as mixed organic-inorganic fertilizer, this type combines organic matter with inorganic nutrients. It harnesses the benefits of both organic fertilizers (soil improvement) and inorganic fertilizers (rapid nutrient supply).
Processing Flow:
Raw Material Selection > Pre-treatment > Fermentation > Mixing > Screening & Granulation > Drying & Cooling > Coating > Packaging & Storage
Biogas residue fertilizer is the solid byproduct of biogas fermentation. Its primary sources are closely related to biogas feedstock, including: agricultural waste, livestock manure, industrial organic waste, municipal organic waste, and other organic residues.
Processing Flow:
Raw Material Selection > Crushing > Screening & Granulation > Drying & Cooling > Coating > Packaging & Storage
Bulk blended fertilizer production lines, also known as BB fertilizer lines, mechanically blend two or more single-nutrient fertilizers into compound fertilizers. They offer low cost and high nutrient concentration. Nutrient ratios can be flexibly adjusted based on soil and crop needs, enhancing fertilization precision.
Processing Flow:
Manual Feeding > Automatic Batching per Set Formula > Automatic Conveying > Automatic Mixing per Set Time > Automatic Packaging per Set Weight > Manual Bag Placement > Automatic Bag Sealing & Cutting
These are novel fertilizers that use physical or chemical means to control the release of nutrients, meeting plant nutritional demands while minimizing nutrient loss. Key advantages include improved fertilizer use efficiency, reduced application frequency, labor savings, and minimized environmental impact.
Processing Flow:
Raw Material Selection > Formulation & Proportioning > Mixing > Granulation > Drying > Cooling > Screening > Coating > Packaging
Liquid fertilizer can be applied directly or sprayed using water as a carrier. It includes various water-soluble fertilizers like liquid nitrogen, liquid phosphorus, liquid potassium, and compound liquid fertilizers. Benefits include ease of application, high absorption efficiency, and suitability for foliar spraying or fertigation systems. EMCC China provides complete liquid fertilizer production lines.
Processing Flow:
Raw Material Selection > Formulation > Dissolution > Screening & Filtration > Stabilization Treatment > Packaging & Storage
Composting is the process of converting organic waste into fertilizer. It involves collecting and piling organic waste (e.g., food scraps, plant residues, animal manure) and utilizing microbial decomposition to transform it into compost.
Processing Flow:
Waste Collection > Piling > Turning > Decomposition > Maturation
Mineral powder granulation is the process of converting fine mineral powders into granular products through a series of steps. This facilitates storage, transportation, and application.
Processing Flow:
Raw Material Preparation > Wet Granulation > Drying > Screening & Packaging
Municipal Waste Drying: The process of drying municipal solid waste to reduce moisture content and volume, typically applied to wet or organic waste for further processing or disposal.
Processing Flow:
Collection & Sorting > Drying Equipment > Parameter Control > Drying Time > Post-Drying Treatment
Sludge Treatment Processing Flow:
Dehydration > Drying Equipment > Parameter Control > Drying Time > Post-Drying Treatment
Potassium sulfate (SOP) is primarily used for chloride-sensitive, potassium-loving crops like tobacco, sugar beets, grapes, watermelons, potatoes, garlic, and tea. As a fertilizer, SOP improves crop quality (e.g., enhances tobacco flammability and color and increases sweetness and color vibrancy in berries and melons). It is widely used in the production of NPK ternary compound fertilizers.
The cat litter granulation line is a specialized automated system for processing raw materials into granules suitable for feline use. The line primarily consists of raw material handling equipment, mixing equipment, granulators, drying equipment, screening equipment, coating machines, packaging equipment, and environmental protection facilities.
Processing Flow:
Raw Material Preparation > Crushing & Screening > Mixing > Granulation > Drying & Screening > Coating > Packaging
Fine phosphates are highly purified phosphate compounds that undergo specific chemical modification, or possess precisely defined physical forms. They are no longer simple fertilizer raw materials but function as critical additives or key components in high-tech industrial and consumer applications demanding exceptional purity, performance, and consistency.
Core Characteristics: High purity, specific chemical composition & structure, precise physical properties.
Primary Applications: pH regulation & buffering, chelation/complexation, water retention/thickening, emulsification/stabilization, fermentation nutrition/leavening, scale inhibition/corrosion inhibition, nutritional fortification, ionic conductivity/structural stability, flame retardant.
EMCC Ammonium Sulfate Granules feature a purity of over 99%, presenting as white, uniform particles with minimal heavy metals, chlorine ions, and other harmful impurities. With a stable nitrogen content of 20.5%–21% and sulfur content of 23%–24%, the ammonium nitrogen is readily absorbed by crops. Suitable for wheat, corn, fruit trees, and more. Direct from the manufacturer with free technical guidance available.
Chemical Fertilizer (Phosphate Fertilizer, Potash Fertilizer Processing)
Main types include: Nitrogen fertilizer, phosphate fertilizer, potash fertilizer, compound fertilizers, as well as microelement fertilizers like boron and zinc fertilizers.
Common Granulation Products: Monoammonium Phosphate (MAP), Diammonium Phosphate (DAP), Triple Superphosphate (TSP), Monopotassium Phosphate (MKP) and Dipotassium Phosphate (DKP), potash fertilizers, compound fertilizers.
Granulation Methods: MAP, DAP, TSP, and compound fertilizers generally use wet granulation methods, such as rotary drum granulation lines or disc granulation production lines; Potassium chloride and potassium sulfate are typically granulated using compaction granulation.
NPK Compound Fertilizer
NPK compound fertilizer is a common blended fertilizer containing the three primary nutrients essential for plant growth: Nitrogen (N), Phosphorus (P), and Potassium (K).
Granulation Process:
Nutrients like Nitrogen (N), Phosphorus (P), and Potassium (K) are mixed and formed into granules through physical or chemical methods. This process not only facilitates fertilizer transportation and application but also ensures uniform distribution and controlled release.
Organic Fertilizer
Organic fertilizer is typically produced by fermenting and decomposing animal and plant residues (e.g., livestock manure, crop straw, and food waste). It is primarily used to provide plant nutrition while improving the physical, chemical, and biological properties of the soil
Processing Flow:
Raw Material Collection > Pre-treatment > Fermentation > Curing > Screening & Granulation > Drying & Cooling > Coating > Packaging & Storage
Organic Inorganic Compound Fertilizer
Also known as mixed organic-inorganic fertilizer, this type combines organic matter with inorganic nutrients. It harnesses the benefits of both organic fertilizers (soil improvement) and inorganic fertilizers (rapid nutrient supply).
Processing Flow:
Raw Material Selection > Pre-treatment > Fermentation > Mixing > Screening & Granulation > Drying & Cooling > Coating > Packaging & Storage
Biogas Residue Fertilizer
Biogas residue fertilizer is the solid byproduct of biogas fermentation. Its primary sources are closely related to biogas feedstock, including: agricultural waste, livestock manure, industrial organic waste, municipal organic waste, and other organic residues.
Processing Flow:
Raw Material Selection > Crushing > Screening & Granulation > Drying & Cooling > Coating > Packaging & Storage
Bulk-blending Fertilizer
Bulk blended fertilizer production lines, also known as BB fertilizer lines, mechanically blend two or more single-nutrient fertilizers into compound fertilizers. They offer low cost and high nutrient concentration. Nutrient ratios can be flexibly adjusted based on soil and crop needs, enhancing fertilization precision.
Processing Flow:
Manual Feeding > Automatic Batching per Set Formula > Automatic Conveying > Automatic Mixing per Set Time > Automatic Packaging per Set Weight > Manual Bag Placement > Automatic Bag Sealing & Cutting
Slow And Controlled Release Fertilizer
These are novel fertilizers that use physical or chemical means to control the release of nutrients, meeting plant nutritional demands while minimizing nutrient loss. Key advantages include improved fertilizer use efficiency, reduced application frequency, labor savings, and minimized environmental impact.
Processing Flow:
Raw Material Selection > Formulation & Proportioning > Mixing > Granulation > Drying > Cooling > Screening > Coating > Packaging
Liquid Fertilizer
Liquid fertilizer can be applied directly or sprayed using water as a carrier. It includes various water-soluble fertilizers like liquid nitrogen, liquid phosphorus, liquid potassium, and compound liquid fertilizers. Benefits include ease of application, high absorption efficiency, and suitability for foliar spraying or fertigation systems. EMCC China provides complete liquid fertilizer production lines.
Processing Flow:
Raw Material Selection > Formulation > Dissolution > Screening & Filtration > Stabilization Treatment > Packaging & Storage
Composting Fertilizer
Composting is the process of converting organic waste into fertilizer. It involves collecting and piling organic waste (e.g., food scraps, plant residues, animal manure) and utilizing microbial decomposition to transform it into compost.
Processing Flow:
Waste Collection > Piling > Turning > Decomposition > Maturation
Mineral Powder Granulation
Mineral powder granulation is the process of converting fine mineral powders into granular products through a series of steps. This facilitates storage, transportation, and application.
Processing Flow:
Raw Material Preparation > Wet Granulation > Drying > Screening & Packaging
Municipal Waste Treatment, Sludge Treatment
Municipal Waste Drying: The process of drying municipal solid waste to reduce moisture content and volume, typically applied to wet or organic waste for further processing or disposal.
Processing Flow:
Collection & Sorting > Drying Equipment > Parameter Control > Drying Time > Post-Drying Treatment
Sludge Treatment Processing Flow:
Dehydration > Drying Equipment > Parameter Control > Drying Time > Post-Drying Treatment
SOP Production Line
Potassium sulfate (SOP) is primarily used for chloride-sensitive, potassium-loving crops like tobacco, sugar beets, grapes, watermelons, potatoes, garlic, and tea. As a fertilizer, SOP improves crop quality (e.g., enhances tobacco flammability and color and increases sweetness and color vibrancy in berries and melons). It is widely used in the production of NPK ternary compound fertilizers.
Cat Litter Granulation Production Line
The cat litter granulation line is a specialized automated system for processing raw materials into granules suitable for feline use. The line primarily consists of raw material handling equipment, mixing equipment, granulators, drying equipment, screening equipment, coating machines, packaging equipment, and environmental protection facilities.
Processing Flow:
Raw Material Preparation > Crushing & Screening > Mixing > Granulation > Drying & Screening > Coating > Packaging
Phosphorus Chemical Process Package
Fine phosphates are highly purified phosphate compounds that undergo specific chemical modification, or possess precisely defined physical forms. They are no longer simple fertilizer raw materials but function as critical additives or key components in high-tech industrial and consumer applications demanding exceptional purity, performance, and consistency.
Core Characteristics: High purity, specific chemical composition & structure, precise physical properties.
Primary Applications: pH regulation & buffering, chelation/complexation, water retention/thickening, emulsification/stabilization, fermentation nutrition/leavening, scale inhibition/corrosion inhibition, nutritional fortification, ionic conductivity/structural stability, flame retardant.
Ammonium sulfate granules
EMCC Ammonium Sulfate Granules feature a purity of over 99%, presenting as white, uniform particles with minimal heavy metals, chlorine ions, and other harmful impurities. With a stable nitrogen content of 20.5%–21% and sulfur content of 23%–24%, the ammonium nitrogen is readily absorbed by crops. Suitable for wheat, corn, fruit trees, and more. Direct from the manufacturer with free technical guidance available.
Learn More > Get Solutions >