Monoammonium phosphate (MAP) is a widely used fertilizer that provides essential nutrients to plants, particularly nitrogen and phosphorus. Here are some key points about monoammonium phosphate: Nutrient Composition: MAP is composed of ammonium ions and phosphate ions. It contains both nitrogen and phosphorus, making it a valuable fertilizer for promoting plant growth. Solubility: Monoammonium phosphate is highly water-soluble, allowing for easy application as a liquid fertilizer or in irrigation systems. pH: MAP tends to be slightly acidic, which can contribute to lowering the pH of the soil. This can be beneficial in alkaline soils or for crops that prefer slightly acidic conditions. Fertilizer Use: It is commonly used in agriculture as a source of both nitrogen and phosphorus. The ammonium nitrogen in MAP is readily available for plant uptake, while phosphorus is crucial for root development, flowering, and fruiting. Application: MAP is often used as a granular fertilizer that can be broadcast on the soil surface. It can also be dissolved in water and applied as a liquid fertilizer. Compatibility: MAP is generally compatible with other fertilizers, and it can be used in combination with them to provide a broader spectrum of nutrients. Uses in Different Crops: MAP is suitable for a variety of crops, including grains, fruits, vegetables, and legumes. It is particularly useful for crops that require a balanced supply of nitrogen and phosphorus during their growth stages. Storage: Monoammonium phosphate (MAP) should be stored in a cool, dry place to prevent moisture absorption and caking. Environmental Impact: Like other fertilizers, the application of MAP should be done responsibly to minimize environmental impact, such as nutrient runoff into water bodies. Safety Considerations: When handling MAP, it's important to follow safety guidelines and use appropriate protective equipment to prevent skin or eye contact and inhalation.
Ammonium sulfate is a common inorganic salt. It contains two ammonium ions and one sulfate ion. This salt is widely used in various applications, including agriculture, industrial processes, and laboratory settings. Here are some key points about ammonium sulfate: Nitrogen and Sulfur Content: Ammonium sulfate is a good source of both nitrogen and sulfur. The nitrogen is in the ammonium form, making it readily available for plants. Solubility: Ammonium sulfate is highly soluble in water, allowing it to be easily dissolved for use in liquid fertilizers or irrigation systems. Fertilizer Use: It is commonly used as a nitrogen and sulfur fertilizer in agriculture to provide essential nutrients for plant growth. The nitrogen in ammonium sulfate is gradually released, providing a sustained nutrient supply to plants. Acidity: Ammonium sulfate is acidic in nature, and its application can contribute to lowering the pH of the soil. This can be beneficial in alkaline soils or for crops that prefer slightly acidic conditions. Soil Amendment: In addition to providing nutrients, ammonium sulfate can also serve as a soil amendment for improving certain soil characteristics. Industrial Applications: Ammonium sulfate is used in various industrial processes, including the production of textiles, dyes, and flame retardants. It is also employed in certain chemical reactions and as a precipitant in laboratories. Yeast Nutrient: In the brewing industry, ammonium sulfate is sometimes used as a yeast nutrient in the fermentation process. Compatibility: Ammonium sulfate is generally compatible with other fertilizers, and it can be used in combination with them to provide a balanced nutrient profile. Safety Considerations: When handling ammonium sulfate, it's important to follow safety guidelines and use appropriate protective equipment to prevent skin or eye contact and inhalation. Storage: Ammonium sulfate should be stored in a cool, dry place to prevent moisture absorption.
NPK refers to a set of three essential nutrient elements that are crucial for plant growth. NPK stands for Nitrogen (N), Phosphorus (P), and Potassium (K). These three elements are primary macronutrients required by plants in relatively large quantities. Here's a brief overview of each: Nitrogen (N): Nitrogen is a key component of amino acids, proteins, and chlorophyll. It plays a vital role in promoting vegetative growth, leaf development, and overall plant vigor. Nitrogen deficiency can lead to stunted growth, yellowing of leaves (chlorosis), and decreased yield. Phosphorus (P): Phosphorus is essential for energy transfer and storage in plants. It is a key component of nucleic acids (DNA and RNA) and is involved in cell division and development of roots, flowers, and fruits. Phosphorus deficiency can result in poor root development, delayed flowering, and reduced fruit and seed production. Potassium (K): Potassium is important for enzyme activation, water uptake, and osmoregulation in plants. It enhances disease resistance, stress tolerance, and overall plant health. Potassium deficiency may lead to weakened cell walls, reduced drought tolerance, and increased susceptibility to diseases. NPK Fertilizers: NPK fertilizers are formulated to provide a balanced combination of nitrogen, phosphorus, and potassium in varying proportions. The ratio of N:P:K in a fertilizer is represented by three numbers on the product label. For example, a fertilizer with the ratio 10-20-10 means it contains 10% nitrogen, 20% phosphorus, and 10% potassium by weight. Common NPK Ratios: Different crops and growth stages may have specific nutrient requirements, so various NPK formulations are available. Common ratios include 10-10-10, 20-20-20, 5-10-10, etc. Application: NPK fertilizers are applied to soil or plants to supplement nutrient levels, promote balanced growth, and improve crop yield and quality. The choice of NPK formulation depends on the specific needs of the crops being grown and the nutrient levels in the soil. Environmental Considerations: Proper application of NPK fertilizers is crucial to prevent nutrient runoff and environmental pollution. Sustainable and precision agriculture practices aim to optimize fertilizer use, reducing the environmental impact. When using NPK fertilizers, it's important to follow recommended application rates, consider soil nutrient levels, and adhere to responsible agricultural practices to achieve optimal plant nutrition while minimizing environmental impact.
Specification for Scrap RAM (Random Access Memory) $18/kg Product Name: Scrap RAM (Random Access Memory) Material: Integrated circuits and modules removed from various electronic devices, primarily computers Composition: Contains integrated circuit boards with memory chips (DRAM or SRAM) Small amounts of precious metals (gold, silver) and other metals (copper, tin) Components free from excessive plastic or other non-metallic attachments Condition: Should be intact and identifiable as RAM modules Preferably without physical damage or deformation that affects recycling efficiency Packaging: Packed securely in suitable containers or pallets Each batch clearly labeled with details including RAM type and weight Packaging designed to prevent physical damage during transit and handling Size: Various sizes and shapes depending on the original module type (e.g., DIMM, SIMM) Generally compact and suitable for ease of handling and transportation Applications: Valuable for recycling and recovery of precious metals (gold, silver) and other valuable materials Used in refining processes to extract precious metals and recover other recyclable materials from electronic waste Origin: Derived from obsolete or surplus computer systems and other electronic equipment Typically collected through electronic waste recycling programs or industrial sources Price: Priced at $18 per kilogram (or equivalent unit) Price subject to market fluctuations and quantity discounts Certifications: Documentation confirming the origin and composition of the scrap Compliance with environmental and recycling standards (e.g., EPA regulations) Note: Specifications for Scrap RAM may vary depending on market conditions, supplier agreements, and specific requirements for electronic waste recycling and precious metal recovery.
Specification for Soybeans General Information Product Name Soybeans Botanical Name Glycine max Origin Country of Origin Harvest Period Harvest Period Batch Number Batch Number Date of Production Production Date Physical and Chemical Properties Appearance Yellow to light brown spherical beans Size 510 mm in diameter Odor Neutral characteristic of soybeans Flavor Mild characteristic of soybeans Moisture Content 13 Purity 99 Foreign Matter 1 BrokenSplit Beans 2 Defective Beans 3 Nutritional Information per 100g Energy 446 kcal Protein 36 g Total Fat 20 g Saturated Fat 3 g Monounsaturated Fat 4 g Polyunsaturated Fat 11 g Total Carbohydrates 30 g Dietary Fiber 9 g Sugars 7 g Cholesterol 0 mg Sodium 2 mg Calcium 277 mg Iron 157 mg Potassium 1797 mg Vitamin C 6 mg Vitamin A 22 IU Contaminants Pesticide Residues Within permissible limits Heavy Metals Lead Cadmium Arsenic Within permissible limits Mycotoxins Within permissible limits Storage and Handling Storage Conditions Store in a cool dry place away from direct sunlight and strong odors Shelf Life Up to 12 months if stored under proper conditions Packaging Polypropylene PP bags 25 kg 50 kg Bulk in containers Quality Assurance Certifications List any relevant certifications eg ISO 22000 Organic Inspection Each batch is tested and certified by Name of Testing Laboratory to ensure compliance with the above specifications Documentation Certificate of Analysis COA provided with each shipment Compliance Regulations Compliant with local and international standards for food safety and quality Safety Data Sheet SDS Provided upon request
Physical and Chemical Properties Appearance Black kidneyshaped beans Size Uniform typically 0508 cm in length Odor Neutral characteristic of black beans Flavor Mild slightly nutty Moisture Content 14 Purity 99 Foreign Matter 05 BrokenSplit Beans 3 Defective Beans 2 Nutritional Information per 100g Energy 333 kcal Protein 24 g Total Fat 1 g Saturated Fat 02 g Total Carbohydrates 60 g Dietary Fiber 25 g Sugars 2 g Cholesterol 0 mg Sodium 5 mg Calcium 83 mg Iron 5 mg Potassium 1400 mg Vitamin C 0 mg Vitamin A 0 IU Contaminants Pesticide Residues Within permissible limits Heavy Metals Lead Cadmium Arsenic Within permissible limits Mycotoxins Within permissible limits Storage and Handling Storage Conditions Store in a cool dry place away from direct sunlight and strong odors Shelf Life Up to 24 months if stored under proper conditions Packaging Polypropylene PP bags 25 kg 50 kg Bulk in containers Quality Assurance Certifications List any relevant certifications eg ISO 22000 Organic Inspection Each batch is tested and certified by Name of Testing Laboratory to ensure compliance with the above specifications Documentation Certificate of Analysis COA provided with each shipment Compliance Regulations Compliant with local and international standards for food safety and quality Safety Data Sheet SDS Provided upon request
Physical and Chemical Properties Appearance Semisolid at room temperature light yellow to goldenyellow liquid when melted Odor Neutral characteristic of palm oil Flavor Neutral Free Fatty Acids FFA 5 as Palmitic Acid Moisture Impurities 01 Peroxide Value 10 meq Okg Iodine Value 5055 g I100g Saponification Value 190209 mg KOHg Unsaponifiable Matter 15 Specific Gravity at 40C 08890895 gcm Refractive Index at 40C 14541456 Fatty Acid Composition Palmitic Acid C160 4046 Stearic Acid C180 46 Oleic Acid C181 3744 Linoleic Acid C182 912 Myristic Acid C140 12 Nutritional Information per 100g Energy 884 kcal Total Fat 100 g Saturated Fat 50 g Monounsaturated Fat 40 g Polyunsaturated Fat 10 g Cholesterol 0 mg Sodium 0 mg Carbohydrates 0 g Protein 0 g Vitamin E 15 mg 100 DV Contaminants Pesticide Residues Within permissible limits Heavy Metals Lead Cadmium Arsenic Within permissible limits Polycyclic Aromatic Hydrocarbons PAHs Within permissible limits Storage and Handling Storage Conditions Store in a cool dry place away from direct sunlight and strong odors Shelf Life Up to 12 months if stored under proper conditions Packaging Drums 200 liters Intermediate Bulk Containers IBCs Bulk in tankers Quality Assurance Certifications List any relevant certifications eg RSPO ISO 22000 Inspection Each batch is tested and certified by Name of Testing Laboratory to ensure compliance with the above specifications Documentation Certificate of Analysis COA provided with each shipment Compliance Regulations Compliant with local and international standards for palm oil Safety Data Sheet SDS Provided upon request
Specification for Used Cooking Oil General Information Product Name Used Cooking Oil UCO Source Vegetable oils such as palm oil soybean oil sunflower oil etc used in food processing or cooking Origin Country of Origin Batch Number Batch Number Date of Collection Collection Date Physical and Chemical Properties Appearance Yellow to brown liquid Odor Characteristic may have a slight rancid odor Free Fatty Acids FFA 5 as Oleic Acid Moisture Impurities 10 Density at 20C 091 093 gcm Iodine Value 75 95 g I100g Saponification Value 180 200 mg KOHg Unsaponifiable Matter 2 Peroxide Value 10 meq Okg Acid Value 6 mg KOHg Contaminants Heavy Metals eg Lead Cadmium Arsenic Within permissible limits Polycyclic Aromatic Hydrocarbons PAHs Within permissible limits Storage and Handling Storage Conditions Store in a cool dry place away from direct sunlight Shelf Life Up to 12 months if stored under proper conditions Packaging Bulk in ISO tanks or flexitanks Drums 200 liters Intermediate Bulk Containers IBCs Applications Biodiesel Production Used as feedstock for biodiesel manufacturing Industrial Uses Lubricants soaps animal feed and other industrial applications Quality Assurance Certifications List any relevant certifications eg ISCC RSPO Inspection Each batch is tested and certified by Name of Testing Laboratory to ensure compliance with the above specifications Documentation Certificate of Analysis COA provided with each shipment Compliance Regulations Compliant with local and international standards for used cooking oil Safety Data Sheet SDS Provided upon request
Aluminum Scrap Specification 1. General Requirements Material: Aluminum scrap, free from iron, steel, and other contaminants. Form: The scrap may be in various forms, including but not limited to, sheets, turnings, castings, extrusions, or beverage cans. Color: Predominantly silver, may include anodized or coated pieces. 2. Quality Standards Purity: Minimum 95% aluminum content. Contaminants: Non-aluminum metals (e.g., copper, zinc): Max 2%. Organic material (e.g., paint, plastic): Max 1%. Moisture: Max 0.5%. Dirt and other non-metallic impurities: Max 1%. 3. Physical Characteristics Size: Sheets: No dimension exceeding 1 meter. Turnings: Free-flowing, dry, with no clusters exceeding 20 cm in diameter. Castings and extrusions: No piece exceeding 50 cm in any dimension. Weight: Scrap should be delivered in bulk or bundled form, each bundle not exceeding 1 metric ton. 4. Packaging Bulk: Loose scrap should be delivered in durable containers suitable for handling and transport. Bundles: Bundled scrap should be securely tied and stable for transport and handling. 5. Delivery Inspection: Material will be inspected upon receipt for compliance with the specified requirements. Documentation: Each shipment should be accompanied by a certificate of analysis indicating the aluminum content and a detailed list of any contaminants present. 6. Safety and Environmental Considerations Handling: Scrap must be free from hazardous materials and handled in a manner compliant with local safety regulations. Environmental: Supplier must adhere to all relevant environmental regulations regarding the recycling and transport of aluminum scrap.
Aluminium is the most abundant metal and the third most common element on the planet, accounting for 8% of its crust. Aluminium is widely reckoned for recyclable nature, environment-friendly nature and high ductility. Aluminium recycling is one the worldâ??s fastest-growing industry. We deal with all grades of aluminium scrap and ingots & process aluminium scrap using advanced facilities by ensuring purity and quality. Aluminum Scrap Specification 1. General Requirements Material: Aluminum scrap, free from iron, steel, and other contaminants. Form: The scrap may be in various forms, including but not limited to, sheets, turnings, castings, extrusions, or beverage cans. Color: Predominantly silver, may include anodized or coated pieces. 2. Quality Standards Purity: Minimum 95% aluminum content. Contaminants: Non-aluminum metals (e.g., copper, zinc): Max 2%. Organic material (e.g., paint, plastic): Max 1%. Moisture: Max 0.5%. Dirt and other non-metallic impurities: Max 1%. 3. Physical Characteristics Size: Sheets: No dimension exceeding 1 meter. Turnings: Free-flowing, dry, with no clusters exceeding 20 cm in diameter. Castings and extrusions: No piece exceeding 50 cm in any dimension. Weight: Scrap should be delivered in bulk or bundled form, each bundle not exceeding 1 metric ton. 4. Packaging Bulk: Loose scrap should be delivered in durable containers suitable for handling and transport. Bundles: Bundled scrap should be securely tied and stable for transport and handling. 5. Delivery Inspection: Material will be inspected upon receipt for compliance with the specified requirements. Documentation: Each shipment should be accompanied by a certificate of analysis indicating the aluminum content and a detailed list of any contaminants present. 6. Safety and Environmental Considerations Handling: Scrap must be free from hazardous materials and handled in a manner compliant with local safety regulations. Environmental: Supplier must adhere to all relevant environmental regulations regarding the recycling and transport of aluminum scrap.
2. Specifications: Material: Copper wire with various degrees of insulation or bare copper. Types: Bare Bright Copper Wire: Clean, uncoated, unalloyed copper wire that is free of any impurities. Insulated Copper Wire: Copper wire with various types of insulation, including PVC (Polyvinyl Chloride), Teflon, rubber, etc. Copper Content: Generally ranges from 95% to 99.9% pure copper, depending on the grade. Gauge/Thickness: Typically ranges from very thin wires (e.g., 18 AWG) to thicker cables (e.g., 2/0 AWG or higher). Condition: Clean: Free from any contaminants or corrosion, suitable for direct recycling. Tinned: Copper wire coated with a thin layer of tin to enhance solderability. Burnt: Copper wire that has undergone burning or oxidation, affecting its physical properties and purity. Packaging: Usually bundled in coils, spools, or loose in containers depending on quantity and logistics requirements. Application: Used as a raw material in the production of new copper products such as electrical wiring, motors, transformers, and various electronic components. Environmental Considerations: Recycling scrap copper wire reduces the need for mining new copper ore, which helps conserve natural resources and reduces energy consumption and greenhouse gas emissions associated with copper production. 3. Quality Standards: Compliance with local and international standards for metal recycling and copper content purity. Adherence to environmental regulations regarding the handling and disposal of scrap materials. Quality control measures to ensure the absence of hazardous materials and proper sorting for optimal recycling efficiency.
Aluminum Specification: Aluminum is a lightweight, silvery-white, and ductile metal known for its high corrosion resistance, excellent thermal and electrical conductivity, and versatility in various applications. It is commonly used in industries such as aerospace, construction, automotive, and packaging. Physical Properties: Density: Approximately 2.70 g/cm�³ Melting Point: 660.3�°C (1220.5�°F) Boiling Point: 2519�°C (4566�°F) Mechanical Properties: Tensile Strength: Varies with alloy, typically ranging from 70 to 700 MPa Yield Strength: Varies with alloy, typically ranging from 30 to 500 MPa Elongation at Break: Varies with alloy, typically from 1% to 30% Hardness: Varies with alloy, typically from 20 to 120 HB Chemical Composition: Pure aluminum is composed of 99.0% to 99.9% aluminum. Common alloying elements include copper, manganese, silicon, magnesium, and zinc. Thermal Properties: Thermal Conductivity: 205 W/m�·K (at 20�°C) Coefficient of Thermal Expansion: 23.1 x 10â?»â?¶ /K Electrical Properties: Electrical Conductivity: 37.7 x 10â?¶ S/m (at 20�°C) Corrosion Resistance: Excellent resistance to atmospheric corrosion due to the formation of a protective oxide layer. Good resistance to corrosion in marine environments and many industrial chemicals. Formability and Machinability: Highly ductile and can be easily formed into various shapes through processes like rolling, extruding, and drawing. Machinability varies with the alloy, with some aluminum alloys offering better machinability than others. Common Applications: Aerospace: Airplane fuselages, wings, and other structural components. Automotive: Engine components, wheels, and body panels. Construction: Window frames, roofing, and structural components. Packaging: Beverage cans, foil, and containers. Electrical: Conductors, wiring, and electronic components. Surface Treatment: Aluminum can be anodized, painted, or coated to enhance its surface properties and appearance. Recyclability: Aluminum is highly recyclable and retains its properties after recycling, making it a sustainable material choice. Standards and Grades: Common standards include ASTM B209 for aluminum sheet and plate, ASTM B221 for aluminum extruded bars, rods, wire, profiles, and tubes. Grades and tempers vary depending on the specific application and alloy composition.
Aluminum Specification: Aluminum is a lightweight, silvery-white, and ductile metal known for its high corrosion resistance, excellent thermal and electrical conductivity, and versatility in various applications. It is commonly used in industries such as aerospace, construction, automotive, and packaging. Physical Properties: Density: Approximately 2.70 g/cm�³ Melting Point: 660.3�°C (1220.5�°F) Boiling Point: 2519�°C (4566�°F) Mechanical Properties: Tensile Strength: Varies with alloy, typically ranging from 70 to 700 MPa Yield Strength: Varies with alloy, typically ranging from 30 to 500 MPa Elongation at Break: Varies with alloy, typically from 1% to 30% Hardness: Varies with alloy, typically from 20 to 120 HB Chemical Composition: Pure aluminum is composed of 99.0% to 99.9% aluminum. Common alloying elements include copper, manganese, silicon, magnesium, and zinc. Thermal Properties: Thermal Conductivity: 205 W/m�·K (at 20�°C) Coefficient of Thermal Expansion: 23.1 x 10â?»â?¶ /K Electrical Properties: Electrical Conductivity: 37.7 x 10â?¶ S/m (at 20�°C) Corrosion Resistance: Excellent resistance to atmospheric corrosion due to the formation of a protective oxide layer. Good resistance to corrosion in marine environments and many industrial chemicals. Formability and Machinability: Highly ductile and can be easily formed into various shapes through processes like rolling, extruding, and drawing. Machinability varies with the alloy, with some aluminum alloys offering better machinability than others. Common Applications: Aerospace: Airplane fuselages, wings, and other structural components. Automotive: Engine components, wheels, and body panels. Construction: Window frames, roofing, and structural components. Packaging: Beverage cans, foil, and containers. Electrical: Conductors, wiring, and electronic components. Surface Treatment: Aluminum can be anodized, painted, or coated to enhance its surface properties and appearance. Recyclability: Aluminum is highly recyclable and retains its properties after recycling, making it a sustainable material choice. Standards and Grades: Common standards include ASTM B209 for aluminum sheet and plate, ASTM B221 for aluminum extruded bars, rods, wire, profiles, and tubes. Grades and tempers vary depending on the specific application and alloy composition.
Description: UBC scrap refers to Used Beverage Can scrap, which consists of aluminum cans that have been discarded after use. These cans are typically collected for recycling purposes due to the valuable aluminum content they contain. UBC scrap is a crucial raw material in the aluminum recycling industry, contributing significantly to the production of new aluminum products. Specifications for UBC Scrap: Material Composition: UBC scrap consists primarily of used aluminum beverage cans. The cans should be free from any other materials such as plastic, glass, or organic matter. Size and Form: UBC scrap should be compacted or shredded aluminum cans. Individual cans should be flattened or crushed to facilitate handling and transportation. Purity and Contaminants: UBC scrap should have minimal contamination from non-aluminum materials. Contaminants such as food residue, labels, and coatings should be removed to the extent possible. Chemical Composition: Aluminum content should typically be high, with purity levels suitable for recycling into new aluminum products. Alloy specifications may vary depending on regional standards and recycling processes. Packaging and Transport: UBC scrap is usually packaged in bales, bundles, or loose depending on the recycling facility's requirements. Packaging should be suitable for transportation and storage, ensuring minimal damage and loss during handling. Environmental Considerations: UBC scrap should meet environmental regulations regarding recycling and disposal of used aluminum cans. Recycling processes should comply with local environmental standards to minimize environmental impact. Quality Standards: Quality standards for UBC scrap may include specifications on size consistency, cleanliness, and purity levels. Compliance with industry standards ensures the scrap is suitable for efficient recycling processes. Application: UBC scrap is used as a feedstock for aluminum smelting and recycling operations. It plays a crucial role in the circular economy by conserving natural resources and reducing energy consumption compared to primary aluminum production. Testing and Inspection: UBC scrap may undergo testing and inspection to verify compliance with specified standards. Quality control measures may include visual inspection, chemical analysis, and physical testing to ensure suitability for recycling. Market Considerations: Prices for UBC scrap may vary based on global aluminum market trends, demand-supply dynamics, and recycling efficiencies. Market participants include scrap dealers, recyclers, aluminum manufacturers, and industries utilizing recycled aluminum. By adhering to these specifications, UBC scrap can be effectively managed, processed, and recycled to contribute to sustainable resource management and environmental conservation efforts.
Ship scrap.
Aluminum cans Circa 20 mt per container.
Ships, marine engines, ship spare parts.Crew manning, technical management of ship, maintainance, quality check
Old vessel for ship breaking.