Chemical advantage
1. Optimized the structure of the reacting furnace witch increased the service time of the furnace.
2. Waste recovery system to recycle hydrochloride acid (HCl) and meet environment requirements
3. Adjusted original HCl absorption system, improved on the quality of the final product.
4. Improved the flue design in the furnace which can make full use of energy and save energy consumption.
5. Used PLC automatic control system to control manufacturing the products, adjust the ratio of feedstock, and saved the labor cost.
Overall operation advantage
1.Professional logistic team, rich experience on container transportation and bulk transport.
2. Powerful customs clearance ability.
3. Complete database of cargoes, especially detailed information for set of SOP .etc equipment suppliers and shipping.
4. Strong ability to integrate the export and import documents. Such as customs clearance documents, C/O, and embassy certification documents, etc.
Supplier: Soda ash, urea 46 fertilizers, adblue, lead ingots, lead powder, npk fertilizers, rock phosphate, gypsum, base oil, white spirit, potassium chloride kcl, ammonium nitrate, ammonium sulphate, caustic soda, , triple super phosphate (tsp), potassium chloride (mop), diammonium phosphate (dap), sulphate of potash (sop), commercial epsom salt (ces), melamine, urea melamine formaldehyde, urea formaldehyde concentrate 85%, para formaldehyde 96%, wheat, wheat flour, yellow corn, sunflower oil.
Services: General trading in raw materials, supply chain, contracting.
Buyer: Chemicals, petrochemicals
Water Soluble Fertilizer.
Urea Formaldehyde Concentrate (UFC 65) is a clear and viscous liquid, composed of formaldehyde, urea and water. It provides high concentration of formaldehyde commercially available in an easy-to-use form. Applications It is used in production of aminoplast resins such as urea formaldehyde adhesives, UF and MUF impregnation resins. It is used as anti-caking agent in the process of urea production.
Urea formaldehyde is a type of thermosetting resin that is produced by the reaction of urea and formaldehyde. This resin is commonly used in the production of adhesives, particularly for wood products such as particleboard, medium-density fiberboard (MDF), and plywood. The resin provides excellent bonding properties and is valued for its water resistance and durability. Urea Formaldehyde Concentrate (UFC 85) is a clear and viscous liquid, composed of formaldehyde, urea and water. It provides high concentration of formaldehyde commercially available in an easy-to-use form.
P. Urea is white, solid, odorless or slightly ammoniacal, water soluble, produced in both granular, prills, or pastilles with nitrogen content of %46 . Urea is the most popular and economical of all nitrogenous fertilizers being used worldwide, the highest nitrogen concentration in the available solid conditions.
We are manufacturer here in ukraine for various types of fertilizers .
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.
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.
Diammonium phosphate (DAP) is a widely used fertilizer that provides a high concentration of phosphorus and nitrogen nutrients. It is composed of two ammonium ions and one phosphate ion. DAP is a water-soluble salt and is often used in agricultural settings to enhance plant growth. Here are some key points about diammonium phosphate: Nutrient Composition: Diammonium phosphate is a good source of both nitrogen and phosphorus, with nitrogen content in the ammonium form and phosphorus in the phosphate form. The nitrogen in DAP is readily available for plants, while phosphorus is essential for root development, flowering, and fruiting. Solubility: Diammonium phosphate is highly water-soluble, making it easy to apply as a liquid fertilizer or to dissolve in irrigation systems. pH and Acidity: DAP tends to be slightly acidic, which can contribute to lowering the pH of the soil over time. It is essential to monitor soil pH when using fertilizers to prevent overly acidic conditions. Application: DAP is commonly used as a dry granular fertilizer that can be broadcast on the soil surface. It can also be dissolved in water and applied as a liquid fertilizer through irrigation systems, providing quick nutrient availability to plants. Uses: Diammonium phosphate is suitable for a variety of crops, including grains, fruits, vegetables, and legumes. It is often used during the early stages of plant growth to promote root development. Storage: DAP should be stored in a cool, dry place to prevent moisture absorption and caking. Safety Considerations: When handling DAP, it's important to follow safety guidelines and use appropriate protective equipment to prevent skin or eye contact and inhalation. Compatibility: Diammonium phosphate is compatible with many other fertilizers and can be used in combination with them to provide a broader spectrum of nutrients. Environmental Impact: Like other fertilizers, the application of DAP should be done responsibly to minimize environmental impact, such as nutrient runoff into water bodies.