Potassium Iodide And Iodine Salts.
Soya fatty acid.
Soda ash, sodium bicarbonate, calcium chloride, magnesium chloride, aluminum sulfate, caustic soda, PAC, PVC and other chemical products, citric acid, xanthan gum, potassium sorbate and other food additives..
Potassium chloride (KCl) is a chemical compound composed of potassium and chlorine. It is a white crystalline salt with the chemical formula KCl. Potassium chloride is widely used in various applications, including agriculture, food processing, medical treatments, and industrial processes. Here are some key points about potassium chloride: Solubility: Potassium chloride is highly soluble in water, which makes it suitable for use in liquid fertilizers and irrigation systems. Agricultural Use: Potassium chloride is a common source of potassium in fertilizers. Potassium is an essential nutrient for plant growth, contributing to processes like photosynthesis, enzyme activation, and osmoregulation. It is particularly beneficial for crops that have a high demand for potassium, such as fruits and vegetables. Fertilizer Grades: Potassium chloride is available in different fertilizer grades, with varying concentrations of potassium. The two primary grades are Muriate of Potash (MOP) and Sulfate of Potash (SOP). Industrial Applications: Potassium chloride is used in various industrial processes, including the production of certain chemicals, pharmaceuticals, and metal processing. It is employed in water softening systems to replace calcium and magnesium ions with potassium ions. Food Additive: In the food industry, potassium chloride is used as a salt substitute for individuals seeking to reduce their sodium intake. It is often found in low-sodium or "lite" products. Medical Uses: Potassium chloride is used medically, both as a supplement for individuals with potassium deficiencies and as part of intravenous fluids. It is also used in certain medical tests and diagnostic procedures. Compatibility: Potassium chloride is generally compatible with other fertilizers, and it can be used in combination with them to provide a balanced nutrient profile for plants. Safety Considerations: While potassium chloride is generally recognized as safe when used appropriately, excessive intake can have health implications. Individuals with certain medical conditions, such as kidney problems, may need to monitor their potassium intake. Environmental Impact: The application of potassium chloride in agriculture should be done responsibly to minimize environmental impact, such as nutrient runoff into water bodies.
Potassium chloride (KCl) is a chemical compound composed of potassium and chlorine. It is a metal halide salt and is often used in various applications, both industrial and medical. Here are some key aspects of potassium chloride: Chemical Formula: KCl Elements: It consists of potassium (K) and chlorine (Cl). Appearance: Potassium chloride is typically a white crystalline powder or colorless crystals. Solubility: It is highly soluble in water. Occurrence: Potassium chloride occurs naturally in the form of minerals such as sylvite and carnallite. These minerals are often found in underground deposits. As Ark Global Kimya, we do Potassium chloride wholesale and export in Turkey
CAS Number: 68308-53-2 Obtained by splitting and the subsequent vacuum distillation of soybean oil. The product obtained has a melting point above 25 C. Solid yellow or clear fluid at room temperature. Rich in linoleic acid and less in oleic acid. Soya Fatty acids are used among others application's: Amines, betaines, esters, fatty alcohols, lubricants, surface finishes, detergents, cosmetics and personal care, and solid liquid soaps, textile finishing, leather finishing, finishing fibers, coatings, resins, and surfactants.
CAS Number: 68424-45-3 It is obtained by splitting and the subsequent vacuum distillation of linseed oil. The product obtained has a melting point above 19 C. When in its liquid state it is pale yellow. Linolenic acid-richLinseed. Fatty acids are used among others aplications: Amines, betaines, esters, fatty alcohols, lubricants, surface finishes, technical detergents, liquid soaps and solids, textile finishing, leather finishing, finishing fibers, coatings, resins, surfactants.
CAS Number: 67701-05-7 Is obtained by splitting and the subsequent vacuum distillation of coconut oil. The product obtained has a melting point above 25 C. It is solid at room temperature, opaque white and with a pungent smell. Unlike other fatty acids, it is characterized by the presence of caprylic acid (up to 10%). Rich in lauric acid. Coconut Fatty acids are used among others applications: Amines, betaines, esters, fatty alcohols, detergents, cosmetics and personal care, soaps and liquid, textile finishing, leather finishing, finishing fibers, coatings, resins and surfactants.
CAS Number: 84625-38-7 Is obtained by splitting and the subsequent vacuum distillation of sunflower oil. The product obtained has a melting point above 20 C. When in liquid it is pale yellow. Sunflower Fatty acids are used among others applications: Amines, betaines, esters, fatty alcohols, lubricants, surface finishes, cosmetics and personal care, and solid liquid soaps, textile finishing, leather finishing, finishing fibers, coatings, resins, detergents and surfactants.
CAS Number: 67701-08-0 It is obtained by splitting and the subsequent vacuum distillation of rapeseed oil. The product obtained has a melting point above 15 C. When in liquid form, it is bright yellow and with a characteristic odour. Rich in oleic acid. Fatty acids are used, inter alia, in the following sectors: Amines, betaines, esters, fatty alcohols, lubricants, surface finishes, detergents, cosmetics and personal care, and solid liquid soaps, textile finishing, leather finishing, finishing fibers, coatings, resins and surfactants.
CAS Number: 67701-08-0 It is obtained by splitting and the subsequent vacuum distillation of rapeseed oil. The product obtained has a melting point above 15 C. When in liquid form, it is bright yellow and with a characteristic odour. Rich in oleic acid. Fatty acids are used, inter alia, in the following sectors: Amines, betaines, esters, fatty alcohols, lubricants, surface finishes, detergents, cosmetics and personal care, and solid liquid soaps, textile finishing, leather finishing, finishing fibers, coatings, resins and surfactants.
DCO Fatty Acid is used in the manufacture of alkyd resins for paint, surface coating, printing inks & polyamides. Packing : Bulk Tankers, Stainless Steel Drums, ISO Tank, Flexi tank, HDPE Closed Head Drums 190 Kgs Net. It is used Fast Drying Alkyde Resin.
Agricultural and farming product such as fresh fruit, granule brown sugar, areca nut, cacao beans, coffee beans, catechin, ginger, galangal, nutmeg, semi husked coconut and essential oil..Production
Glycerine, cde, pkde, solvents, food chemicals, plasticizers, tall oil & fatty acid, acid and alkali.
Ascorbic acid(vc), sodium ascorbate(vc na), coated ascorbic acid, sodium erythorbate, erythorbic acid, potassium sorbate, sorbic acid, sodium benzoate, sodium gluconate, glucono-delta-lactone, sodium citrate, citric acid, aspartame, acesfulfame k, sodium cyclamate, sodium sacharin, sucralose, xanthan gum, taurine, caffeine anhydrous, vanillin, dextrose anhydrous, dextrose monohydrate, creatine anhydrous, creatine monohydrate, i+g, msg, fermented rice powder.
Soda ash light, soda ash dense, ammonium chloride, sodium nitrate, sodium nitrite, ammonium bicarbonate, barium carbonate.
Ammonium chloride, zinc chloride, potassium nitrate, sodium nitrate, sodium nitrite, sodium gluconate, barium chloride, sttp.
Soda ash, caustic soda flakes + calcium chloride + potassium chloride + sodium bicarbonate.
Potassium chloride, sodium carbonate anhydrous, para toluene sulphonic acid, calcium sulphate, salicylic acid, methyl iodide, potassium iodide.
Fatty acids, glycerine, laundry soaps, toilet soaps.
