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Hooran Home | Products | Product Single Agriculture Gypsum Agriculture Gypsum ProductAgriculture Gypsum PriceCall Source AreaIRAN Extraction Year2024 Chemical FamilyCalcium Sulphate D TagRaw Materials / Minerals BROCHURES Brochures.PDF DataSheet.PDF ImageImageImageImage Product DESCRIPTION Gypsum, also known as calcium sulfate dihydrate (CaSO4�·2H2O), is a naturally occurring mineral commonly found in sedimentary rocks. It is formed through the evaporation of ancient seawater or the precipitation of mineral-rich groundwater. Gypsum is widely used in agriculture for various purposes due to its unique properties. Here's a description of gypsum in agriculture: Soil Amendment: Gypsum is utilized as a soil amendment to improve soil structure and fertility. It helps to loosen compacted soils, enhance drainage, and improve aeration. Gypsum's calcium content also helps to reduce soil acidity, thus improving the soil's pH balance. Nutrient Source: Gypsum provides essential calcium and sulfur nutrients to plants. Calcium is crucial for cell wall formation, root growth, and overall plant development. Sulfur is a vital component of amino acids, vitamins, and enzymes, playing a key role in plant metabolism and protein synthesis. Alleviation of Soil Salinity: Gypsum is effective in mitigating soil salinity, which occurs when soluble salts accumulate in the soil, inhibiting plant growth. Gypsum helps to displace sodium ions bound to soil particles, promoting their leaching from the root zone and reducing soil salinity. Improvement of Water Infiltration: By enhancing soil structure and reducing surface crusting, gypsum improves water infiltration and retention in the soil. This aids in reducing water runoff, erosion, and nutrient leaching, thereby enhancing water use efficiency in agricultural systems. Amelioration of Soil Toxicity: Gypsum can help alleviate soil toxicity caused by excess levels of certain elements such as aluminum and manganese. It binds with these toxic elements, reducing their availability to plants and minimizing their detrimental effects on plant growth. Enhancement of Crop Yields: Application of gypsum has been shown to increase crop yields and quality in various agricultural systems. By improving soil conditions, nutrient availability, and water management, gypsum contributes to healthier plant growth and higher productivity. Overall, gypsum serves as a valuable agricultural input for improving soil quality, nutrient availability, and crop performance. Its use contributes to sustainable agriculture practices by promoting soil health and productivity while minimizing environmental impacts.
Zeolites are fascinating minerals with a wide range of uses due to their unique properties. Here are some of their main applications: Water purification: Zeolites have a porous structure that allows them to effectively adsorb and remove heavy metals, ammonia, and other contaminants from water. They are commonly used in both municipal and industrial water treatment systems. Air purification: Similar to their use in water purification, zeolites can also adsorb volatile organic compounds (VOCs), odors, and other pollutants from the air. They are used in air filters for homes, offices, and industrial facilities to improve indoor air quality. Detergents: Zeolites are often included in laundry detergents as water softeners. They can exchange calcium and magnesium ions in hard water with sodium ions, preventing the formation of scale and improving the effectiveness of the detergent. Catalysis: Zeolites have a crystalline structure with uniform pore sizes, making them excellent catalysts for various chemical reactions. They are used in petroleum refining, petrochemical production, and other industrial processes to speed up reactions and increase yields. Gas separation: The molecular sieving properties of zeolites make them useful for separating gases. They can selectively adsorb certain gases while allowing others to pass through, which is valuable in applications such as oxygen production, gas purification, and natural gas processing. Nuclear waste remediation: Zeolites can immobilize radioactive ions, making them useful for the cleanup and storage of nuclear waste. They can trap radioactive isotopes within their porous structure, reducing the risk of environmental contamination. Animal feed additives: Zeolites are sometimes added to animal feed to improve digestion and absorb toxins in the gastrointestinal tract. This can help prevent diseases and improve the overall health of livestock. Construction materials: Due to their high porosity and ability to adsorb moisture, zeolites are used in construction materials such as concrete and plaster to enhance their durability and moisture resistance.
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Soda ash light / dense 99.2% sodium bicarbonate caustic soda flakes 99% sodium sulphate anhydrous (ssa) 99% sodium sulphite flakes (ssf) 60% sodium metabisulphate hydrogen peroxide (h2o2) 50% formic acid 85% glacial acetic acid paraffin wax liquid paraffin (white oil) lp 100 menthol crystal fumed silica deg (di ethylene glycol) mono ethylene glycol (meg) poly ethylene glycol (peg), base oil 150n, bs 150, 600n bitumen 60/70 rpo (rubber process oil) lioh (lithium hydroxide) hco (hydrogenated castor oil) 12 hsa (hydroxy stearic acid) ferrous sulphate heptahydrate additive for lubricating oil aromatic chemicals.Exporting of chemicals & other products
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