Industrially, ferrous sulfate is mainly used as a precursor to other iron compounds. It is a reducing agent, and as such is useful for the reduction of chromate in cement to less toxic Cr compounds. Historically ferrous sulfate was used in the textile industry for centuries as a dye fixative. It is used historically to blacken leather and as a constituent of ink. The preparation of sulfuric acid ('oil of vitriol') by the distillation of green vitriol Iron sulfate has been known for at least 700 years. Iron sulfate is sold as ferrous sulfate, a soil amendment for lowering the pH of a high alkaline soil so that plants can access the soil's nutrients. In horticulture it is used for treating iron chlorosis. Although not as rapid-acting as ferric EDTA, its effects are longer-lasting. It can be mixed with compost and dug into the soil to create a store which can last for years. It is also used as a lawn conditioner, and moss killer. Product Name: Billa Ferrous 13 % Chemical Properties : 1-(7% w/v) Coated Ferrous with Organic substances 2-(6% w/v) EDTA Ferrous Chemical Character: Chemical Trace Elements Easy to Be Absorbed Physical Properties Form : Powder Solubility Fully Water Soluble: Full soluble PH (1g /100ml ): 6-6.5 TDS 10 g / L: 515 ppm Color: White Package: Plastic Gallon Size: 1 kg, 20 kg, Custom demand Place of Origin: Egypt
Several factors affect the amount and composition of salts in soils. Irrigation water quality - The total amount of dissolved salts in the irrigation water, and their composition, influence the soil salinity. Therefore, various parameters, such as source water EC and its minerals content should be tested. Irrigation regimen and type of irrigation system - The higher the water quantity applied, the closer soil salinity is to irrigation water salts concentration. When the soil dries, the concentration of salts in the soil solution is increased. Field's characteristics and agricultural history - A poorly drained soil might reach salinity level that is harmful to the plants and to the whole crop. A soil that was not flushed after a previous growing cycle might contain high level of accumulated salts. Product Name: Billa Remo Salt Chemical Properties : 1-(10.5% w/v) Nitrogen 2-(8% w/v) Magnesium 3-(10% w/v) Calcium Chemical Character: Chemical liquid Elements Easy to Be Absorbed Physical Properties Form : Liquid Solubility Fully Water Soluble: Full soluble PH (1g /100ml ): __ TDS 10 g / L: __ Color: Yellow Package: Plastic Gallon Size: 1 Liter, 5 Liter , 200 Liter, Custom demand Place of Origin: Egypt
Potassium salt of humic acid. It is manufactured commercially by alkaline extraction of brown coal (lignite) Leonhardite to be used mainly as a soil conditioner. The extraction is performed in water with the addition of potassium hydroxide (KOH), sequestering agents and hydrotropic surfactants. Heat is used to increase the solubility of humic acids and hence more potassium humate can be extracted. Potassium humate granules by way of chemical extraction lose their hydrophobic properties and are now soluble. Depending on the source material product quality varies. High quality oxidized lignite (brown coal), usually referred to as leonhardite, is the best source material for extraction of large quantities of potassium humate. The less oxidized the coal the less potassium humate extracted. Used in agriculture as a fertilizer additive to increase the efficiency of fertilizers especially nitrogen and phosphorus based fertilizer inputs. Product Name: Billa Humate Chemical Properties : 1-(15% w/v) Humic 2-(15% w/v) Potassium Humate 3-(5% w/v) Fulvic acid Chemical Character: Chemical liquid Elements Easy to Be Absorbed Physical Properties Form : Liquid Solubility Fully Water Soluble: Full soluble PH (1g /100ml ): __ TDS 10 g / L: __ Color: Dark Brown Package: Plastic Gallon Size: 1 Liter, 5 Liter , 200 Liter, Custom demand Place of Origin: Egypt
The functions of potassium in plant growth are numerous as potassium influences photosynthesis, respiration, translocation and many enzyme systems. Fertilization with potassium when soils are unable to supply sufficient amounts results in large yield responses. Reduced availability of potassium can lead to a reduction in plant growth and occasionally in crop quality .Response from potassium additions is first observed when the rate of regrowth is more rapid following a harvest. The rapid rate of regrowth allows the alfalfa to compete more aggressively against weeds and insects which results in longer stand life. Increased disease resistance may be another factor that can be attributed to potassium fertilization. Potassium is known to improve the level of carbohydrates stored in alfalfa roots. Greater stand persistence is the result of a combination of these factors. Potassium fertilization increases the potassium content of alfalfa and affects the concentration of other elements. It has been observed in numerous cases that whenever a nutrient addition results in large alfalfa yield increases, many, if not all other element concentrations will be reduced. Research indicates that potassium additions tend to increase protein in only a few cases and a more general result is that protein content is decreased. Potassium additions generally reduce calcium, magnesium, sodium and occasionally some of the micronutrients. Experiments including higher rates of applied potassium show that potassium concentration continues to increase long after any yield increase is observed, clearly indicating "luxury consumption". Product name : Billa Potassium 52% Chemical Properties : 1-Potassium (K2o):52%w/v 2-Sulfur (S):1.8%w/v Physical Properties Form : Liquid Solubility Fully Water Soluble : Fully Water Soluble PH (1g /100ml ): 8-8.5 TDS 10 g / L: 980 ppm Color: Â Transparent Package: plastic bottle â?? Drum Size: 1 Liter, 20 Liter, 200 Liter, 1000 Liter Place of Origin: Egypt
â??In N-P-K fertilizers, potassium (K) is the nutrient responsible for plants' metabolism. This makes it helpful in any garden, and it acts as support for the nutrients nitrogen (N) and phosphorus (P). Specifically, potassium aids plants in retaining water, regulates plants' internal cation-anion balance -- meaning the positive and negative ions are in balance -- and aids protein synthesis to energize plants for healthy growth. Phosphorus is involved in the metabolic processes responsible for transferring energy from one point to another in the plant. It's also critical in root development and flowering. Because phosphorus moves slowly through the soil, it's important to work it into the soil, where it's needed by the roots. Potassium helps regulate plant metabolism and affects water pressure regulation inside and outside of plant cells. It is important for good root development. For these reasons, potassium is critical to plant stress tolerance. The effect of various P and K fertilizer application methods (broadcast, deep banding, 2x2 starter and foliar) on soybean yields has been evaluated in university research trials. Broadcast applications have performed equal to or better than the other application methods when soil test levels are above the critical levels. When P and K soil test levels are below the critical levels, band applications are more efficient than broadcast applications Product name : Billa Pho Power Chemical Properties : 1-Potassium (K2o):50%w/v 2-Phosphorus (P):40%w/v Physical Properties Form : Liquid Solubility Fully Water Soluble : Fully Water Soluble PH (1g /100ml ): 8-8.5 TDS 10 g / L: 980 ppm Color: Â Yellow Package: plastic bottle â?? Drum Size: 1 Liter, 20 Liter, 200 Liter, 1000 Liter Place of Origin: Egypt
â??Micronutrients are elements which are essential for plant growth, but are required in much smaller amounts than those of the primary nutrients; nitrogen, phosphorus and potassium. The micronutrients are boron (B),copper (Cu), iron (Fe), manganese (Mn), molybdenum (Mo), zinc (Zn), and chloride (Cl). While chloride is a micronutrient, deficiencies rarely occur in nature, so discussions on supplying micronutrient fertilizers are confined to the other six micronutrients. Deficiencies of micronutrients have been increasing in some crops. Some reasons are higher crop yields which increase plant nutrient demands, use of high analyses NPK fertilizers containing lower quantities of micronutrient contaminants, and decreased use of farmyard manure on many agricultural soils. Micronutrient deficiencies have been verified in many soils through increased use of soil testing and plant analyses. The most common method of micronutrient application for crops is soil application. Recommended application rates usually are less than 10 lb./acre (on an elemental basis), so uniform application of micronutrient sources separately in the field is difficult. Therefore, both granular and fluid NPK fertilizers are commonly used as carriers of micronutrients. Including micronutrients with mixed fertilizers is a convenient method of application and allows more uniform distribution with conventional application equipment. Costs also are reduced by eliminating a separate application. Product name : Billa Mix Chemical Properties : 1-Zinc (Zn):0.5%w/v 2-Iron (Fe):5%w/v 3-Copper (Cu):1%w/v 4-Sulfur (S):5%w/v 5-Molybdenur (Mo):0.85%w/v 6-Citric Acid:1%w/v 7-Scorbic Acid:0.5%w/v Physical Properties Form : Liquid Solubility Fully Water Soluble : Fully Water Soluble PH (1g /100ml ): 5-6 TDS 10 g / L: 900 ppm Color: Â Yellow Package: plastic bottle â?? Drum Size: 1 Liter, 20 Liter, 200 Liter, 1000 Liter Place of Origin: Egypt
Calcium is a main constituent of the cell walls and membranes. When it is in short supply, cell division and the development of the growing point and root tips are affected. Calcium plays a key role in protecting the cell from toxins and in slowing the aging process. Adequate fruit calcium assists in longer storage life and helps stored fruit resist a range of breakdown conditions and rots including, internal breakdown, low temperature breakdown, water core, lenticel breakdown, as well as bitter pit. Boron is needed for the movement of sugars within the plant and in the formation of new cells in growing points of shoots and roots. It is also associated with some of the functions of calcium. Boron affects pollination and the development of viable seeds which in turn affects the normal development of fruit, particularly in grapes and strawberries. A shortage of boron also directly causes cracking and distorted growth in fruit. â?? Billa CalBor Calcium & Boron Complex is organically chelated with lignosulphonate that assists in the absorption of Calcium and Boron into the leaf of the plant in the most rapid and efficient manner. The Calcium & Boron Complex is a foliar liquid fertilizer developed by Agmin Chelates. Product name : Billa Magpot Chemical Properties : 1-Nitrogen (N):10 %w/v 2-Potassium (K2o):5%w/v 3-Magnesium (Mg):8%w/v 4- Sulphur (S):1.8%w/v Physical Properties Form : Liquid Solubility Fully Water Soluble : Fully Water Soluble PH (1g /100ml ): 5-6 TDS 10 g / L: 850 ppm Color: Â Yellow Package: Plastic bottle â?? Drum Size: 1 Liter, 20 Liter, 200 Liter, 1000 Liter Place of Origin: Egypt
Among the mineral nutrient elements, nitrogen is a kind of macronutrient. Most plant species are able to absorb and assimilate nitrate (NO3 â??), ammonium (NH4 +), urea and amino acids as nitrogen sources. Most soils do not have sufficient N in available form to support desired production levels. Therefore, addition of N from fertilizer is typically needed to maximize crop yields. Many kinds of N fertilizers are used which contain varying forms of N such as NO3 â??â??N, NH4 +â??N and urea. However, NO3 â?? form of nitrogen is the predominant form of N absorbed by plants, regardless of the source of applied N (Breteler and Luczak, 1982). This preference is due to several autotrophic soil bacteria, which rapidly oxidize NH4 + to NO2 â??, and then to NO3 â?? in warm, wellâ??aerated soils. Even though NO3 â?? is the most available form of N to plants, it can be more readily lost from the root zone because it is very mobile and easy to leach. This economically and environmentally undesirable process perpetuates a large amount of the uncertainty associated with N fertilizer management. In the soil solution, nitrate is carried towards the root by bulk flow and is absorbed into the epidermal and cortical symplasm. Within the root symplasm, nitrate has four fates: (1) reduced to nitrite by the cytoplasmic enzyme nitrate reductase; (2) efflux back across the plasma membrane to the apoplasm; (3) influx and stored in the vacuole. Product name : Billa Pho Power Chemical Properties : 1-Nitrogen (N):8%w/v 2-Phosphorus (P):22%w/v 3- Amino Acids :10%w/v 4- Ammonium Tetrombybate 5- Vitamin B1 6- Vitamin B2 7- Vitamin B6 8- Vitamin B12 Physical Properties Form : Liquid Solubility Fully Water Soluble : Fully Water Soluble PH (1g /100ml ): 8-8.5 TDS 10 g / L: 980 ppm Color: Â Yellow Package: plastic bottle â?? Drum Size: 1 Liter, 20 Liter, 200 Liter, 1000 Liter Place of Origin: Egypt
Pulse, spices, hydrochloric acid, sulfuric acid, agricultural machine and planter, harvesting machine, st. steel utensils, aluminum utensils, building hardware, hand tools, chemicals.
Anticaking Agent Powder for Water Soluble Fertilizers. OAN 505 is specially designed to prevent the caking of water-soluble fertilizers which contain UREA as a raw material. It has also shown good results with crystalline MAP Fertilizers.
It is used to improve the crushing efficiency of fertilizers, it also helps in the reduction of dust and fines. Packing: 200 KG HDPE Barrel/1 ton IBC.
It forms a thin waxy layer around the granules and repels the moisture present in the environment thus helps in prevent the fertilizers from caking. It also helps in reducing dust & fines. Packaging: 165 KG HDPE barrel / ISO Tanker
Appearance :light yellow powder Water solubility:100% Total amino acid :45% Free amino acid :40% Total nitrogen:17.5% 18types L-amino acids ,plant source
Product Description Dicalcium Phosphate(DCP)Property. Product name : Monodicalcium Phosphate Other name :MDCP CAS number : 7758-23-8 EINECS number : 231-837-1 Molecular formula : CA(H2PO4)2*H2O+CAHPO4*2H2O Molecular weight : 172.09 Characters: white monoclinic crystalline powder, odorless and tasteless. Product Details Monodicalcium Phosphate (MDCP)application:. Uses:used as dough improver, nutritional supplements. Can be used as a feed additive to supplement poultry, livestock feed phosphorus, calcium. especally for baby poultry. As a supplementary feed for poultry, can promote feed digestion to improve the elements the Pand Ca.
Materials of NPK fertilizer
CHELATED EDTA MICRO NUTRIENT OF DIFFERENT GRADES
Specifications CAS Number 64-67-5 Molecular Formula (C2H5)2SO4 Molecular Weight 154.18 Description A clear colorless, odourless liquid. Assay 99.8% (min). Free Acidity 0.1 % w/w (max) Moisture by KF 0.1 % w/w max Specific gravity 1.176- 1.182 Colour on APHA max 25 Boiling Point 208 ° C with decomposition. Soluble Alcohol and Ether. Freezing Point -24.5 oC Flash Point 121 oC (open cup)
Carbamide from Russia Urea more 46% Delievery - FOB Novorossisk Prepaid Quan. - 20000 t/month
Nomenclature:Common name dimethomorph (BSI, draft E-ISO); dime homorphe ((m) draft F-ISO)IUPAC name (E,Z)-4-[3-(4-chlorophenyl)-3-(3,4-dimethoxyphenyl)acryloyl]morpholine Chemical Abstracts name (E,Z)-4-[3-(4-chlorophenyl)-3-(3,4-dimethoxyphenyl)-1-oxo-2-propenyl]morpholine CAS RN [110488-70-5] EEC no. 404-200-2 Development codes CME 151 (Celamerck); SAG 151; WL 127 294 (Shell); AC 336379; CL 183776; CL 336379 (all Cyanamid); BAS 550F Physical Chemistry:Composition (E)- to (Z)- ratio is c. 1:1. Mol. wt. 387.9 M.f. C21H22ClNO4 Form Colourless to off-white powder to crystals. M.p. 125.2-149.2 ; (E)- isomer 136.8-138.3 ; (Z)- isomer 166.3-168.5 V.p. (E)- isomer 9.7 ´ 10-4 ATXht981131 mPaATXht0 ; (Z)- isomer 1.0 ´ 10-3 ATXht981131 mPaATXht0 (both 25 ) KOW logP = 2.63 (E)- isomer; 2.73 (Z)- isomer (both 20 ) Henry (E)- isomer 5.4 ´ 10-6 Pa m3 mol-1; (Z)- isomer 2.5 ´ 10-5 Pa m3 mol-1 S.g./density Bulk density 1318 ATXht981107 kgATXht0 /m3 (20 ) Solubility In water 81.1 (ATXht981151 pHATXht0 5), 49.2 (ATXht981151 pHATXht0 7), 41.8 (ATXht981151 pHATXht0 9) (all in ATXht981123 mgATXht0 /l, 20). In n-heptane 0.12 (E), 0.053 (Z); xylene 22.2 (E), 6.4 (Z); 1,2-dichloroethane 182.5 (E), 92.5 (Z); ethyl acetate 46.6 (E), 9.5 (Z); acetone 105.6 (E), 18 (Z), methanol 33.5 (E), 7.5 (Z) (all in ATXht981123 mgATXht0 /l). In n-hexane 0.11, methanol 39, ethyl acetate 48.3, toluene 49.5, acetone 100, dichloromethane 461 (all for (EZ), in ATXht981123 mgATXht0 /l). Stability Hydrolytically and thermally stable under normal conditions. Stable for >5 years in the dark. The (E)- and (Z)- isomers are interconverted in sunlight. pKa -1.305 (ATXht98124 calc.ATXht0 ) F.p. Not flammable
Nomenclature:Common name tricyclazole (BSI, E-ISO, (m) F-ISO, ANSI) IUPAC name 5-methyl-1,2,4-triazolo[3,4-b][1,3]benzothiazole Chemical Abstracts name 5-methyl-1,2,4-triazolo[3,4-b]benzothiazole CAS RN [41814-78-2] EEC no. 255-559-5 Development codes EL-291 (Lilly) Physical Chemistry:Mol. wt. 189.2 M.f. C9H7N3S Form Crystalline solid. M.p. 184.6-187.2 B.p. 275 V.p. 5.86 ´ 10-4 ATXht981131 mPaATXht0 (20 , Knudsen-Effusion Weight Loss Method) KOW logP = 1.42 Henry 1.86 ´ 10-7 Pa m3 mol-1 (20 , TXht98124 calc.ATXht0 ) S.g./density 1.4 (20 ) Solubility In purified water 0.596 g/l (20 ). In acetone 13.8, methanol 26.5, xylene 4.9 (all in g/l, 20 ). Stability Stable at 52 (highest storage temperature tested). Relatively stable to ATXht981187 u.v.ATXht0 light