Experience the most diverse phosphoric acid for agriculture with PersianUtab. We provide a variety of phosphoric acids for a variety of applications. The quality of our products is the guarantee of our company. Phosphoric acid is one of the most popular food additives in most countries. Today, phosphoric acid producers face significant challenges in the areas of environmental compliance, chemical efficiency, plant productivity, and product quality improvement. Develop a wide range of chemical technologies to help phosphoric acid producers overcome each of these challenges effectively and cost-effectively. Phosphoric acid is a versatile agent used to nourish plants, regulate pH, and clean lime irrigation equipment (especially drip lines) from limescale. It is an efficient source of phosphorus for plants. Phosphorus is an essential nutrient for the plant and is absorbed by the plant roots. The production of fertilizers used to address phosphorus deficiency in the soil depends on the availability of phosphoric acid sources. It is a component of plant cells that is essential for cell division and plant growth tip growth. That is why it is vital for seedlings and young plants.
Phosphorus fertilizer is very concentrated and contains 100% of plant nutrients in PersianUtab. Free of chloride, sodium and other harmful elements for plants. Phosphoric acid is widely marketed as a fungicide or fertilizer or sometimes as a biological stimulant. It has many strengths. This acid is suitable for feeding greenhouse crops, open field crops and fruit trees.
Phosphoric acid (H 3 PO 4) is a mineral acid and a phosphate derivative. It is used in a wide range of applications, including plant fertilizers, where it forms the “P” in the NPK rating. Note that phosphoric acid is caustic at high concentrations. In addition to its application in fertilizers, food grade phosphoric acid can be used to lower the pH of a nutrient solution or soil. Used as a rust cleaner in metal appliances. Phosphoric acid can also be used as a food additive, to sanitize food preparation areas and commercial machinery, and to be used in medicine and during dental work. Stronger forms are used as a stainless steel and in many other industrial processes.
All plants need a proper balance of minerals and nutrients to grow. Phosphate is one of these substances and is generally present in all fertilizers, whether organic or synthetic. In general, this is done with phosphoric acid, which is a phosphate derivative. Phosphoric acid is not directly absorbed by plants. It must change first. After soil application, the acid is converted to hydrogen phosphate by chemical and biological agents. It is also converted to dihydrogen phosphate, which can also be used by plants. It should be noted that there are many primary sources of phosphorus and phosphoric acid. Animal manure contains phosphate, but does not produce new substances. It simply transfers phosphate from one area to another (after fertilizer application). But by adding acid to animal bones, new phosphate can be made as phosphoric acid. The same process is used with phosphorous rock, which has become the main source of phosphorus in commercial fertilizers. The acid is applied to the rock after extraction and crushing, so phosphoric acid is formed that can be used in a variety of ways.
Phosphorus fertilizer is very concentrated.
It is composed of 100% plant nutrients.
Free of chloride, sodium and other harmful elements for plants.
No insoluble matter.
Ideal for the production of food solutions.
Without phosphorus Unspoken Phosphoric Acid, plant growth is delayed. Plants have short roots and are slow and spindle. Symptoms of deficiency also include dull grayish green leaves and red pigment at the base of the leaves and dying leaves. Phosphorus deficiency is difficult to diagnose and it is too late to do anything until it is diagnosed. If plants are deprived of phosphorus, after a while, its presence in the plant is no longer effective and the plant is destroyed. When moisture is distributed, phosphorus accumulates on the soil surface and is easily available to plants. However, if the surface soil dries out, it becomes less accessible to plants.