Phosphoric acid in animal feed is widely.It is a versatile substance used in the manufacture of many products, but is most commonly used in the production of phosphate fertilizers and animal feed.Phosphorus is an essential component of life on Earth. It is not only a building block in the growth of healthy plants, but also an important element for humans and animals. Most importantly, phosphorus helps with a variety of cellular functions to build strong bones and teeth, and aids many other biological processes. Likewise, phosphorus is a major ingredient in animal feed, namely monocalcium phosphate (MCP) and dicalcium phosphate (DCP).
While only about 5% of global phosphate consumption leads to the production of animal feed, the production of phosphate feed plays an important role in maintaining animal health and overall food safety. With increasing demand for phosphate feed, efficient production of such products becomes more important.Traditionally, phosphoric animal feed is produced using a spinden reactor, a mixer and a horizontal reactor similar to a powder mixer. While this method has effective results and is widely used throughout the feed industry.Phosphoric acid and limestone (calcium carbonate) are fed at high speed in the mixer. The mixer consists of a vertical chamber through which the paddle shaft passes and rotates at 300-400 rpm to create an intense mixing operation.This intense mixing step results in a more homogeneous mixture and consequently a better reaction of the ingredients. The high-speed mixer thoroughly mixes the ingredients and then pours them through gravity into the pugmill mixer on which it is mounted.The complete pugmill mixer reacts and the mixed cube moves it down. Once the mixture is granulated, it is removed from the Pagmil mixer and transferred to the rotary dryer by conveyor. The dryer removes the desired amount of moisture from the product and makes the granules more polished and rounded. After drying, the small and large sizes are removed from the surface and re-entered into the process after recycling, while the large pellets first go through the chain milling stage. Product in size can be transported for packaging, transport or storage this is a Applications Phosphoric acid.
Phosphorus used in animal feed is first extracted as phosphate rock. To separate phosphorus from the surrounding undesirable materials such as sand and clay, the phosphate ore must undergo an exploitation process. Because phosphate rock sediments differ significantly in their composition, the productivity process can vary greatly from one sediment to another.After using the phosphate ore, it is usually dried in a rotary dryer. While other drying systems are an option, rotary dryers are more common due to their heavy construction and high capacity.In some cases, in the event of phosphorus contamination, or in the presence of organic matter found that needs to be removed, rotary kiln processing may also be required at this stage.After the phosphate stone dries, it can react with sulfuric acid to produce phosphoric acid.
All phosphate-based products, including fertilizers, including edible phosphates, are made on the basis of rock phosphate, or so-called fluor-apatite. Rock phosphate is abundant in nature. There are large reserves in Russia, the United States, North Africa and China, where they are mostly obtained by open pit mining.
Inorganic oral phosphates are mostly produced on the basis of partial pure feed grade phosphoric acid.Inorganic feed phosphate is used to balance the phosphorus needs of modern and high consumption animals. Animals have a special need for phosphorus depending on age, production, etc.
Development and maintenance of skeletal tissue Most of the phosphorus is used to maintain the skeleton, where it precipitates with calcium in the form of hydroxyapatite. The skeleton acts not only as a support system but also as a reservoir of phosphorus and calcium from which the body can excrete.Maintains osmotic pressure and acid-base balance. Phosphorus plays an important role in regulating energy. Phosphoric acid in animal feed helps control appetite.
Yes, all animals do. However, the system of expression of these needs varies between different animals. In Europe, pigs need digestible phosphorus, chickens need absorbable phosphorus or phosphorus, and ruminants need total phosphorus.All foods containing high amounts of total phosphorus can be used as a source of phosphorus in animal feed. Today, it is also possible to use phytase, an enzyme that can release phytate-binding phosphorus in plant materials and make phosphorus available to single-stomach animals. However, phytase is not able to release all of the phosphorus and, therefore, there is still a need to supplement animal feed with inorganic phosphate.
The use of inorganic inorganic minerals in feed strategies of mineral livestock such as pigs (including cattle and pigs), poultry (broilers, poultry) and horses is widespread. Inorganic edible minerals are also used in aquaculture and pet food.Increasing global demand for protein has led to increased production of commercial animals, and mineral phosphate supplements play an important role in the feed industry. Calcium phosphates, the most widely used phosphate supplements, provide essential minerals for the growth of strong teeth and bones in livestock, poultry and pets. Feeding grade calcium phosphates include dicalcium phosphate (DCP), monocalcium phosphate (MCP) and tricalcium phosphate (TCP).Phosphoric acid is used in animal feed commercially in industrial products and as food additives. In general, it is estimated that animal feed phosphates make up only 6% of the world’s total phosphate consumption. Phosphates are most commonly used in agricultural fertilizers (83%), while industrial markets (including detergents and specialty) account for 11%. This report focuses on the use of phosphate chemicals as feed supplements for livestock, poultry and pets.