|Flocculation, Removal Of COD, BOD, SS Etc.
|Water Treatment PAC
|Industrial Or Drinking Water Grade
printing pac coagulant water treatment,
industrial pac coagulant water treatment,
dyeing wastewater plant polyaluminum chloride
Poly aluminum chloride (PAC), also known as a water purifier or coagulant, is an inorganic polymer that is water-soluble and created from ALCL3 and AL (OH) 3. The chemical formula for PAC is [AL2 (OH) NCL6 NLm], with m representing the degree of polymerization and n representing the degree of neutrality of the PAC product. This product comes in the form of a yellow or light yellow, dark brown, or dark gray resin-like solid.
Poly aluminum chloride has a strong bridging adsorption performance and undergoes physical and chemical processes such as coagulation, adsorption, and precipitation during the hydrolysis process. One of the key differences between poly aluminum chloride and traditional inorganic coagulants is that the latter are low molecular crystalline salts. In contrast, poly aluminum chloride has a structure composed of diverse multi-carboxyl complexes. It has a fast flocculation and precipitation speed, a wide range of applicable pH values, is non-corrosive to pipeline equipment, and has a noticeable water purification effect.
This versatile product is effective in removing heavy metal ions such as SS, COD, BOD, arsenic, mercury, and more from water. It is widely used in the treatment of drinking water, industrial water, and sewage. Its broad range of applications makes it a valuable tool in maintaining clean and safe water sources.
The process of purifying water for urban areas involves treating various sources such as river water, reservoir water, and groundwater.
In industries, water supply is purified to remove any impurities or contaminants, ensuring the safety and quality of the water used.
Urban areas produce large amounts of sewage that need to be treated before being released back into the environment to prevent pollution and protect public health.
In addition to purifying water, the industrial wastewater treatment also includes recovering useful substances from the waste, such as coal powder settling in coal washing wastewater, and starch in the starch manufacturing industry.
Industries often produce different types of wastewater that require specialized treatment, including printing and dyeing wastewater, leather wastewater, fluorine-containing wastewater, heavy metal wastewater, oily wastewater, papermaking wastewater, coal washing wastewater, mining wastewater, brewing wastewater, metallurgical wastewater, and meat processing wastewater.
Paper gluing is a process used in the manufacture of paper products, which involves applying adhesive substances to stick the paper together.
In the production of sugar, the solution is refined to remove any impurities and produce a high-quality product.
Casting and molding is a manufacturing process in which melted materials are poured into a mold and cooled to create a solid product.
Fabric can be treated with special chemicals to make it wrinkle-resistant, reducing the need for ironing and keeping clothes looking neat for longer periods.
A catalyst carrier is a substance that supports a catalyst, providing a surface for the chemical reaction to take place.
In the pharmaceutical industry, refining is a crucial step in the production of drugs, ensuring their purity and effectiveness.
To speed up the setting process of cement, additives may be used to accelerate the formation of crystals, resulting in faster setting and curing times.
Certain industries, such as cosmetics, require specific raw materials for their products to ensure quality and effectiveness.
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