Before using the solid Cuprous Chloride ( https://www.wsdty.com/ ), it is generally necessary to dissolve the solid into a solution, and then add it for use. Cuprous Chloride Iron Cuprous Chloride is an inorganic polymer coagulant. Due to the bridging effect of hydroxide ions and the polymerization of polyvalent anions, it is a kind of inorganic polymer water treatment agent with larger molecular weight and higher electric charge. The characteristics are mainly determined by the working principle of the pressure atomizer. Cuprous Chloride is currently used in the sludge sewage treatment industry. The solution prepared on the same day has an ideal effect on the same day, but after a period of time, the viscosity of the solution decreases significantly and the effect is not good. So what are the main causes?
Generally, the higher the molecular weight of Cuprous Chloride (Al), the greater the viscosity of the solution. This is because the Cuprous Chloride macromolecule is a thin and long chain-like body, and the resistance to movement in the solution is great. Cuprous Chloride Iron Cuprous Chloride is an inorganic polymer coagulant. Due to the bridging effect of hydroxide ions and the polymerization of polyvalent anions, it is a kind of inorganic polymer water treatment agent with larger molecular weight and higher electric charge. The characteristics are mainly determined by the working principle of the pressure atomizer. Cuprous Chloride has a high degree of electrical neutralization and bridging effects on colloids and particles in water, and can remove micro-toxic substances and heavy metal ions with stable properties. Cuprous Chloride iron Cuprous Chloride has many synthetic methods. According to the different raw materials, it can be divided into metal aluminum method, active aluminum hydroxide method, aluminum oxide method, aluminum chloride method, alkali solution method, etc. The essence of viscosity reflects the size of the friction in the solution, also known as the internal friction coefficient. The viscosity of various polymer organic solutions is relatively high and increases with the increase of molecular weight. One method to determine the molecular weight of polymer organics is to determine the viscosity of a solution of a certain concentration under certain conditions, and then calculate its molecular weight according to a certain formula, which is called; estimated molecular weight;. The intrinsic viscosity of Cuprous Chloride solution [η] and its molecular weight m have the following exponential function relationship: [η] = 3.73 × 10-4 × m 0.66 Experience shows that the flocculation performance of Cuprous Chloride and its solution viscosity There is a direct relationship. The higher the viscosity, the better the performance, that is, the higher the molecular weight of the Basic Copper Carbonate ( https://www.wsdty.com/ ) product (Product), the better; if its viscosity is reduced by some influence (influence), Its flocculation performance will inevitably decline (descend).