Granular

Conventional PAM

Conventional polyacrylamide products include Anionic polyacrylamide, Cationic polyacrylamide, Non-ionic polyacrylamide and Amphoteric polyacrylamide.

Processing & Application

Processing

Directly dissolves in water

Application

-APAM: Water treatment, Oil & Gas, Mining, Paper & Pulp, Textile, Agriculture;
-CPAM: Water treatment, Sludge dewatering; 
-NPAM: Water treatment, Mining, Oil & Gas;
-Amphoteric PAM: Sludge dewatering;

Rheology Modifiers

Our rheology modifiers is an innovative product that consist of low and medium anionic charged polymers with relatively low molecular weight. When used in ore beneficiation, they leads to the production of a higher underflow solid concentration that remains pumpable compare to the conventional product. Therefore, more water can be recycled for the process immediately, less evaporative losses at the tails dam and less fresh water is needed for the mining plant. 

Processing & Application

Processing

Directly dissolves in water

Application

Mining/Tailings, Oil & Gas

Our rheology modifiers is an innovative product that consist of low and medium anionic charged polymers with relatively low molecular weight. When used in ore beneficiation, they leads to the production of a higher underflow solid concentration that remains pumpable compare to the conventional product. Therefore, more water can be recycled for the process immediately, less evaporative losses at the tails dam and less fresh water is needed for the mining plant. 

Processing & Application

Processing

Direcelty dissolves in water

Application

Mining/Tailings, Oil & Gas

High Viscosity PAM

High viscosity products are made of high purity acrylamide, through a unique molecular structure technology, the use of ultra-low temperature and segmentation initiation polymerization process, so that its products have high molecular weight while forming an adjustable spatial network structure, suitable for customers, needs of high viscosity performance.

Processing & Application

Processing

Directly dissolves in water

Application

Oil & Gas, Mining, Incense-making, Agriculture

Potassium Polyacrylate(Specialty)

This product has a strong inhibiting ability to the dispersion of clay and drilling chips. At the same time, it can effectively inhibit the formation of mud due to its performance of temperature and salt resistance and inhibition of filtration loss, which helps to protect and find oil and gas fields. Meanwhile, it can be used in fresh water, brine, saturated brine drilling fluids and other water-based drilling fluid systems with different relative densities, and has good compatibility with anionic or non-ionic treatment agents.

Processing & Application

Processing

Directly dissolves in water

Application

Oil & Gas, Mining, Agriculture

This product has a strong inhibiting ability to the dispersion of clay and drilling chips. At the same time, it can effectively inhibit the formation of mud due to its performance of temperature and salt resistance and inhibition of filtration loss, which helps to protect and find oil and gas fields. Meanwhile, it can be used in fresh water, brine, saturated brine drilling fluids and other water-based drilling fluid systems with different relative densities, and has good compatibility with anionic or non-ionic treatment agents.

Processing & Application

Processing

Direcelty dissolves in water

Application

Oil & Gas, Mining, Agriculture

Sodium Polyacrylate(Specialty)

This product is an anionic polyelectrolyte with a variety of chemical and physical properties such as thickening, emulsification, molding, extrusion, stabilization and other functions. Low molecular weight sodium polyacrylate has good dispersion, scale inhibition and corrosion inhibition properties.

Processing & Application

Processing

Directly dissolves in water

Application

Oil & Gas, Paper & Pulp, Textile, Mining, Agriculture

Emulsion

Water-In-Water Emulsion

The acrylamide monomer and polyacrylamide or different PAMs' dissolution properties in water solution can be different under appropriate conditions such as additional electrolytes. However, due to the similarity of their densities, they will not precipitation but form a stable dispersion system in aqueous solution and we call it water-in-water emulsion. When being used, the solution will be diluted so polyacrylamide will be redissolved in the system and become immediately available.

Processing & Application

Processing

Used on site with dilluting

Application

Water treatment, Drilling, EOR, Pulp & Paper, Textile

Water-In-Oil Emulsion

In the presence of appropriate oil and surfactant, the water-in-oil emulsion with good performance can be obtained by gradually adding water phase into the oil phase and assisting agitation or high speed shear emulsification. The obtained water-in-oil polyacrylamide emulsion consist polyacrylamdie nanospheres surrounded by surfactants that are dispersed in the oil or other organic solvent and when being used, specific demulsifiers will be added into the system and the polyacrylamide will be immediately available in the system.

Processing & Application

Processing

Used on site with demulsifiers

Application

Water treatment, Drilling, EOR, Pulp & Paper, Textile

In the presence of appropriate oil and surfactant, the water-in-oil emulsion with good performance can be obtained by gradually adding water phase into the oil phase and assisting agitation or high speed shear emulsification. The obtained water-in-oil polyacrylamide emulsion consist polyacrylamdie nanospheres surrounded by surfactants that are dispersed in the oil or other organic solvent and when being used, specific demulsifiers will be added into the system and the polyacrylamide will be immediately available in the system.

Processing & Application

Processing

Used on site with demulsifiers

Application

Water treatment, Drilling, EOR, Pulp & Paper, Textile