High Quality Pam - PAM-Cationic Polyacrylamide – Cleanwater
High Quality Pam - PAM-Cationic Polyacrylamide – Cleanwater Detail:
Description
This product is an environmental friendly chemical .It’s not soluble in most organic solvents, with good flocculating activity, and can reduce the friction resistance between liquid. It has two different forms, powder and emulsion.
Application Field
1. It is mainly used for the sludge dewatering and decrease the rate of water content of sludge.
2. It can be used to treat industrial wastewater and life sewage water.
3. It can be used for paper making to improve dry and wet strength of paper and to improve dry and wet strength of paper and to increase the reservation of tiny fibers and fillings.
Other industries-sugar industry
Other industries-pharmaceutical industry
Other industries-construction industry
Other industries-aquaculture
Other industries-agriculture
Oil industry
Mining industry
Textile industry
Petroleum industry
Paper making industry
Advantage
Specifications
Item |
Cationic Polyacrylamide |
|
Appearance |
White Fine-Sand Shaped Powder |
Milky White Emulsion |
Molecular Weight |
6million-10million |
/ |
lonicity |
5-80 |
5-55 |
Viscosity |
/ |
4.5-7 |
Degree of Hydrolysis% |
/ |
/ |
Solid Content% |
≥90 |
35-40 |
Shelf Life |
12 Months |
6 Months |
Note: Our product can be made upon your special request. |
Application Method
Powder
1. It should be diluted to the concentration of 0.1%(based on solid content).It is better to use neutral or desalted water.
2. When making up solution, the product should be scattered evenly in the stirring water, usually the temperature is between 50-60℃.
3. The most economical dosage is based on the trial.
Emulsion
When diluting the emulsion in water, it is supposed to stir quickly to make the polymer hydrogel in the emulsion sufficiently contact with water and rapidly disperse in water. The dissolution time is around 3-15 minutes.
Package and Storage
Emulsion
Package: 25L, 200L, 1000L plastic drum.
Storage: The storage temperature of the emulsion is perfectly between 0-35℃. The general emulsion is stored for 6 months. When the storage time is long, there will be a layer of oil deposited on the upper layer of the emulsion and it is normal. At this time, the oil phase should be returned to the emulsion by mechanical agitation, pump circulation, or nitrogen agitation. The performance of the emulsion will not be affected. The emulsion freezes at a lower temperature than water. The frozen emulsion can be used after it is melted, and its performance will not change significantly. However, it may be necessary to add some anti-phase surfactant to the water when it is diluted with water.It can be stored for 6 months. When the storage time is long, there will be a layer of oil deposited on the upper
Powder
Package: The solid product can be packed in inner plastic bags, and further in polypropylene woven bags with each bag containing 25Kg.
Storage: Should be sealed and stored in a dry and cool place below 35℃.
Product detail pictures:
Related Product Guide:
It really is our obligation to satisfy your requirements and efficiently serve you. Your fulfillment is our greatest reward. We're hunting forward to your check out for joint development for High Quality Pam - PAM-Cationic Polyacrylamide – Cleanwater , The product will supply to all over the world, such as: Panama, kazakhstan, Los Angeles, So far our products have been exported to east Europe, the Middle East, Southeast, Africa and South America etc. We have 13years professional sales and purchase in Isuzu parts at home and abroad and the ownership of the modernized electronic Isuzu parts checking systems. We honor our core principal of Honesty in business, priority in service and will do our best to offer our customers with high quality products and excellent service.
By Nancy from Bahamas - 2017.02.18 15:54
The factory has advanced equipment, experienced staffs and good management level, so product quality had assurance, this cooperation is very relaxed and happy!
By Sabina from Vietnam - 2018.07.26 16:51