 |
 CATALOG OF PAM | ||||
| ITEM | PRODUCTS | MOLECULAR WEIGHT | DEGREE OF HYDROLYSIS | REMARKS |
| A2001 | Anionic Polyacrylamide(solid content 89%min) | 900 | 4-5% | |
| A2002 | 1000 | 1-2% | ||
| A2003 | 1100 | 30% | ||
| A2004 | 1600-1700 | 11-13% | TOP SALE | |
| A2005 | 1700-1800 | 18-20% | ||
| A2006 | 1700-1800 | 20-22% | ||
| A2007 | 1800-1900 | 23-25% | ||
| A2008 | 1800-2000 | 24-26% | ||
| A2009 | 1800-2000 | 24-26% | ||
| A2010 | 1400-1600 | 27-30% | ||
| A2011 | 1800-2000 | 27-29% | ||
| A2012 | 3000-3500 | 28-35% | ||
| A2013 | 2500-3000 | 25-30% | ||
| ITEM | PRODUCTS | MOLECULAR WEIGHT | DEGREE OF IONICITY | REMARKS |
| C6005-H | Cationic Polyacrylamide(solid content 89%min) | 1000-1200 | 5% | Pulp&paper,Printing and Dyeing,Food industry solid-liquid separation and sludge dewatering |
| C6010-H | 1000-1200 | 10% | ||
| C6015-H | 1000-1200 | 15% | ||
| C6020-H | 1000-1200 | 20% | ||
| C6025-H | 1000-1200 | 25% | ||
| C6030-H | 1000-1200 | 30% | ||
| C6035-H | 1000-1200 | 35% | ||
| C6040-H | 1000-1200 | 40% | Sludge dewatering(municipal sewage,Citric acid plant);Oil-water separation&water treatment(oil field) | |
| C6045-H | 1000-1200 | 45% | ||
| C6050-H | 1000-1200 | 50% | ||
| C6060-H | 1000-1200 | 60% | ||
| C6070-H | 1000-1200 | 70% | ||
| C6080-H | 1000-1200 | 80% | ||
| C6005-L | Cationic Polyacrylamide(solid content 89%min) | 800-900 | 5% | Pulp&paper,Printing and Dyeing,Food industry solid-liquid separation and sludge dewatering |
| C6010-L | 800-900 | 10% | ||
| C6015-L | 800-900 | 15% | ||
| C6020-L | 800-900 | 20% | ||
| C6025-L | 800-900 | 25% | ||
| C6030-L | 800-900 | 30% | ||
| C6035-L | 800-900 | 35% | ||
| C6040-L | 800-900 | 40% | Sludge dewatering(municipal sewage,Citric acid plant);Oil-water separation&water treatment(oil field) | |
| C6045-L | 800-900 | 45% | ||
| C6050-L | 800-900 | 50% | ||
| C6060-L | 800-900 | 60% | ||
| C6070-L | 800-900 | 70% | ||
| C6080-L | 800-900 | 80% | ||
| ITEM | PRODUCTS | DEGREE | REMARKS | |
| EC7001 | Emulsion Cationic Polyacrylamide | 20% | OIL BASED | |
| EC7002 | Emulsion Cationic Polyacrylamide | 30% | OIL BASED | |
| EC7003 | Emulsion Cationic Polyacrylamide | 40% | OIL BASED | |
| EC7004 | Emulsion Cationic Polyacrylamide | 60% | OIL BASED | |
| EC7005 | Emulsion Cationic Polyacrylamide | 80% | OIL BASED | |
| EA8001 | Emulsion Anionic Polyacrylamide | OIL BASED | ||
The most usually utilized polyacrylamide (PAM) types in wastewater treatment and their capabilities are as per the following:
1. Cationic Polyacrylamide (CPAM): Cationic polyacrylamide is generally utilized in wastewater treatment processes. It goes about as a flocculant and coagulant help, supporting the conglomeration and settling of suspended solids and colloidal particles. CPAM works on strong fluid division, upgrades the expulsion of natural matter, and works on the clearness of treated water.
2. Anionic Polyacrylamide (APAM): Anionic polyacrylamide is likewise ordinarily utilized in wastewater treatment. It capabilities as a flocculant and explaining specialist, assisting with conglomerating and settle suspended solids and colloidal particles. APAM works on the expulsion of turbidity, natural matter, and certain weighty metals from wastewater.
3. Nonionic Polyacrylamide (NPAM): Nonionic polyacrylamide is utilized in wastewater treatment as a flocculant help and dewatering specialist. It aids the accumulation and settling of suspended solids and further develops the dewatering productivity of ooze. NPAM can upgrade strong fluid division and work on the dewaterability of slop.
4. Amphoteric Polyacrylamide (A-PAM): Amphoteric polyacrylamide, containing both cationic and anionic gatherings, can be utilized in different applications in wastewater treatment. It can go about as a flocculant, coagulant help, or flocculant help, contingent upon the particular requirements of the treatment interaction. A-PAM gives adaptability and can be changed in accordance with various wastewater structures and treatment goals.
The determination of the proper polyacrylamide type relies upon variables like the qualities of the wastewater, treatment targets, and interaction conditions. These PAM types assume a critical part in working on the productivity and viability of wastewater treatment processes, including strong fluid detachment, explanation, and slime dewatering.
| CATALOG OF PAM | ||||
| ITEM | PRODUCTS | MOLECULAR WEIGHT | DEGREE OF HYDROLYSIS | REMARKS |
| A2001 | Anionic Polyacrylamide(solid content 89%min) | 900 | 4-5% | |
| A2002 | 1000 | 1-2% | ||
| A2003 | 1100 | 30% | ||
| A2004 | 1600-1700 | 11-13% | TOP SALE | |
| A2005 | 1700-1800 | 18-20% | ||
| A2006 | 1700-1800 | 20-22% | ||
| A2007 | 1800-1900 | 23-25% | ||
| A2008 | 1800-2000 | 24-26% | ||
| A2009 | 1800-2000 | 24-26% | ||
| A2010 | 1400-1600 | 27-30% | ||
| A2011 | 1800-2000 | 27-29% | ||
| A2012 | 3000-3500 | 28-35% | ||
| A2013 | 2500-3000 | 25-30% | ||
| ITEM | PRODUCTS | MOLECULAR WEIGHT | DEGREE OF IONICITY | REMARKS |
| C6005-H | Cationic Polyacrylamide(solid content 89%min) | 1000-1200 | 5% | Pulp&paper,Printing and Dyeing,Food industry solid-liquid separation and sludge dewatering |
| C6010-H | 1000-1200 | 10% | ||
| C6015-H | 1000-1200 | 15% | ||
| C6020-H | 1000-1200 | 20% | ||
| C6025-H | 1000-1200 | 25% | ||
| C6030-H | 1000-1200 | 30% | ||
| C6035-H | 1000-1200 | 35% | ||
| C6040-H | 1000-1200 | 40% | Sludge dewatering(municipal sewage,Citric acid plant);Oil-water separation&water treatment(oil field) | |
| C6045-H | 1000-1200 | 45% | ||
| C6050-H | 1000-1200 | 50% | ||
| C6060-H | 1000-1200 | 60% | ||
| C6070-H | 1000-1200 | 70% | ||
| C6080-H | 1000-1200 | 80% | ||
| C6005-L | Cationic Polyacrylamide(solid content 89%min) | 800-900 | 5% | Pulp&paper,Printing and Dyeing,Food industry solid-liquid separation and sludge dewatering |
| C6010-L | 800-900 | 10% | ||
| C6015-L | 800-900 | 15% | ||
| C6020-L | 800-900 | 20% | ||
| C6025-L | 800-900 | 25% | ||
| C6030-L | 800-900 | 30% | ||
| C6035-L | 800-900 | 35% | ||
| C6040-L | 800-900 | 40% | Sludge dewatering(municipal sewage,Citric acid plant);Oil-water separation&water treatment(oil field) | |
| C6045-L | 800-900 | 45% | ||
| C6050-L | 800-900 | 50% | ||
| C6060-L | 800-900 | 60% | ||
| C6070-L | 800-900 | 70% | ||
| C6080-L | 800-900 | 80% | ||
| ITEM | PRODUCTS | DEGREE | REMARKS | |
| EC7001 | Emulsion Cationic Polyacrylamide | 20% | OIL BASED | |
| EC7002 | Emulsion Cationic Polyacrylamide | 30% | OIL BASED | |
| EC7003 | Emulsion Cationic Polyacrylamide | 40% | OIL BASED | |
| EC7004 | Emulsion Cationic Polyacrylamide | 60% | OIL BASED | |
| EC7005 | Emulsion Cationic Polyacrylamide | 80% | OIL BASED | |
| EA8001 | Emulsion Anionic Polyacrylamide | OIL BASED | ||
The most usually utilized polyacrylamide (PAM) types in wastewater treatment and their capabilities are as per the following:
1. Cationic Polyacrylamide (CPAM): Cationic polyacrylamide is generally utilized in wastewater treatment processes. It goes about as a flocculant and coagulant help, supporting the conglomeration and settling of suspended solids and colloidal particles. CPAM works on strong fluid division, upgrades the expulsion of natural matter, and works on the clearness of treated water.
2. Anionic Polyacrylamide (APAM): Anionic polyacrylamide is likewise ordinarily utilized in wastewater treatment. It capabilities as a flocculant and explaining specialist, assisting with conglomerating and settle suspended solids and colloidal particles. APAM works on the expulsion of turbidity, natural matter, and certain weighty metals from wastewater.
3. Nonionic Polyacrylamide (NPAM): Nonionic polyacrylamide is utilized in wastewater treatment as a flocculant help and dewatering specialist. It aids the accumulation and settling of suspended solids and further develops the dewatering productivity of ooze. NPAM can upgrade strong fluid division and work on the dewaterability of slop.
4. Amphoteric Polyacrylamide (A-PAM): Amphoteric polyacrylamide, containing both cationic and anionic gatherings, can be utilized in different applications in wastewater treatment. It can go about as a flocculant, coagulant help, or flocculant help, contingent upon the particular requirements of the treatment interaction. A-PAM gives adaptability and can be changed in accordance with various wastewater structures and treatment goals.
The determination of the proper polyacrylamide type relies upon variables like the qualities of the wastewater, treatment targets, and interaction conditions. These PAM types assume a critical part in working on the productivity and viability of wastewater treatment processes, including strong fluid detachment, explanation, and slime dewatering.
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