 |
 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 | ||
Polyacrylamide is a versatile chemical compound available in different classifications, including anionic, cationic, and nonionic polyacrylamide. It is widely used as a flocculant in mineral processing, offering effective solutions in this specific application.
1. Flocculation: Our product acts as a flocculant, promoting the aggregation and settling of fine particles in mineral suspensions. It aids in the separation of solid and liquid phases, improving the efficiency of sedimentation and filtration processes.
2. Tailings Treatment: Anionic polyacrylamide is used for the treatment of tailings, helping to clarify and dewater the waste slurry. It aids in the removal of suspended solids, reducing environmental impact and promoting sustainable mining practices.
1. Flotation Aid: Our product acts as a flotation aid, enhancing the separation of valuable minerals from gangue minerals. It improves the attachment of minerals to air bubbles, facilitating their recovery in the flotation process.
2. Thickening Agent: Cationic polyacrylamide is utilized as a thickening agent in mineral processing, increasing the viscosity of mineral slurries. This aids in the efficient transportation and handling of mineral concentrates.
1. Clay Stabilization: Our product is used for clay stabilization in mineral processing, preventing the swelling and dispersion of clay particles. It aids in the control of rheological properties, ensuring the stability of mineral suspensions.
2. Water Clarification: Nonionic polyacrylamide is employed for water clarification in mineral processing, aiding in the removal of suspended solids and impurities. It improves water quality, reducing environmental impact and ensuring compliance with regulatory standards.
Zoomri Polyacrylamide, available in anionic, cationic, and nonionic classifications, is a reliable and versatile solution as a flocculant in mineral processing. Trust our product for its effectiveness in flocculation, tailings treatment, flotation aid, thickening, clay stabilization, and water clarification. With its specific charge characteristics and reliable performance, it is an essential component in improving mineral processing efficiency, reducing environmental impact, and achieving desired outcomes in the mining industry.
The most regularly utilized polyacrylamide (PAM) types in the mining business and their capabilities are as per the following:
1. Cationic Polyacrylamide (CPAM): Cationic polyacrylamide is broadly utilized in the mining business. It goes about as a flocculant and settling specialist, helping with the conglomeration and settlement of strong particles in mineral slurries. CPAM works on strong fluid partition, improves thickening, and aids the dewatering system.
2. Anionic Polyacrylamide (APAM): Anionic polyacrylamide is likewise generally utilized in the mining business. It capabilities as a flocculant and explaining specialist, assisting with conglomerating and settle suspended solids in mineral slurries. APAM works on the lucidity of water and improves strong fluid partition processes.
3. Nonionic Polyacrylamide (NPAM): Nonionic polyacrylamide is utilized in the mining business as a dispersant and flocculant help. It aids the scattering and adjustment of mineral particles, working on the proficiency of mineral handling tasks like buoyancy and strong fluid division.
4. Amphoteric Polyacrylamide (A-PAM): Amphoteric polyacrylamide is a flexible PAM type that contains both cationic and anionic gatherings. It tends to be utilized in the digging business for different applications like flocculation, scattering, and strong fluid division, contingent upon the particular prerequisites of the cycle.
The determination of the suitable polyacrylamide type relies upon elements, for example, the mineral sort, molecule size, process conditions, and wanted results. These PAM types assume a vital part in working on the productivity and viability of different mining tasks, including mineral handling, tailings the executives, and water treatment.
| 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 | ||
Polyacrylamide is a versatile chemical compound available in different classifications, including anionic, cationic, and nonionic polyacrylamide. It is widely used as a flocculant in mineral processing, offering effective solutions in this specific application.
1. Flocculation: Our product acts as a flocculant, promoting the aggregation and settling of fine particles in mineral suspensions. It aids in the separation of solid and liquid phases, improving the efficiency of sedimentation and filtration processes.
2. Tailings Treatment: Anionic polyacrylamide is used for the treatment of tailings, helping to clarify and dewater the waste slurry. It aids in the removal of suspended solids, reducing environmental impact and promoting sustainable mining practices.
1. Flotation Aid: Our product acts as a flotation aid, enhancing the separation of valuable minerals from gangue minerals. It improves the attachment of minerals to air bubbles, facilitating their recovery in the flotation process.
2. Thickening Agent: Cationic polyacrylamide is utilized as a thickening agent in mineral processing, increasing the viscosity of mineral slurries. This aids in the efficient transportation and handling of mineral concentrates.
1. Clay Stabilization: Our product is used for clay stabilization in mineral processing, preventing the swelling and dispersion of clay particles. It aids in the control of rheological properties, ensuring the stability of mineral suspensions.
2. Water Clarification: Nonionic polyacrylamide is employed for water clarification in mineral processing, aiding in the removal of suspended solids and impurities. It improves water quality, reducing environmental impact and ensuring compliance with regulatory standards.
Zoomri Polyacrylamide, available in anionic, cationic, and nonionic classifications, is a reliable and versatile solution as a flocculant in mineral processing. Trust our product for its effectiveness in flocculation, tailings treatment, flotation aid, thickening, clay stabilization, and water clarification. With its specific charge characteristics and reliable performance, it is an essential component in improving mineral processing efficiency, reducing environmental impact, and achieving desired outcomes in the mining industry.
The most regularly utilized polyacrylamide (PAM) types in the mining business and their capabilities are as per the following:
1. Cationic Polyacrylamide (CPAM): Cationic polyacrylamide is broadly utilized in the mining business. It goes about as a flocculant and settling specialist, helping with the conglomeration and settlement of strong particles in mineral slurries. CPAM works on strong fluid partition, improves thickening, and aids the dewatering system.
2. Anionic Polyacrylamide (APAM): Anionic polyacrylamide is likewise generally utilized in the mining business. It capabilities as a flocculant and explaining specialist, assisting with conglomerating and settle suspended solids in mineral slurries. APAM works on the lucidity of water and improves strong fluid partition processes.
3. Nonionic Polyacrylamide (NPAM): Nonionic polyacrylamide is utilized in the mining business as a dispersant and flocculant help. It aids the scattering and adjustment of mineral particles, working on the proficiency of mineral handling tasks like buoyancy and strong fluid division.
4. Amphoteric Polyacrylamide (A-PAM): Amphoteric polyacrylamide is a flexible PAM type that contains both cationic and anionic gatherings. It tends to be utilized in the digging business for different applications like flocculation, scattering, and strong fluid division, contingent upon the particular prerequisites of the cycle.
The determination of the suitable polyacrylamide type relies upon elements, for example, the mineral sort, molecule size, process conditions, and wanted results. These PAM types assume a vital part in working on the productivity and viability of different mining tasks, including mineral handling, tailings the executives, and water treatment.
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