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· Softening Water Filter Media Specifications and Applications
Our softening filter media is primarily suitable for groundwater, drinking water, hotel water, bathing water, and industrial water softening. It can also be used as a pre-treatment for resin softening in boiler water. The media is heat-resistant and releases beneficial trace elements for the human body. It is especially effective for boiler water softening, providing both filtration and softening capabilities, reducing water hardness from up to 1000 mg/L to around 40 mg/L. The product offers excellent softening performance, high cost-effectiveness, simple operation, resistance to ion interference, easy backwashing, and the ability to filter impurities while softening water. It is a multi-functional product that reduces costs and, after saturation, can be regenerated to restore 100% capacity.
· Bioactivated Zeolite Specifications and Applications
Currently, the active sludge method and its modified processes are widely used for urban sewage treatment. This method removes soluble and colloidal biodegradable organic matter, suspended solids, and other substances that can be absorbed by active sludge, as well as part of the phosphorus and nitrogen content. This method relies on passive adsorption.
Our bioactivated zeolite provides active adsorption, with a bacterial load capacity over five times that of active sludge. It offers 2-3 times the adsorption performance and removal rate of active sludge.
· Silver-Loaded Zeolite Filter Media Technology
The nano-inorganic antibacterial agent is a powdered material created using nano-assembly technology. It combines antimicrobial metal ions and clusters within nanoscale pores, achieving stabilization, controlled release, ultrafine processing, surface treatment, and auxiliary additions. This product demonstrates stable, efficient, long-lasting, broad-spectrum antibacterial effects and excellent compatibility with inorganic antibacterial systems. This product can be combined with various resin emulsion antibacterial agents to create functional inorganic antibacterial agents, enhancing antibacterial performance without affecting other properties or the production process.
· Antibacterial Mechanism
Microbes come into contact with the surface of the antibacterial agent or released antibacterial components, where the components adsorb pathogens and react with active groups such as thiol (-SH) and amino (-NH₃) in enzyme proteins. This causes protein precipitation or deactivation, halting microbial energy production and respiration metabolism.
Additionally, nano antibacterial components exhibit advanced catalytic capabilities, particularly when in a stable, activated state within the carrier. Interaction with water and air oxygen produces reactive oxygen species (H₂O, H₂O⁺, O₂⁻), which have strong oxidative ability, effectively destroying various major biological macromolecules and membranes within microbial cells, leading to inactivation.
Performance Indicators
A. Antibacterial Performance
Minimum Inhibitory Concentration (MIC, %W/V): E. coli 0.1, Staphylococcus aureus 0.025;
Minimum Bactericidal Concentration (MBC, %W/V): E. coli 0.5, Staphylococcus aureus 1;
Antibacterial Rate (%): E. coli 97.0, Staphylococcus aureus 95.9;
B. Physical Properties
Appearance: Light green powder; white powder.
Particle Size: More than 90% under 2 µm (d90 <2 µm), 100% under 10 µm (d100 = 10 µm),
Average Particle Diameter: 0.8 µm (d50 = 0.8 µm);
Density: 2.75 g/cm³
Stability: Insoluble in water, acid, alkaline solutions, and organic solvents, with thermal stability;
Toxic Element Content: Pb <100 ppm; Hg <0.001 ppm; As <100 ppm
C. Application Performance
This product, when processed as an antibacterial agent, achieves an antibacterial rate of over 95% against E. coli and Staphylococcus aureus. When directly added to finished inorganic antibacterial agents, it achieves an antibacterial rate of over 93%.
Recommended Dosage of Nano-Assembled Inorganic Antibacterial Agent for Various Applications
Application | Antibacterial Agent | Recommended Dosage (%) | Sterilization Rate (%) |
Sanitary ware, ceramics | Ceramic Antibacterial Agent | 2-4% | 99.96% |
Plastics | Plastic Antibacterial Agent | 0.5-1.5% | 99.89% |
Paper, paint, coatings | Paper, Paint, Coating Antibacterial Agent | 0.2-1.5% | 99.93% |
Polypropylene, polyester, nylon, synthetic fibers | Fiber Antibacterial Agent | 0.5-1.5% | 99.95% |
Note: The antibacterial agent should be stored in a sealed, light-protected environment. During application, the maximum temperature should not exceed 1100°C, and it should avoid contact with iron-containing containers. The optimal dosage can be determined based on the specific product’s processing requirements. For intended applications, providing detailed processing techniques is recommended to guide the appropriate amount of antibacterial agent.
Zinc-Loaded Zeolite Technology
Zinc-loaded zeolite shares bactericidal and antibacterial properties with silver-loaded zeolite. Although slightly less effective in bactericidal ability, zinc-loaded zeolite is significantly more cost-effective, making it highly suitable for wide application.
Application in Feed: Zinc-loaded zeolite can be added to pig feed as a supplement, enhancing immunity and promoting faster growth. When combined with butyric acid and nano zinc oxide in specific ratios, it can prevent foot-and-mouth disease in pigs.
Application in Coatings: Zinc-loaded zeolite ground to 300-mesh powder can be used in coatings, forming a zinc layer that prevents mold growth in humid conditions. This zinc-enriched coating offers significant value in metal coatings.
Application in Paint: Ultra-fine zinc-loaded zeolite powder can also be added to paint, enhancing the paint’s corrosion resistance and antibacterial properties.
Water Treatment Filter Media Applications
Our zeolite series products are widely used for drinking water, industrial water, wastewater, and various types of filtration systems, such as standard quick filter pools, sewage filters, mechanical filters, multi-media filters, and integrated water purifiers.
For small and medium-sized boiler water softening, it effectively removes calcium and magnesium ions, reducing scale formation in boilers and extending their operational life.
As a filter media, zeolite can achieve a COD removal rate of 86%-92%, BOD removal rate of 99%, and color reduction rate of 77%-79% in textile wastewater. This is due to its larger specific surface area compared to sand filters, its suitability for microbial attachment, and its high ion exchange capacity, which allows it to absorb NH₄⁺ in water and promotes the growth of nitrifying bacteria to convert NH₄⁺ into nitrate.
In the steel, non-ferrous metals, chemical, and other industrial sectors, it can effectively remove phosphorus, lead, and hexavalent chromium from wastewater. Used zeolite can be regenerated using concentrated saline backwash, allowing for repeated use. It removes turbidity, color, odor, and harmful heavy metals (e.g., chromium, cadmium, nickel, zinc, mercury, iron ions) and organic substances such as phenols, nitrogen compounds, ammonia nitrogen, and phosphate ions, while leaving water free from toxic leachates and facilitating the removal of iron, manganese, copper, fluoride, and arsenic more effectively.
The zeolite and activated zeolite products are primarily used in municipal water, metallurgy, chemicals, building materials, petroleum, power, paper, textiles, dyeing, pharmaceuticals, brewing, beverages, purified water, and industrial wastewater treatment industries.
Corporate Commitment
Our company adheres to a high-tech, pollution-free development strategy, leveraging the rich non-metallic mineral resources provided by nature. In collaboration with institutions like Harbin Institute of Technology, Tongji University, and the Chinese Academy of Agricultural Sciences, we focus on producing environmentally friendly materials for drinking water purification, wastewater treatment, air pollution control, health products, soil improvement, and heavy metal soil remediation, gaining national recognition as a priority eco-friendly material.
· Softening Water Filter Media Specifications and Applications
Our softening filter media is primarily suitable for groundwater, drinking water, hotel water, bathing water, and industrial water softening. It can also be used as a pre-treatment for resin softening in boiler water. The media is heat-resistant and releases beneficial trace elements for the human body. It is especially effective for boiler water softening, providing both filtration and softening capabilities, reducing water hardness from up to 1000 mg/L to around 40 mg/L. The product offers excellent softening performance, high cost-effectiveness, simple operation, resistance to ion interference, easy backwashing, and the ability to filter impurities while softening water. It is a multi-functional product that reduces costs and, after saturation, can be regenerated to restore 100% capacity.
· Bioactivated Zeolite Specifications and Applications
Currently, the active sludge method and its modified processes are widely used for urban sewage treatment. This method removes soluble and colloidal biodegradable organic matter, suspended solids, and other substances that can be absorbed by active sludge, as well as part of the phosphorus and nitrogen content. This method relies on passive adsorption.
Our bioactivated zeolite provides active adsorption, with a bacterial load capacity over five times that of active sludge. It offers 2-3 times the adsorption performance and removal rate of active sludge.
· Silver-Loaded Zeolite Filter Media Technology
The nano-inorganic antibacterial agent is a powdered material created using nano-assembly technology. It combines antimicrobial metal ions and clusters within nanoscale pores, achieving stabilization, controlled release, ultrafine processing, surface treatment, and auxiliary additions. This product demonstrates stable, efficient, long-lasting, broad-spectrum antibacterial effects and excellent compatibility with inorganic antibacterial systems. This product can be combined with various resin emulsion antibacterial agents to create functional inorganic antibacterial agents, enhancing antibacterial performance without affecting other properties or the production process.
· Antibacterial Mechanism
Microbes come into contact with the surface of the antibacterial agent or released antibacterial components, where the components adsorb pathogens and react with active groups such as thiol (-SH) and amino (-NH₃) in enzyme proteins. This causes protein precipitation or deactivation, halting microbial energy production and respiration metabolism.
Additionally, nano antibacterial components exhibit advanced catalytic capabilities, particularly when in a stable, activated state within the carrier. Interaction with water and air oxygen produces reactive oxygen species (H₂O, H₂O⁺, O₂⁻), which have strong oxidative ability, effectively destroying various major biological macromolecules and membranes within microbial cells, leading to inactivation.
Performance Indicators
A. Antibacterial Performance
Minimum Inhibitory Concentration (MIC, %W/V): E. coli 0.1, Staphylococcus aureus 0.025;
Minimum Bactericidal Concentration (MBC, %W/V): E. coli 0.5, Staphylococcus aureus 1;
Antibacterial Rate (%): E. coli 97.0, Staphylococcus aureus 95.9;
B. Physical Properties
Appearance: Light green powder; white powder.
Particle Size: More than 90% under 2 µm (d90 <2 µm), 100% under 10 µm (d100 = 10 µm),
Average Particle Diameter: 0.8 µm (d50 = 0.8 µm);
Density: 2.75 g/cm³
Stability: Insoluble in water, acid, alkaline solutions, and organic solvents, with thermal stability;
Toxic Element Content: Pb <100 ppm; Hg <0.001 ppm; As <100 ppm
C. Application Performance
This product, when processed as an antibacterial agent, achieves an antibacterial rate of over 95% against E. coli and Staphylococcus aureus. When directly added to finished inorganic antibacterial agents, it achieves an antibacterial rate of over 93%.
Recommended Dosage of Nano-Assembled Inorganic Antibacterial Agent for Various Applications
Application | Antibacterial Agent | Recommended Dosage (%) | Sterilization Rate (%) |
Sanitary ware, ceramics | Ceramic Antibacterial Agent | 2-4% | 99.96% |
Plastics | Plastic Antibacterial Agent | 0.5-1.5% | 99.89% |
Paper, paint, coatings | Paper, Paint, Coating Antibacterial Agent | 0.2-1.5% | 99.93% |
Polypropylene, polyester, nylon, synthetic fibers | Fiber Antibacterial Agent | 0.5-1.5% | 99.95% |
Note: The antibacterial agent should be stored in a sealed, light-protected environment. During application, the maximum temperature should not exceed 1100°C, and it should avoid contact with iron-containing containers. The optimal dosage can be determined based on the specific product’s processing requirements. For intended applications, providing detailed processing techniques is recommended to guide the appropriate amount of antibacterial agent.
Zinc-Loaded Zeolite Technology
Zinc-loaded zeolite shares bactericidal and antibacterial properties with silver-loaded zeolite. Although slightly less effective in bactericidal ability, zinc-loaded zeolite is significantly more cost-effective, making it highly suitable for wide application.
Application in Feed: Zinc-loaded zeolite can be added to pig feed as a supplement, enhancing immunity and promoting faster growth. When combined with butyric acid and nano zinc oxide in specific ratios, it can prevent foot-and-mouth disease in pigs.
Application in Coatings: Zinc-loaded zeolite ground to 300-mesh powder can be used in coatings, forming a zinc layer that prevents mold growth in humid conditions. This zinc-enriched coating offers significant value in metal coatings.
Application in Paint: Ultra-fine zinc-loaded zeolite powder can also be added to paint, enhancing the paint’s corrosion resistance and antibacterial properties.
Water Treatment Filter Media Applications
Our zeolite series products are widely used for drinking water, industrial water, wastewater, and various types of filtration systems, such as standard quick filter pools, sewage filters, mechanical filters, multi-media filters, and integrated water purifiers.
For small and medium-sized boiler water softening, it effectively removes calcium and magnesium ions, reducing scale formation in boilers and extending their operational life.
As a filter media, zeolite can achieve a COD removal rate of 86%-92%, BOD removal rate of 99%, and color reduction rate of 77%-79% in textile wastewater. This is due to its larger specific surface area compared to sand filters, its suitability for microbial attachment, and its high ion exchange capacity, which allows it to absorb NH₄⁺ in water and promotes the growth of nitrifying bacteria to convert NH₄⁺ into nitrate.
In the steel, non-ferrous metals, chemical, and other industrial sectors, it can effectively remove phosphorus, lead, and hexavalent chromium from wastewater. Used zeolite can be regenerated using concentrated saline backwash, allowing for repeated use. It removes turbidity, color, odor, and harmful heavy metals (e.g., chromium, cadmium, nickel, zinc, mercury, iron ions) and organic substances such as phenols, nitrogen compounds, ammonia nitrogen, and phosphate ions, while leaving water free from toxic leachates and facilitating the removal of iron, manganese, copper, fluoride, and arsenic more effectively.
The zeolite and activated zeolite products are primarily used in municipal water, metallurgy, chemicals, building materials, petroleum, power, paper, textiles, dyeing, pharmaceuticals, brewing, beverages, purified water, and industrial wastewater treatment industries.
Corporate Commitment
Our company adheres to a high-tech, pollution-free development strategy, leveraging the rich non-metallic mineral resources provided by nature. In collaboration with institutions like Harbin Institute of Technology, Tongji University, and the Chinese Academy of Agricultural Sciences, we focus on producing environmentally friendly materials for drinking water purification, wastewater treatment, air pollution control, health products, soil improvement, and heavy metal soil remediation, gaining national recognition as a priority eco-friendly material.
