 |
|
| |
In the realm of water treatment, our zeolite powders are a game - changing solution. Water pollution is a global concern, and the demand for effective and sustainable water purification methods is on the rise. Zeolite powders, with their unique physical and chemical properties, offer a natural and efficient way to remove contaminants from water. They can selectively adsorb heavy metals, ammonia, organic pollutants, and other harmful substances, making them an essential component in various water treatment systems, from municipal water supplies to industrial wastewater treatment.
• Heavy Metal Adsorption: Our zeolite powders have a high affinity for heavy metals such as lead, cadmium, mercury, and zinc. Through ion - exchange and surface adsorption mechanisms, they can effectively remove these toxic metals from water, reducing the risk of environmental and health hazards.
• Ammonia Removal: Ammonia is a common pollutant in water bodies, especially in wastewater from agricultural and industrial sources. Zeolite powders can selectively adsorb ammonia, converting it into a less harmful form, and helping to maintain the ecological balance of water systems.
• pH Buffering Capacity: These powders have a certain pH buffering capacity, which can help to stabilize the pH of water during the treatment process. This is beneficial for maintaining the effectiveness of other treatment chemicals and for protecting the integrity of water treatment equipment.
• Biocompatibility: Zeolite powders are biocompatible, meaning they do not pose a threat to aquatic life or human health. This makes them suitable for use in water treatment systems where the treated water may come into contact with living organisms.
• High - Quality Water Production: By effectively removing various contaminants, our zeolite powders can help to produce high - quality water that meets or exceeds drinking water standards and industrial water requirements. This ensures the safety and reliability of water sources.
• Cost - effective Treatment: Compared to some traditional water treatment methods, using zeolite powders can be more cost - effective. Their long - lasting performance and reusability reduce the need for frequent replacement of treatment media, lowering overall treatment costs.
• Environmentally Sustainable: As a natural material, the use of zeolite powders in water treatment is an environmentally friendly approach. It minimizes the use of synthetic chemicals and reduces the environmental impact of water treatment processes.
• Q: How long does it take for zeolite powders to adsorb contaminants in water?
A: The adsorption time depends on factors such as the concentration of contaminants, the amount of zeolite powder used, and the flow rate of water. In general, significant adsorption can occur within a few hours to a few days, but for optimal results, a proper treatment system design is required.
• Q: Can zeolite powders be used in combination with other water treatment methods?
A: Yes, zeolite powders can be used in combination with other methods such as filtration, coagulation, and disinfection. This combination can enhance the overall water treatment efficiency and remove a wider range of contaminants.
• Q: How do I regenerate used zeolite powders for water treatment?
A: Zeolite powders used for water treatment can be regenerated by washing with a suitable solution (such as a salt solution for ammonia - loaded zeolites) or by thermal treatment, depending on the type of contaminants adsorbed.
ZSM-5 is the trade name for zeolite socony mobil-5, a pentasil aluminosilicate zeolite. Each pentasil unit is made up of eight 5-membered rings, and individual pentasil units are connected to each other by oxygen bridges to form regular corrugate sheets with 10-ring holes. The channel structure and acidity of ZSM-5 lends itself to a number of industrial uses such as acid-catalyzed reactions and as a support material for catalysis.
The ZSM-5 molecular sieve boasts unique and exceptional properties, which are widely employed in important processes and applications across a broad range of industries. Commonly used in converting methanol to gasoline and diesel as well as oil refining, ZSM-5 has proved superior to amorphous solid acid catalysts in reactions such as xylene isomerization, toluene disproportionation and toluene alkylation etc. Upon ion exchange or modification, H-ZSM-5 zeolites can be derived to also possess enhanced para-selectivity.
Application:
