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ZSM-5 molecular sieve are widely employed in Industrial VOC removal,Industrial off-gas purification,NOX N2O Reduction, Automotive Emission Control, Odor Removal for Active Carbon Replacement Refining and Petrochemical Production.
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ZSM-5
In the ever - growing challenge of wastewater treatment, our zeolites offer a sustainable and efficient solution. Wastewater often contains a complex mixture of contaminants, including heavy metals, ammonia, organic compounds, and pathogens. Zeolites, with their unique physical and chemical properties, can play a crucial role in the remediation of wastewater, helping to purify it before it is released back into the environment or reused. Our zeolite products are specifically developed to target different types of pollutants, making them suitable for a wide range of wastewater treatment applications, from municipal sewage treatment plants to industrial wastewater discharge points.
• Heavy Metal Sequestration: Our zeolites have a high affinity for heavy metals such as lead, mercury, cadmium, and chromium. Through ion - exchange and surface - adsorption mechanisms, they can effectively bind to these heavy metals, removing them from the wastewater and reducing the risk of environmental contamination.
• Ammonia Nitrogen Removal: Ammonia nitrogen is a common and problematic pollutant in wastewater, especially from agricultural and industrial sources. Our zeolites can selectively adsorb ammonia, converting it into a less harmful form and reducing the nitrogen load in the treated water.
• Biodegradation Enhancement: The porous structure of zeolites provides an ideal surface for the attachment and growth of beneficial microorganisms. These microorganisms can then break down organic pollutants in the wastewater more effectively, enhancing the overall biodegradation process.
• Reusability: Many of our zeolite products can be regenerated and reused multiple times. After they have adsorbed pollutants, appropriate regeneration methods such as chemical washing or thermal treatment can be applied to restore their adsorption capacity, reducing the overall cost and environmental impact of wastewater treatment.
• Environmentally Responsible Treatment: By effectively removing pollutants from wastewater, our zeolites help to protect water bodies and ecosystems. Treated water that meets environmental standards can be safely discharged, minimizing the negative impact of wastewater on the environment.
• Cost Savings: The reusability of our zeolites reduces the need for continuous purchase of new treatment media, resulting in significant cost savings for wastewater treatment facilities. Additionally, the enhanced biodegradation process can lead to lower energy consumption and chemical usage in the treatment process.
• Compliance with Regulations: Using our zeolite - based wastewater treatment solutions helps industrial and municipal facilities meet strict environmental regulations regarding wastewater discharge. This ensures uninterrupted operation and avoids potential fines and legal issues.
• Q: What is the optimal dosage of zeolites for wastewater treatment?
A: The optimal dosage depends on several factors, including the type and concentration of pollutants in the wastewater, the treatment process used, and the characteristics of the zeolite product. Our technical experts can conduct laboratory tests and provide customized dosage recommendations based on your specific wastewater treatment requirements.
• Q: How does the presence of other substances in wastewater affect zeolite performance?
A: While zeolites are highly selective, the presence of certain substances may impact their performance. For example, high concentrations of competing ions can reduce the adsorption of target pollutants. However, our zeolites are designed to perform well in a variety of wastewater conditions, and our team can offer solutions to mitigate any potential interference.
• Q: Can zeolites be used in combination with other wastewater treatment technologies?
A: Yes, zeolites can be integrated with other treatment technologies such as activated sludge processes, membrane filtration, and chemical oxidation. This combination can enhance the overall treatment efficiency and enable the removal of a wider range of contaminants from wastewater.
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.
Product | Series Code | Framework | SiO2/Al2O3 (mol/mol) | Pore Diameter Å | Crystal Size um | Cation | BET mm2/g | L.O.I 1000℃,% | Na2O % | Partcicle Size μm(D50) |
ZSM-5 | Z30n | MFI | 25-35 | 5.8Å | 0.2-0.3 | Na, NH4+ H+ | >380 | <10 | <0.05 | 5-10 |
ZSM-5 | Z30 | MFI | 25-35 | 5.8Å | 0.5-1 | Na, NH4+ H+ | >370 | <10 | <0.05 | 5-10 |
ZSM-5 | Z120 | MFI | 110-130 | 5.8Å | Na, NH4+ H+ | |||||
ZSM-5 | Z150 | MFI | 140-160 | 5.8Å | Na, NH4+ H+ | |||||
ZSM-5 | Z200 | MFI | 160-230 | 5.8Å | Na, NH4+ H+ | |||||
ZSM-5 | Z300 | MFI | 250-350 | 5.8Å | Na, NH4+ H+ | |||||
ZSM-5 | Z400 | MFI | 350-450 | 5.8Å | Na, NH4+ H+ | |||||
ZSM-5 | Z600 | MFI | 500-700 | 5.8Å | 0.5-1 | Na, NH4+ H+ | >390 | <10 | <0.05 | 5-10 |
ZSM-5 | Z800 | MFI | 700-900 | 5.8Å | Na, NH4+ H+ | |||||
ZSM-5 | Z1200 | MFI | 900-1500 | 5.8Å | Na, NH4+ H+ | |||||
ZSM-5 | Z1500 | MFI | >1500 | 5.8Å | 1-2 | Na, NH4+ H+ | >3400 | <10 | <0.05 | 5-10 |
In the ever - growing challenge of wastewater treatment, our zeolites offer a sustainable and efficient solution. Wastewater often contains a complex mixture of contaminants, including heavy metals, ammonia, organic compounds, and pathogens. Zeolites, with their unique physical and chemical properties, can play a crucial role in the remediation of wastewater, helping to purify it before it is released back into the environment or reused. Our zeolite products are specifically developed to target different types of pollutants, making them suitable for a wide range of wastewater treatment applications, from municipal sewage treatment plants to industrial wastewater discharge points.
• Heavy Metal Sequestration: Our zeolites have a high affinity for heavy metals such as lead, mercury, cadmium, and chromium. Through ion - exchange and surface - adsorption mechanisms, they can effectively bind to these heavy metals, removing them from the wastewater and reducing the risk of environmental contamination.
• Ammonia Nitrogen Removal: Ammonia nitrogen is a common and problematic pollutant in wastewater, especially from agricultural and industrial sources. Our zeolites can selectively adsorb ammonia, converting it into a less harmful form and reducing the nitrogen load in the treated water.
• Biodegradation Enhancement: The porous structure of zeolites provides an ideal surface for the attachment and growth of beneficial microorganisms. These microorganisms can then break down organic pollutants in the wastewater more effectively, enhancing the overall biodegradation process.
• Reusability: Many of our zeolite products can be regenerated and reused multiple times. After they have adsorbed pollutants, appropriate regeneration methods such as chemical washing or thermal treatment can be applied to restore their adsorption capacity, reducing the overall cost and environmental impact of wastewater treatment.
• Environmentally Responsible Treatment: By effectively removing pollutants from wastewater, our zeolites help to protect water bodies and ecosystems. Treated water that meets environmental standards can be safely discharged, minimizing the negative impact of wastewater on the environment.
• Cost Savings: The reusability of our zeolites reduces the need for continuous purchase of new treatment media, resulting in significant cost savings for wastewater treatment facilities. Additionally, the enhanced biodegradation process can lead to lower energy consumption and chemical usage in the treatment process.
• Compliance with Regulations: Using our zeolite - based wastewater treatment solutions helps industrial and municipal facilities meet strict environmental regulations regarding wastewater discharge. This ensures uninterrupted operation and avoids potential fines and legal issues.
• Q: What is the optimal dosage of zeolites for wastewater treatment?
A: The optimal dosage depends on several factors, including the type and concentration of pollutants in the wastewater, the treatment process used, and the characteristics of the zeolite product. Our technical experts can conduct laboratory tests and provide customized dosage recommendations based on your specific wastewater treatment requirements.
• Q: How does the presence of other substances in wastewater affect zeolite performance?
A: While zeolites are highly selective, the presence of certain substances may impact their performance. For example, high concentrations of competing ions can reduce the adsorption of target pollutants. However, our zeolites are designed to perform well in a variety of wastewater conditions, and our team can offer solutions to mitigate any potential interference.
• Q: Can zeolites be used in combination with other wastewater treatment technologies?
A: Yes, zeolites can be integrated with other treatment technologies such as activated sludge processes, membrane filtration, and chemical oxidation. This combination can enhance the overall treatment efficiency and enable the removal of a wider range of contaminants from wastewater.
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.
Product | Series Code | Framework | SiO2/Al2O3 (mol/mol) | Pore Diameter Å | Crystal Size um | Cation | BET mm2/g | L.O.I 1000℃,% | Na2O % | Partcicle Size μm(D50) |
ZSM-5 | Z30n | MFI | 25-35 | 5.8Å | 0.2-0.3 | Na, NH4+ H+ | >380 | <10 | <0.05 | 5-10 |
ZSM-5 | Z30 | MFI | 25-35 | 5.8Å | 0.5-1 | Na, NH4+ H+ | >370 | <10 | <0.05 | 5-10 |
ZSM-5 | Z120 | MFI | 110-130 | 5.8Å | Na, NH4+ H+ | |||||
ZSM-5 | Z150 | MFI | 140-160 | 5.8Å | Na, NH4+ H+ | |||||
ZSM-5 | Z200 | MFI | 160-230 | 5.8Å | Na, NH4+ H+ | |||||
ZSM-5 | Z300 | MFI | 250-350 | 5.8Å | Na, NH4+ H+ | |||||
ZSM-5 | Z400 | MFI | 350-450 | 5.8Å | Na, NH4+ H+ | |||||
ZSM-5 | Z600 | MFI | 500-700 | 5.8Å | 0.5-1 | Na, NH4+ H+ | >390 | <10 | <0.05 | 5-10 |
ZSM-5 | Z800 | MFI | 700-900 | 5.8Å | Na, NH4+ H+ | |||||
ZSM-5 | Z1200 | MFI | 900-1500 | 5.8Å | Na, NH4+ H+ | |||||
ZSM-5 | Z1500 | MFI | >1500 | 5.8Å | 1-2 | Na, NH4+ H+ | >3400 | <10 | <0.05 | 5-10 |