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ZSM-5 molecular sieves are commonly employed in the removal of Industrial VOCs, the reduction of Industrial off-gas, the control of Automotive Emissions, the removal of Odors for the replacement of active carbon, and Petrochemical production.
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ZSM-5
• Heavy Metal Sequestration: Our zeolites have a significant affinity for heavy metals like lead, mercury, cadmium, and chromium. Through mechanisms that exchange ions and attach to the surface, they can effectively associate with these metals, removing them from the wastewater and decreasing the potential for environmental pollution.
• Ammonia nitrogen removal: Ammonia nitrogen is common and troublesome in wastewater, this is particularly true of agricultural and industrial sources. Our zeolites have a specific capacity to adsorb ammonia, this converts the chemical into a less detrimental form and reduces the load of nitrogen in the treated water.
• Biodegradation Support: The porous structure of zeolites offers an ideal platform for the growth and attachment of beneficial microorganisms. These microorganisms can then décompose organic pollution in the wastewater more thoroughly, which overall increases the process of biodegradation.
• Reusability: Many of our products made of zeolite can be repeated and used multiple times. After they've adsorbed pollutants, they can be properly regenerated via chemical washing or thermal treatment that will reduce the overall cost and environmental impact of wastewater treatment.
Environmentally Responsible treatment: By removing pollutants from wastewater, our zeolites help to preserve water bodies and habitats. Treated water that is environmentally friendly can be safely released, this will minimize the negative effects of wastewater on the environment.
• Cost Reduction: The reusability of our zeolites is responsible for the reduction of the need for constant media purchase, this results in significant savings for wastewater treatment facilities. Additionally, the increased biodegradability process can lead to a lower consumption of energy and chemicals in the treatment process.
Follow the regulations: Our zeolite-based wastewater treatment solutions help facilities associated with industry and municipalities achieve stringent environmental regulations regarding the release of wastewater. This guarantees continuous operation without problems and avoids potential sanctions and fines.
• Q: What is the proper amount of zeolites to use in the treatment of wastewater?
The optimal dosage is dependent on multiple factors, including the type and concentration of pollution in the wastewater, the process of treatment, and the properties of the zeolite product. Our technical experts can conduct experiments in the laboratory and provide specific dosages of chemicals based on your specific wastewater treatment goals.
• Q: How does the additional content of substances in wastewater affect the performance of zeolite?
A: While zeolites are primarily selective, the presence of specific substances may adversely affect their performance. For instance, high concentrations of competing ions can adversely affect the ability to adsorb target pollution. However, our zeolites are intended to function effectively in multiple types of wastewater, our team can provide solutions that will mitigate any potential problems.
• Q: Can zeolites be combined with other water treatment methods?
A: Yes, zeolites can be combined with other technology types such as activated sludge, membrane filtration, and chemical oxidation. This amalgamation can augment the overall effectiveness of the treatment process and facilitate the removal of a larger number of pollutants from wastewater.
ZSM-5 is the common name for zeolite society mobil-5, a type of aluminosilicate zeolite that is pentasil long. Each pentasil unit is composed of eight 5-membered rings, and individual units are connected by oxygen bridges to create a regular pattern with 10-ring spaces. The channel composition and acidity of ZSM-5 is ideal for a variety of industrial applications that require acidity, including chemical reactions that are catalyzed by acid and as a support for catalyze.
The ZSM-5 molecular sieves have unique, exceptional properties that are employed in important processes and applications in a variety of industries. Commonly employed in the conversion of methanol to gasoline and diesel as well as in oil refining, ZSM-5 has demonstrated to be superior to amorphous solid catalysts in regards to reactions like the isomerization of xylene, the disproportionation of toluene and the alkylation of toluene. After being ion exchanged or altered, H-ZSM-5 zeolites can be converted into a more selective form.
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 |
• Heavy Metal Sequestration: Our zeolites have a significant affinity for heavy metals like lead, mercury, cadmium, and chromium. Through mechanisms that exchange ions and attach to the surface, they can effectively associate with these metals, removing them from the wastewater and decreasing the potential for environmental pollution.
• Ammonia nitrogen removal: Ammonia nitrogen is common and troublesome in wastewater, this is particularly true of agricultural and industrial sources. Our zeolites have a specific capacity to adsorb ammonia, this converts the chemical into a less detrimental form and reduces the load of nitrogen in the treated water.
• Biodegradation Support: The porous structure of zeolites offers an ideal platform for the growth and attachment of beneficial microorganisms. These microorganisms can then décompose organic pollution in the wastewater more thoroughly, which overall increases the process of biodegradation.
• Reusability: Many of our products made of zeolite can be repeated and used multiple times. After they've adsorbed pollutants, they can be properly regenerated via chemical washing or thermal treatment that will reduce the overall cost and environmental impact of wastewater treatment.
Environmentally Responsible treatment: By removing pollutants from wastewater, our zeolites help to preserve water bodies and habitats. Treated water that is environmentally friendly can be safely released, this will minimize the negative effects of wastewater on the environment.
• Cost Reduction: The reusability of our zeolites is responsible for the reduction of the need for constant media purchase, this results in significant savings for wastewater treatment facilities. Additionally, the increased biodegradability process can lead to a lower consumption of energy and chemicals in the treatment process.
Follow the regulations: Our zeolite-based wastewater treatment solutions help facilities associated with industry and municipalities achieve stringent environmental regulations regarding the release of wastewater. This guarantees continuous operation without problems and avoids potential sanctions and fines.
• Q: What is the proper amount of zeolites to use in the treatment of wastewater?
The optimal dosage is dependent on multiple factors, including the type and concentration of pollution in the wastewater, the process of treatment, and the properties of the zeolite product. Our technical experts can conduct experiments in the laboratory and provide specific dosages of chemicals based on your specific wastewater treatment goals.
• Q: How does the additional content of substances in wastewater affect the performance of zeolite?
A: While zeolites are primarily selective, the presence of specific substances may adversely affect their performance. For instance, high concentrations of competing ions can adversely affect the ability to adsorb target pollution. However, our zeolites are intended to function effectively in multiple types of wastewater, our team can provide solutions that will mitigate any potential problems.
• Q: Can zeolites be combined with other water treatment methods?
A: Yes, zeolites can be combined with other technology types such as activated sludge, membrane filtration, and chemical oxidation. This amalgamation can augment the overall effectiveness of the treatment process and facilitate the removal of a larger number of pollutants from wastewater.
ZSM-5 is the common name for zeolite society mobil-5, a type of aluminosilicate zeolite that is pentasil long. Each pentasil unit is composed of eight 5-membered rings, and individual units are connected by oxygen bridges to create a regular pattern with 10-ring spaces. The channel composition and acidity of ZSM-5 is ideal for a variety of industrial applications that require acidity, including chemical reactions that are catalyzed by acid and as a support for catalyze.
The ZSM-5 molecular sieves have unique, exceptional properties that are employed in important processes and applications in a variety of industries. Commonly employed in the conversion of methanol to gasoline and diesel as well as in oil refining, ZSM-5 has demonstrated to be superior to amorphous solid catalysts in regards to reactions like the isomerization of xylene, the disproportionation of toluene and the alkylation of toluene. After being ion exchanged or altered, H-ZSM-5 zeolites can be converted into a more selective form.
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 |