 |
|
| |
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 consequently they are used in different systems for water treatment starting from municipal supplies up to industrial wastewater treatment.
Heavy Metal Adsorption- The zeolite powders have a great affinity toward heavy metals, particularly for lead, cadmium, mercury, and zinc. Through ion exchange and surface adsorption, the zeolite powders can remove heavy metals from water which carries the elements effectively. Therefore, all the toxic elements will be removed and no environmental or health hazards will take place.
Ammonia is a common pollutant as wastes flow from agro-based and industrial-based sources. Zeolite powders selectively adsorb ammonia by converting it into a less toxic form, thereby sustaining the ecological balance of water systems.
pH Buffering Capacity- They have a certain pH buffering capacity. It helps stabilize the pH of water in the course of treatment. Stabilized pH makes other chemicals used maintain their intended purpose to be effective and also preserves the integrity of the equipment.
Biocompatibility means that Zeolite powders do not endanger aquatic life and human health safety. It is very applicable in water treatment systems since the treated water may have contact with living organisms.
Water of high quality: By effectively removing a large number of contaminants, our zeolite powders assist in the production of water that is already above the standard for drinking water and industrial water requirements. It ensures the safety, and reliability, of the sources.
Cheaper treatment: Compared to some methods of treating water the old way, using zeolite powders can save more. Their long-lasting use and reusability do not need often replacement of the treatment media which lowers the treatment cost in general.
Environmentally Sustainable:As it is a natural product, the use of zeolite powders for water treatment presents an environmentally friendly method. It reduces the amount of synthetic chemicals used and lowers the environmental impact from the process of water treatment.
Q: What is the time taken by zeolite powders to adsorb impurities from water?
A: It will depend on the concentration of impurities, how much powder is used, and what the flow rate of water is. In general, significant adsorption takes place within a few hours to a few days.
Used zeolite powders can generally be regenerated by washing them with a salt solution. The common salt usually used is table salt, scientifically known as sodium chloride (NaCl). Mix the salt into clean water and pour this salty water through the used zeolite.
Zeolite powders applied in water treatment are regenerated by washing with an appropriate solution- mostly a salt solution for ammonia-loaded zeolites- or by thermal treatment, based on the nature of contaminants adsorbed.
ZSM-5 is a pentasil aluminosilicate zeolite. It happens so that in the structure of ZSM-5, eight 5-membered rings are connected by oxygen bridges between separate pentasil units forming regular corrugate sheets having holes of a ten-unit size. Channel structure and acidity make it find industrial applications as supports for catalysis and in acid-catalyzed reactions.
The ZSM-5 molecular sieve has very special and great features, which find use in key steps and uses across many fields. Often used in turning methanol into fuel and oil as well as cleaning oil, ZSM-5 has shown better results than shapeless solid acid helpers in tasks like xylene change, toluene spreading and toluene adding etc. After swapping ions or changing it, H-ZSM-5 stones can be made to also have better para-pickiness.
Product | Series Code | Framework | SiO2/Al2O3 (mol/mol) | Pore Diameter Å | Crystal Size μm | 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 |
Application:
- Industrial VOC - Industrial off-gas purification - NOX - N2O Reduction - Automotive Emission Control | - Odor Removal - For Active Carbon Replacement - Refining and Petrochemical Production |
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 consequently they are used in different systems for water treatment starting from municipal supplies up to industrial wastewater treatment.
Heavy Metal Adsorption- The zeolite powders have a great affinity toward heavy metals, particularly for lead, cadmium, mercury, and zinc. Through ion exchange and surface adsorption, the zeolite powders can remove heavy metals from water which carries the elements effectively. Therefore, all the toxic elements will be removed and no environmental or health hazards will take place.
Ammonia is a common pollutant as wastes flow from agro-based and industrial-based sources. Zeolite powders selectively adsorb ammonia by converting it into a less toxic form, thereby sustaining the ecological balance of water systems.
pH Buffering Capacity- They have a certain pH buffering capacity. It helps stabilize the pH of water in the course of treatment. Stabilized pH makes other chemicals used maintain their intended purpose to be effective and also preserves the integrity of the equipment.
Biocompatibility means that Zeolite powders do not endanger aquatic life and human health safety. It is very applicable in water treatment systems since the treated water may have contact with living organisms.
Water of high quality: By effectively removing a large number of contaminants, our zeolite powders assist in the production of water that is already above the standard for drinking water and industrial water requirements. It ensures the safety, and reliability, of the sources.
Cheaper treatment: Compared to some methods of treating water the old way, using zeolite powders can save more. Their long-lasting use and reusability do not need often replacement of the treatment media which lowers the treatment cost in general.
Environmentally Sustainable:As it is a natural product, the use of zeolite powders for water treatment presents an environmentally friendly method. It reduces the amount of synthetic chemicals used and lowers the environmental impact from the process of water treatment.
Q: What is the time taken by zeolite powders to adsorb impurities from water?
A: It will depend on the concentration of impurities, how much powder is used, and what the flow rate of water is. In general, significant adsorption takes place within a few hours to a few days.
Used zeolite powders can generally be regenerated by washing them with a salt solution. The common salt usually used is table salt, scientifically known as sodium chloride (NaCl). Mix the salt into clean water and pour this salty water through the used zeolite.
Zeolite powders applied in water treatment are regenerated by washing with an appropriate solution- mostly a salt solution for ammonia-loaded zeolites- or by thermal treatment, based on the nature of contaminants adsorbed.
ZSM-5 is a pentasil aluminosilicate zeolite. It happens so that in the structure of ZSM-5, eight 5-membered rings are connected by oxygen bridges between separate pentasil units forming regular corrugate sheets having holes of a ten-unit size. Channel structure and acidity make it find industrial applications as supports for catalysis and in acid-catalyzed reactions.
The ZSM-5 molecular sieve has very special and great features, which find use in key steps and uses across many fields. Often used in turning methanol into fuel and oil as well as cleaning oil, ZSM-5 has shown better results than shapeless solid acid helpers in tasks like xylene change, toluene spreading and toluene adding etc. After swapping ions or changing it, H-ZSM-5 stones can be made to also have better para-pickiness.
Product | Series Code | Framework | SiO2/Al2O3 (mol/mol) | Pore Diameter Å | Crystal Size μm | 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 |
Application:
- Industrial VOC - Industrial off-gas purification - NOX - N2O Reduction - Automotive Emission Control | - Odor Removal - For Active Carbon Replacement - Refining and Petrochemical Production |