 |
|
| |
In agriculture, our zeolite-based powder has a variety of beneficial effects that can enhance the health of the soil, increase plant growth, and improve yields. As concerns regarding sustainable agriculture and reducing the utilization of synthetic fertilizers and pesticides increase, zeolite particles provide a natural and effective alternative. These powders can be employed in various agricultural endeavors, including soil improvement, fertilizer composition, and animal husbandry, this contributes to more productive and environmentally friendly farming.
• Soil structure improvement: Zeolite particles can increase the porosity of soil and the capacity to hold water. This facilitates the improvement of soil aeration and the ability to penetrate roots, which benefits the growth of plants.
• Nutrient retention and release: They have a high capacity for cation exchange, which enables them to retain and release essential nutrients like potassium, calcium, and magnesium. This guarantees a constant supply of nutrients to plants, this reduces the leaching of nutrients from the soil and improves the efficiency of fertilizers.
• Disease and Pest Resistance: Zeolite can also have a beneficial effect on plant disease and pest resistance. By improving the health of the soil and the nutrition of the plants, they become more resilient and better equipped to defend themselves against predators and diseases.
• pH Regulation: These powders can facilitate the regulation of soil pH, which will make acidic or alkaline soils more conducive to plant growth. They can buffer the soil's pH, which can be harmful to plants if changes are sudden.
• Increased Yields: By improving the soil and providing a consistent supply of nutrients, zeolite can increase the yield of crops greatly. Healthier plants have a higher productivity, which results in a higher quality and volume of agricultural products.
• Reduced Fertilizer Use: The mineral composition of zeolite allows it to retain nutrients in the soil, which reduces the amount of fertilizer that is applied. This not only promotes cost-savings, but also diminishes the environmental impact of overly aggressive fertilizer usage, such as water pollution.
• Sustainable Agriculture: The utilization of zeolite in agriculture promotes environmentally responsible farming methods. As a naturally occurring substance, it does not negatively impact the environment or the long term health of the soil and its ecosystem.
• Q: How much zeolite should I spread over my soil?
The utilization rate is contingent on factors like soil type, crop type, and the specifics of the soil. Typically, application rates are between 1 and 5 tons per hectare, but our agricultural experts can provide more specific guidance based on your specific situation.
Q: Can zeolite grinds be utilized in organic agriculture?
A: Yes, zeolite powder is a natural substance and is appropriate for utilization in organic farming. They can assist organic farmers in achieving the goals of soil improvement and nutrient management without the utilization of chemical compounds.
• Q: How long does it take to observe the effects of zeolite-based powder on plants?
A: The effects may differ depending on the soil type and crop. In some instances, increased plant growth and improved nutrient absorption can be observed within a few weeks, however, for more significant soil structural improvements, it may take several months to a year.
SAPO molecular sieves is a series of new silicoaluminophosphates that were created by the Union Carbide Corporation in 1982. Since then, molecular sieves made of silicoaluminum and its variously substituted atoms have been studied as catalysts. Among this molecular sieves, silicoaluminophosphate SAPO-34 is a molecular sieve that contains a chabazite-based framework that contains 8 membered ring ellipsoids and 3 dimensional channels that are formed by the stacking of double six-rings in the ABC sequence. SAPO-34 is a microporous molecular sieve that has a porosity of 0.38-0.38 nm and a cage size of 1.0-0.67 nm. The space group of the SAPO-34 is R3m, which is part of a trigonal crystal system.
Because of its proper acidity and porous structure, it has a unique capacity for water absorption, this property is used in the production of adsorbents, catalysts, and support for MTO reactions.
Product | Series Code | Framework | P2O5:SiO2:Al2O3 (mol/mol) | Pore Diameter Å | Crystal Size μm | Cation | BET mm2/g | L.O.I 1000℃,% | Na2O % | Partcicle Size μm(D50) |
SAPO-34 | YT-S-34 | CHA | 1:1:0.5 | 0.38×0.38 | _ | H+ | >550 | <10 | - | 5-10 |
Application: | |
- Application in conversion of low carbons to light alkenes (1) Methanol to light alkenes/propene (2) Chloromethane to light alkene (3) Ethylene to propene -Application in cracking reaction of heavy hydrocarbons (1) Olefin catalytic cracking to propylene (2) Heavy hydrocarbons catalytic cracking to propylene - Application in treatment of NOX | - Application in alkenes to light alkenes (1)Oxidative dehydrogenation of ethane (2)Dehydrogenation of propane (3)Dehydrogenation of butane - Application in zeolitic membrane (1) Selective separation of CO2/CH4 (2) Purification of H2 |
In agriculture, our zeolite-based powder has a variety of beneficial effects that can enhance the health of the soil, increase plant growth, and improve yields. As concerns regarding sustainable agriculture and reducing the utilization of synthetic fertilizers and pesticides increase, zeolite particles provide a natural and effective alternative. These powders can be employed in various agricultural endeavors, including soil improvement, fertilizer composition, and animal husbandry, this contributes to more productive and environmentally friendly farming.
• Soil structure improvement: Zeolite particles can increase the porosity of soil and the capacity to hold water. This facilitates the improvement of soil aeration and the ability to penetrate roots, which benefits the growth of plants.
• Nutrient retention and release: They have a high capacity for cation exchange, which enables them to retain and release essential nutrients like potassium, calcium, and magnesium. This guarantees a constant supply of nutrients to plants, this reduces the leaching of nutrients from the soil and improves the efficiency of fertilizers.
• Disease and Pest Resistance: Zeolite can also have a beneficial effect on plant disease and pest resistance. By improving the health of the soil and the nutrition of the plants, they become more resilient and better equipped to defend themselves against predators and diseases.
• pH Regulation: These powders can facilitate the regulation of soil pH, which will make acidic or alkaline soils more conducive to plant growth. They can buffer the soil's pH, which can be harmful to plants if changes are sudden.
• Increased Yields: By improving the soil and providing a consistent supply of nutrients, zeolite can increase the yield of crops greatly. Healthier plants have a higher productivity, which results in a higher quality and volume of agricultural products.
• Reduced Fertilizer Use: The mineral composition of zeolite allows it to retain nutrients in the soil, which reduces the amount of fertilizer that is applied. This not only promotes cost-savings, but also diminishes the environmental impact of overly aggressive fertilizer usage, such as water pollution.
• Sustainable Agriculture: The utilization of zeolite in agriculture promotes environmentally responsible farming methods. As a naturally occurring substance, it does not negatively impact the environment or the long term health of the soil and its ecosystem.
• Q: How much zeolite should I spread over my soil?
The utilization rate is contingent on factors like soil type, crop type, and the specifics of the soil. Typically, application rates are between 1 and 5 tons per hectare, but our agricultural experts can provide more specific guidance based on your specific situation.
Q: Can zeolite grinds be utilized in organic agriculture?
A: Yes, zeolite powder is a natural substance and is appropriate for utilization in organic farming. They can assist organic farmers in achieving the goals of soil improvement and nutrient management without the utilization of chemical compounds.
• Q: How long does it take to observe the effects of zeolite-based powder on plants?
A: The effects may differ depending on the soil type and crop. In some instances, increased plant growth and improved nutrient absorption can be observed within a few weeks, however, for more significant soil structural improvements, it may take several months to a year.
SAPO molecular sieves is a series of new silicoaluminophosphates that were created by the Union Carbide Corporation in 1982. Since then, molecular sieves made of silicoaluminum and its variously substituted atoms have been studied as catalysts. Among this molecular sieves, silicoaluminophosphate SAPO-34 is a molecular sieve that contains a chabazite-based framework that contains 8 membered ring ellipsoids and 3 dimensional channels that are formed by the stacking of double six-rings in the ABC sequence. SAPO-34 is a microporous molecular sieve that has a porosity of 0.38-0.38 nm and a cage size of 1.0-0.67 nm. The space group of the SAPO-34 is R3m, which is part of a trigonal crystal system.
Because of its proper acidity and porous structure, it has a unique capacity for water absorption, this property is used in the production of adsorbents, catalysts, and support for MTO reactions.
Product | Series Code | Framework | P2O5:SiO2:Al2O3 (mol/mol) | Pore Diameter Å | Crystal Size μm | Cation | BET mm2/g | L.O.I 1000℃,% | Na2O % | Partcicle Size μm(D50) |
SAPO-34 | YT-S-34 | CHA | 1:1:0.5 | 0.38×0.38 | _ | H+ | >550 | <10 | - | 5-10 |
Application: | |
- Application in conversion of low carbons to light alkenes (1) Methanol to light alkenes/propene (2) Chloromethane to light alkene (3) Ethylene to propene -Application in cracking reaction of heavy hydrocarbons (1) Olefin catalytic cracking to propylene (2) Heavy hydrocarbons catalytic cracking to propylene - Application in treatment of NOX | - Application in alkenes to light alkenes (1)Oxidative dehydrogenation of ethane (2)Dehydrogenation of propane (3)Dehydrogenation of butane - Application in zeolitic membrane (1) Selective separation of CO2/CH4 (2) Purification of H2 |