Molecular sieves

NSP-1 Molecular Sieve

NSP-1 molecular sieve is a crystalline silicon aluminate with developed three-dimensional pore structure and strong polarity. It has strong ability to adsorb water molecules, so it is suitable for deep natural gas dehydration occasions.
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Description
NSP-1 Molecular Sieve Properties
What is NSP-1 Molecular Sieve ?

NSP-1 molecular sieve is a white or yellowish crystal with a molecular weight of 600-800. Its main components are silicate and aluminate while containing a certain amount of water. NSP-1 molecular sieve has high thermal stability and can be used at high temperatures, and its crystal structure will not be damaged due to high temperatures. In addition, it has good resistance to toxicity and can maintain good catalytic performance in certain impurities. NSP-1 molecular sieve is a white or yellowish crystal with a molecular weight of 600-800. Its main components are silicate and aluminate while containing a certain amount of water. NSP-1 molecular sieve has high thermal stability and can be used at high temperatures, and its crystal structure will not be damaged due to high temperatures. In addition, it has good resistance to toxicity and can maintain good catalytic performance in certain impurities. NSP-1 molecular sieve has good catalytic performance and can be used in various organic reactions, such as cracking, alkylation, isomerization, disproportionation, etc. Its acidic properties allow it to promote the fracture of various C-C bonds and C-H bonds and thus achieve the transformation and production of organic molecules. Compared with other catalysts, NSP-1 molecular sieve has higher activity and selectivity, which can produce higher purity products.


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Technical Parameter of NSP-1 Molecular Sieve:
Item Type Unit Spherical Bar Note
Diameter mm 3-5mm 1-8’’ 1-16’’ -
Static H2O Adsorption %wt ≥21.5 ≥21.5 ≥21.5 25℃, saturated salt solution
Crush Strength N ≥100 ≥90 ≥40 Average 25 beads
Bulk Density g/ml ≥0.75 ≥0.70 ≥0.70 Tapped
Loss on Attrition %wt ≤0.10 ≤0.20 ≤0.20 -
Particle Ratio % ≥98 ≥98 ≥98 -
Package Moisture %wt ≤1.50 ≤1.50 ≤1.50 575℃, 1hr
 

Applications of NSP-1 Molecular Sieve:

Petrochemical field
In the petrochemical field, the NSP-1 molecular sieve catalyst is mainly used for cracking heavy oil to produce high-purity gasoline and other petroleum products. Due to the high activity and selectivity of the NSP-1 molecular sieve, it can effectively crack heavy oil while reducing the occurrence of side reactions and producing higher-purity gasoline and other petroleum products. In addition, NSP-1 molecular sieves can also be used in petrochemical processes such as alkylation and isomerization to improve product quality and yield.
Fertilizer field
In the fertilizer field, the NSP-1 molecular sieve mainly produces high-purity ammonia and urea fertilizer products. Using the NSP-1 molecular sieve catalyst, nitrogen in natural gas can be converted into ammonia, producing important fertilizer products such as urea. NSP-1 molecular sieve has good anti-toxicity and stability, can maintain good catalytic performance in the presence of certain impurities, and improves the quality and yield of fertilizer products.
Natural gas processing field
The NSP-1 Molecular Sieve is used to dehydrate natural gas, desulfurization, and nitrogen removal processes in natural gas processing. Natural gas contains a certain amount of impurities, such as water, sulfur, and nitrogen, which will affect natural gas's quality and utilization efficiency. Using NSP-1 molecular sieve catalysts, impurities such as water, sulfur, and nitrogen in natural gas can be effectively removed, and the quality and efficiency of utilization of natural gas may be enhanced. At the same time, NSP-1 molecular sieves can also be used to prepare synthetic gases, such as ammonia synthesis, methane synthesis, and other methods, to increase the yield and quality of synthetic gasses.
Other fields
In addition to the above applications, NSP-1 molecular sieve can also be used in other industrial processes, such as polymerization of olefins, alkylation of aromatics, dehydration of alcohols, etc. Using NSP-1 molecular sieve catalyst, various organic molecules can be effectively converted and synthesized to produce higher value-added products. In addition, NSP-1 molecular sieves can also be used in environmental protection fields, such as waste gas treatment, denitrification, and other processes, to help reduce environmental pollution.

Production Method of NSP-1 Molecular Sieve:
Preparation of synthetic materials
The production of NSP-1 molecular sieves requires the preparation of synthetic raw materials, including silicate, aluminate, hydroxide, and so on. These raw materials must be carefully screened and purified to ensure the quality and performance of the product. At the same time, to meet the synthesis requirements of the NSP-1 molecular sieve, it is usually necessary to prepare a certain amount of auxiliary raw materials such as water and organic template agents.
Control of synthesis conditions
The synthesis of NSP-1 molecular sieve needs to control certain synthesis conditions, including reaction temperature, reaction pressure, solution pH value, stirring speed, etc. These conditions must be controlled within a certain range to ensure the crystal structure and properties of the molecular sieve. For example, the reaction temperature must usually be controlled within a certain range. Too low or too high is not conducive to synthesizing molecular sieves. The reaction pressure should be controlled within a certain range to promote the formation and growth of the molecular sieve. The pH of the solution must be lowered by adding a specific amount of base or acid to guarantee that the structure and crystals of the molecular sieve are maintained. The stirring speed needs to be controlled properly to ensure the mixing of the solution and the formation of the molecular sieve.
Synthesis procedure
The synthesis of the NSP-1 molecular sieve consists of the following steps:
(1) The silicate and aluminate are dissolved in the solvent to form a uniform solution.
(2) Add a certain amount of organic template agent and other additives to adjust the chemical composition and properties of the solution.
(3) The solution is stirred and crystallized to form a precursor solution.
(4) The precursor solution was filtered, washed, and dried to obtain NSP-1 molecular sieve crystal.
Catalyst carrier selection
NSP-1 molecular sieve can be used as a catalyst carrier, so it is necessary to select suitable carrier materials. Commonly used carrier materials include alumina, calcium silicate, molecular sieve, etc. It is necessary to consider the chemical stability, mechanical strength, thermal stability, and other factors when selecting the support material to ensure the overall performance of the catalyst. At the same time, it is also necessary to consider the interaction between the carrier material and the molecular sieve to ensure the effectiveness and activity of the catalyst.
Catalyst preparation
The composite of NSP-1 molecular sieve and carrier material prepared the catalyst. In the preparation process, the active components must be impregnated, dried, and calcined to make the active components evenly distributed on the NSP-1 molecular sieve catalyst. At the same time, the particle size and morphology of the catalyst should be controlled during the preparation process to ensure the activity and stability of the catalyst. In addition, the catalyst needs to be characterized and tested to determine its chemical composition, crystal structure, active component content, specific surface area, pore structure, and other key parameters. These parameters will directly affect the performance and application range of the catalyst. Therefore, rigorous characterization and quality control for the catalyst are essential in production to guarantee the quality and effectiveness of the final product.

Storage and transportation
The produced NSP-1 molecular sieve catalyst needs to be properly stored and transported. Maintaining a dry, ventilated, and light-free environment during storage is necessary to avoid moisture or other damage to the catalyst. At the same time, appropriate protective measures need to be taken during transportation to avoid the impact of physical damage or environmental factors. In addition, it is also necessary to carry out packaging and distribution according to customer needs to ensure the correct use and effect of the catalyst.

Packing & Shipping of NSP-1 Molecular Sieve:

25kg/ carton;
55 gallon / sealed steel drum;
TRUNNANO can c
ustomize different packaging according to customer requirements.


 

NSP-1 Molecular Sieve supplier

Luoyang Tongrun Nano Technology Co. Ltd. (TRUNNANO) is a trusted global chemical material supplier & manufacturer with over 12 years of experience in providing super high-quality chemicals and Nanomaterials, including boride powder, nitride powder, graphite powder, sulfide powder, 3D printing powder, etc.

If you are looking for high-quality NSP-1 Molecular Sieve, please feel free to contact us and send an inquiry. ([email protected])

 

NSP-1 Molecular Sieve Properties

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NSP-1 Molecular Sieve Health & Safety Information

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