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Molecular sieves

TRDN-3 Molecular Sieve Adsorbent For Flue Gas Denitration

TRDN-3 molecular sieve is a kind of high-silicon zeolite molecular sieve with three-dimensional cross direct structure, and excellent adsorption capacity of SO2, NOx and other acidic gases. 
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Description
TRDN-3 Molecular Sieve Adsorbent For Flue Gas Denitration Properties
What is TRDN-3 Molecular Sieve Adsorbent For Flue Gas Denitration ?

TRDN-3 molecular sieve is an efficient and highly selective adsorbent widely used in various fields. It is a synthetic inorganic crystal material with a regular arrangement of nanoscale pore structure, with a high specific surface area, activity, and selectivity.
TRDN-3 molecular sieve has a unique pore structure and chemical properties, which can adsorb and separate various gas and liquid mixtures. Its pore size and shape can be selectively adsorbed and separated according to the size and polarity of different molecules, making it a highly efficient separation agent. In addition, the TRDN-3 molecular sieve also has good thermal stability, and water stability can work stably under high temperature and high humidity conditions. 


TRUNNANO is a trusted global supplier of TRDN-3 Molecular Sieve Adsorbent For Flue Gas DenitrationFeel free to send an inquiry to get the latest priceif you would like to buy in bulk.

Technical Parameter of TRDN-3 Molecular Sieve Adsorbent For Flue Gas Denitration:
Si/Al Ratio 25-35
BET Surface Area ≥280 m2/g
NOx Adsorption ≥0.3 mmol/g
Crush Strength ≥30N
Bulk Density ≥0.55g/ml


Properties of TRDN-3 Molecular Sieve Adsorbent For Flue Gas Denitration:

High adsorption capacity, a large adsorption capacity for SO2, NOx and other acidic gas;

High acid resistance, to work stably under acidic gas conditions, has a long service life;  

Excellent hydrophobic performance, high hydrothermal stability.  

 

Applications of TRDN-3 Molecular Sieve Adsorbent For Flue Gas Denitration:

Oil and Gas industry:
TRDN-3 molecular Sieve Adsorbents can be utilized in the gas and oil industry for improved natural gas recovery and purification. Its regularly arranged pore structure provides efficient and reversible molecular adsorption and separation properties. In addition, the TRDN-3 molecular sieve could be utilized as a catalyst carrier or an additive to increase the efficiency and efficiency of the catalyst, thereby improving the utilization efficiency of oil and natural gas.
Chemical Industry:
TRDN-3 molecular sieve adsorbent can be used in the chemical industry as a catalyst, catalyst carrier, catalyst additive, and other fields. The pore structure can provide efficient molecular adsorption and separation properties to facilitate chemical reactions. In addition, the TRDN-3 molecular sieve can also be used for catalytic cracking, alkylation, isomerization, and other reactions to improve the efficiency of chemical reactions and product purity.
Environmental protection:
TRDN-3 molecular sieve adsorbent can be used for air purification and waste gas treatment for environmental protection. It has the characteristics of high activity and high selectivity. It can quickly absorb and segregate harmful gases like nitroxides, volatile organic compounds, and pollutants like soot and particulate matter. In addition, TRDN-3 molecular sieve can also be used in environmental protection projects such as sewage treatment and desalination.
Separation technology:
In the field of separation technology, TRDN-3 molecular sieve adsorbents can be used for gas separation, liquid separation, and solid separation. It has the characteristics of high selectivity and high permeability and can efficiently separate various gas and liquid mixtures, as well as solid mixtures. In addition, TRDN-3 molecular sieve can also be used in chromatographic analysis, ion exchange, and other fields.
Material field:
In the field of materials, TRDN-3 molecular sieves can be combined with other materials to form functional materials. For example, the TRDN-3 molecular sieve can be used as an additive or enhancer for ceramic materials, polymer materials, and metal materials to improve the performance and stability of materials. In addition, the TRDN-3 molecular sieve can also be used to manufacture catalyst carriers, filters, molecular sieve membranes, and other materials.
Power industry:
In the power industry, TRDN-3 molecular sieve adsorbent can be used for power equipment purification, separation, and desulfurization. It can efficiently adsorb and separate pollutants and impurities in power equipment and improve its operating efficiency and stability. In addition, the TRDN-3 molecular sieve can also be used for desulfurization and purification of power equipment to reduce the emission of pollutants.
Biomedical field:
TRDN-3 molecular sieve adsorbent can be used as a drug carrier and storage agent in the biomedical field. With high specific surface area, high activity, and high selectivity, it can efficiently adsorb and store drugs and accurately control drug release. In addition, TRDN-3 molecular sieve can also be used for the manufacture and modification of biomedical materials.


Production Method of TRDN-3 Molecular Sieve Adsorbent For Flue Gas Denitration:
In the synthesis stage, the basic units of molecular sieves are usually prepared by hydrothermal synthesis, ion exchange, microemulsion, and other methods.
The hydrothermal synthesis method is one of the most commonly used methods. The silicate aqueous and aluminum brine solutions are mixed, adding the appropriate template agent and reaction under a certain temperature and pressure conditions for a certain time. Then, after molecular sieve crystals are obtained, shining, separation, drying, and other treatments, the molecule exchange method is to exchange the specific ion exchanger with the cation in the molecular sieve crystal to change the ion type and structure of the molecular sieve and prepare the molecular sieve with specific properties.
The microemulsion method is to form a tiny emulsion, synthesize a molecular sieve in microemulsion drops, and then prepare a molecular sieve with specific structures and properties by controlling the synthesis conditions.
In the processing stage, the synthesized molecular sieve is separated, washed, dried, etc., to obtain qualified molecular sieve products. Generally, it uses filtration, centrifugal separation, washing, and other processes for processing. Filtration is the separation of molecular sieve crystals from the synthetic solution, which can be used by vacuum, pressure, and other methods. Washing is to wash out impurities and unreacted raw materials in molecular sieve crystals to improve the purity and stability of the molecular sieve. Drying is to dry the molecular sieve crystal after washing to remove the water and other volatile substances in it to get a dry molecular sieve product.

Packing & Shipping of TRDN-3 Molecular Sieve Adsorbent For Flue Gas Denitration:

55 gallon / sealed steel drum;
TRUNNANO can customize different packaging according to customer requirements.


Waste Treatment & Disposal:

After adsorption saturation, TRDN-3 molecular sieve can desorb and regenerate through variable temperature adsorption.

TRDN-3 Molecular Sieve Adsorbent For Flue Gas Denitration 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 TRDN-3 Molecular Sieve Adsorbent For Flue Gas Denitration, please feel free to contact us and send an inquiry. ([email protected])

 

TRDN-3 Molecular Sieve Adsorbent For Flue Gas Denitration Properties

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TRDN-3 Molecular Sieve Adsorbent For Flue Gas Denitration Health & Safety Information

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