Factory industrial arsenic adsorbent heavy metal capture agent

NegotiableUpdate on 03/16

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Nature of the Manufacturer: Producers

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Overview

The high-temperature effect of industrial arsenic adsorbents in factories: PAM macromolecules are highly sensitive to high temperatures. For example, when a 0.1% PAM solution is placed at 80 ℃ for 4 hours, the molecular weight decreases from 21 million to 7.6 million, and when placed at 50 ℃, it also decreases to 16.9 million; PAM with a molecular weight of 10.5 million decreased to 3.3 million after being stored at 80 ℃ for 4 hours. At 30 ℃, the molecular weight decreases very slowly. If the original molecular weight of PAM is very low, such as 3.7 million, there will be little thermal degradation.

Product Details

Factory industrial arsenic adsorbent

This low-cost adsorbent is expected to help solve the environmental problems of arsenic and arsenic removal in the current adsorbent market. Used for purifying commercial, municipal, bottled water, and mineral water, it can remove arsenic, selenium, uranium, radium, molybdenum, nickel, and other heavy metals.

Compared with existing adsorbents based on aluminum or iron hydroxide media, TITANSORB has fast mass transfer kinetics, resulting in a very short EBCT, and reducing EBCT means lowering the capital cost of the equipment. For TITANSORB, an EBCT of 30 to 180 seconds is acceptable. The titanium dioxide particles are so strong that there is almost no pressure drop in the system. After cleaning the medium, no mesh will be generated. The surface of TITANSORB has a very large pore size.

The larger pores in TITANSORB medium allow for rapid mass transfer within particles, which makes the transfer time of EBCT very short compared to a few minutes on other existing adsorbents. The size of the installed pressure vessel is much smaller than that of aluminum based or iron hydroxide based adsorbents.

Advantages:

1. Has high adsorption capacity for arsenic and other heavy metals

2. Adsorption inside is large

3. Wide operating range

4. High purity and stable performance

5. Very low cost

6. No need for recycled chemicals

7. The system design is simple (only the filter tank needs to be filled to use)

8. Reduce equipment footprint

Factory industrial arsenic adsorbent

Widely used for gas and liquid phase drying in the petrochemical industry, drying in the textile industry, oxygen production industry, and automation instrument air, as well as pressure swing adsorption in the air separation industry. Due to the high net heat of the single-molecule adsorption layer, it is very suitable for non thermal regeneration devices. The arsenic removal adsorbent is a white spherical porous particle with uniform particle size, smooth surface, high mechanical strength, strong moisture absorption, and does not swell or crack after absorbing water to maintain its original state. The product is non-toxic, odorless, and insoluble in water and organic solvents. It is made by scientifically blending and refining high-purity alumina. It can be used as a defluoriner for high fluoride water, making it a molecular adsorbent with a huge specific surface area. When the pH and alkalinity of the raw water are low, the fluoride removal capacity is high, greater than 3.0mg/g. Can be used for defluorination, arsenic removal, wastewater decolorization, deodorization, etc. in drinking water and industrial facilities.

Measurement indicators:

The main indicators for measuring adsorbents include adsorption capacity for different gas impurities, wear rate, loose packing density, specific surface area, compressive strength, etc. Used for filtering harmful gases, refining petroleum and vegetable oils, preventing viruses and fungi, recovering gasoline from natural gas, and decolorizing sugar and other colored substances.