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Water Treatment Strong Base Anion Resin Flaxen To Chryso Spherical Grain
Product Details:
| Place of Origin: | China |
| Brand Name: | B&W |
| Certification: | ISO 9001:2008 ISO 14001:2004 |
| Model Number: | 307 / 201×7 |
Payment & Shipping Terms:
| Minimum Order Quantity: | As need |
|---|---|
| Price: | Negotiable |
| Packaging Details: | In 25kg PP bags |
| Delivery Time: | 2 weeks |
| Payment Terms: | T/T, L/C |
| Supply Ability: | As need |
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Detail Information |
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| Appearance: | Flaxen To Chryso Spherical Grain | Executing Standard: | GB/T13660-1992 DL/T519-2004 SH2605.06-2003 |
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| Ionic Form: | Cl | PH: | Basic |
| Type: | Styrene | Anion Or Cation: | Anion |
| High Light: | ion exchange water treatment chemicals,acidic ion exchange resin |
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Product Description
Water Treatment Strong Base Anion Resin Flaxen To Chryso Spherical Grain
307 Styrene Series Ion Exchange Resin Strongly Basic Anion 201 × 7 For Water Treatment
Executing standard: GB/T13660-1992 DL/T519-2004 SH2605.06-2003
Description
307 is used mainly to produce pure water and treat wastewater and extract tungsten and molybdenum in biochemical product and hydro-metallurgy.
It is a sort of anion exchange resin that has quaternary ammonium group [-N(CH3)3OH] in the styrene-diethylene benzene copolymer with 7% cross linking degree.
Typical physical and chemical properties
| ITMES | DATA |
| Appearance | Flaxen to chryso spherical grain |
| Moisture content % | 42.00-48.00 |
| Ionic form | Cl |
| The maximal regenerated capacity mmol/g | ≥3.80 |
| Total exchange capacity mmol/ml | ≥1.35 |
| Strong function group exchange capacity mmol/g | ≥3.50 |
| Shipping weight g/ml | 0.67-0.73 |
| True density g/ml | 1.070-1.100 |
| Particle size range % | (0.315-1.25mm)≥95 |
| The effective size mm | 0.400-0.700 |
| Lower limit size % | (<0.315mm)≤1 |
| Uniformity coefficient | ≤1.60 |
| Sphericity after attrition % | ≥90.00 |
Reference indexes in using
| ITMES | Reference value |
| Max. operation temperature in chlorine form °C | 80 |
| PH range | 1-14 |
| Swelling upon complete conversion (Cl--OH-) % | ≤25 |
| Working flow rate m/h | 15-30 |
| Working exchange capacity mmol/L | ≥450 |
Storage
Ion exchange resin can not be stored in the open air, and the storage temperature is 0-40°C. When the storage temperature is slightly lower than 0°C, the clarified saturated saline solution and the resin should be added into the packaging bag. In addition, when the storage temperature is too high, not only the resin is easily dehydrated, but also the degradation of the anion resin is accelerated. Once the resin loses water, it is not possible to add water directly when it is used. Soak it with clear, saturated salt solution, then gradually dilute with water, wash away salt, and keep it moist during storage.
Application
1) Water treatment
The demand for ion exchange resins in the field of water treatment is large, accounting for approximately 90% of the yield of ion exchange resins, and is used for the removal of various anions and cations in water. At present, the maximum consumption of ion-exchange resin is used for pure water treatment in thermal power plants, followed by atomic energy, semiconductors, and electronics industries.
The demand for ion exchange resins in the field of water treatment is large, accounting for approximately 90% of the yield of ion exchange resins, and is used for the removal of various anions and cations in water. At present, the maximum consumption of ion-exchange resin is used for pure water treatment in thermal power plants, followed by atomic energy, semiconductors, and electronics industries.
2) Pharmaceutical industry
The ion exchange resin in the pharmaceutical industry plays an important role in the development of a new generation of antibiotics and in the improvement of the quality of the original antibiotics. The successful development of streptomycin is an outstanding example. In recent years, research has also been conducted on the aspects of traditional Chinese medicines and other aspects.
The ion exchange resin in the pharmaceutical industry plays an important role in the development of a new generation of antibiotics and in the improvement of the quality of the original antibiotics. The successful development of streptomycin is an outstanding example. In recent years, research has also been conducted on the aspects of traditional Chinese medicines and other aspects.
3) Synthetic Chemistry and Petrochemical Industry
Acids and bases are commonly used as catalysts in organic synthesis for esterification, hydrolysis, transesterification, hydration and other reactions. The use of ion-exchange resins in place of inorganic acids and bases can also perform the above reaction with more advantages. If the resin can be used repeatedly, the product can be easily separated, the reactor can not be corroded, the environment can not be polluted, and the reaction can be easily controlled.
Methyl tert-butyl ether (MTBE) was prepared by using macroporous ion exchange resin as a catalyst and reacting isobutylene with methanol to replace the existing tetraethyl lead which could cause serious environmental pollution.
4) Food Industry
Ion exchange resins can be used in industrial equipment such as sugar, monosodium glutamate, wine refining, and biological products. For example, high-fructose syrup is produced by extracting starch from corn and then hydrolyzing it to produce glucose and fructose, which are then ion-exchanged to produce high fructose syrup. Ion exchange resin consumption in the food industry is second only to water treatment.
5) Environmental Protection
Ion exchange resins have been used in many environmental concerns. At present, many aqueous or non-aqueous solutions contain toxic ions or non-ionic substances that can be used for recycling. For example, the metal ions in the electroplating waste liquid are removed, and useful substances in the waste liquid of the film production are recovered.
6) Hydrometallurgy and others
Ion exchange resins can separate, concentrate, purify uranium and extract rare earth elements and precious metals from depleted uranium deposits.
Acids and bases are commonly used as catalysts in organic synthesis for esterification, hydrolysis, transesterification, hydration and other reactions. The use of ion-exchange resins in place of inorganic acids and bases can also perform the above reaction with more advantages. If the resin can be used repeatedly, the product can be easily separated, the reactor can not be corroded, the environment can not be polluted, and the reaction can be easily controlled.
Methyl tert-butyl ether (MTBE) was prepared by using macroporous ion exchange resin as a catalyst and reacting isobutylene with methanol to replace the existing tetraethyl lead which could cause serious environmental pollution.
4) Food Industry
Ion exchange resins can be used in industrial equipment such as sugar, monosodium glutamate, wine refining, and biological products. For example, high-fructose syrup is produced by extracting starch from corn and then hydrolyzing it to produce glucose and fructose, which are then ion-exchanged to produce high fructose syrup. Ion exchange resin consumption in the food industry is second only to water treatment.
5) Environmental Protection
Ion exchange resins have been used in many environmental concerns. At present, many aqueous or non-aqueous solutions contain toxic ions or non-ionic substances that can be used for recycling. For example, the metal ions in the electroplating waste liquid are removed, and useful substances in the waste liquid of the film production are recovered.
6) Hydrometallurgy and others
Ion exchange resins can separate, concentrate, purify uranium and extract rare earth elements and precious metals from depleted uranium deposits.
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