Indice
|
Nom
|
Spécification
|
|
Nom de l'index
|
Résine cationique
|
Résine anionique
|
|
Polymère
|
Copolymère de styrène-DVB, type gel
|
|
Groupe fonctionnel
|
-SO3
|
-N(CH3)3
|
|
Taux de conversion
|
≥ 99 % H+
|
≥ 90 % OH-
|
|
Rapport résine cationique/résine anionique V/V
|
1
|
1
|
|
Capacité d'échange de volume
|
≥ 1,75 mmol/ml
|
≥ 1,1 mmol/ml
|
|
Densité réelle (g/ml)
|
1,17~1,22 g/ml
|
1,06-1,09 g/ml
|
|
Masse volumique apparente (g/ml)
|
0,73~0,83 g/ml
|
0,66~0,71 g/ml
|
|
Capacité de rétention d'eau
|
51%~56%
|
53%~58%
|
|
Gamme de tailles de particules
|
0,315~1,25 mm ≥95 %
|
0,315~1,25 mm ≥95 %
|
|
Nombre total de billes (%)
|
≥ 95 %
|
≥ 95 %
|
|
Coefficient d'uniformité
|
≤1,6
|
≤1,6
|
Précautions
La résine doit être conservée à l'état humide. La température idéale est supérieure à 0 °C. En cas de non-utilisation prolongée, il est conseillé de la conserver dans un endroit fermé ou d'ajouter de l'eau salée à 5 % ou plus. Un antigel est recommandé pendant le transport. Ne pas poser d'objets lourds sur la résine afin de ne pas la heurter.
Le traitement nécessite généralement un circuit d'écoulement alcalin-eau-acide-eau. Trois cycles sont nécessaires avant d'atteindre le canal d'ions final.
Il faut tenir compte des différents taux d'expansion de transformation pour réserver suffisamment d'espace pour éviter le débordement de résine et garantir la hauteur de niveau de liquide appropriée ; le rapport de diamètre de la colonne doit être dans une plage raisonnable et éviter le courant de polarisation ; utiliser une colonne remplie d'eau ou un rinçage à contre-courant pour éliminer les bulles à l'intérieur de la couche de résine.
Avant que le liquide ne pénètre dans la colonne de résine, des étapes telles que la floculation, la filtration ou la filtration sur sable doivent être effectuées afin d'éviter que les pores de la résine ne soient obstrués par des solides en suspension.
La résine à l'intérieur de la colonne qui n'a pas été utilisée depuis longtemps doit être stockée à l'extérieur de la colonne après lavage, ou ajout d'eau salée dans le milieu résistant au sel tout en gardant le niveau de liquide non déshydraté avec un lavage à contre-courant habituel pour détacher la résine en cas d'agglomération.
High-Performance Water Purification with Mixed Bed Resin MX910
In today’s industrial and laboratory environments, the demand for ultra-pure water is higher than ever, requiring advanced solutions that combine efficiency, reliability, and long-term stability. Résine à lit mixte MX910 offers a proven approach to achieving exceptional water quality by integrating strong acid cation and strong base anion exchange resins in a single unit. This configuration allows for precise removal of residual ions, producing water with extremely low conductivity and minimal total dissolved solids, which is critical for applications ranging from electronics manufacturing to pharmaceutical production.
Supported by Hebei Lijiang Biotechnology Co., Ltd., a leading high-tech manufacturer specializing in mb 151 di resin, tulsion mb 111, purolite resin, purolite mb400, and purolite c100e, MX910 is deployed in both industrial-scale systems and laboratory setups. Lijiang’s advanced materials, combined with extensive technical support, ensure optimal performance, efficient regeneration, and consistent water quality. By leveraging these mixed bed resins, industries can meet stringent operational requirements, reduce downtime, and maintain environmentally responsible water treatment practices, providing a foundation for reliable and high-performance production processes.
Achieving Ultra-Pure Water with Mixed Bed Resin MX910
In modern industrial and laboratory operations, achieving ultra-pure water is a critical requirement for equipment longevity, process efficiency, and product quality. Résine à lit mixte MX910 has emerged as a leading solution for high-performance deionization, combining strong acid cation and strong base anion exchange resins in a single unit. This configuration enables precise removal of both cations and anions, producing water with extremely low conductivity and total dissolved solids, suitable for high-purity applications such as electronics manufacturing, pharmaceuticals, and power generation.
Hebei Lijiang Biotechnology Co., Ltd. plays a key role in supporting industries that demand ultra-pure water. As a high-tech enterprise specializing in mb 151 di resin, tulsion mb 111, purolite resin, purolite mb400, and purolite c100e, Lijiang integrates research, development, production, sales, and technical service to provide high-quality mixed bed resins and complementary materials. With ISO9001, SGS, and WQA certifications, the company ensures that every product meets stringent international quality and safety standards. The MX910 resin, combined with Lijiang’s expertise, delivers reliable, consistent, and sustainable performance across diverse applications.
Key Performance Features of Mixed Bed Resin MX910 for Industrial Applications
MX910 is designed for optimal efficiency in deionization and mixed bed water treatment systems. Its high exchange capacity ensures rapid removal of residual ions after primary cation and anion exchange, producing ultra-pure water in a single pass. The resin exhibits excellent mechanical stability, minimizing bead attrition and channeling even under continuous industrial operation. Regeneration efficiency is enhanced due to the intimate mixture of strong acid cation and strong base anion resins, allowing for predictable operational cycles and reduced chemical consumption.
In industrial applications, MX910 complements other high-performance resins such as mb 151 di resin, tulsion mb 111, purolite mb400, et purolite c100e. The combination of these resins allows operators to tailor mixed bed systems for specific water quality requirements, optimizing throughput, reducing downtime, and extending resin life. Whether in boiler feedwater treatment, high-pressure steam systems, or semiconductor-grade water production, MX910 consistently delivers superior ion removal, low conductivity, and minimal contamination.
The resin’s mixed bed configuration also simplifies system design and operation. By integrating both cation and anion exchange resins, MX910 eliminates the need for separate polishing stages, reducing equipment footprint and operational complexity. This is particularly beneficial in industrial settings where space and efficiency are critical, such as power plants, chemical manufacturing facilities, and pharmaceutical production lines.
Industrial and Laboratory Applications of Mixed Bed Resin MX910
MX910’s versatility extends across a wide range of industrial and laboratory applications. In electronics and semiconductor manufacturing, it produces water with ultra-low conductivity, essential for preventing contamination during high-precision processes. In the pharmaceutical and biotech industries, the resin ensures compliance with stringent water quality standards, supporting both product safety and regulatory requirements. Additionally, MX910 is widely used in laboratories for analytical procedures requiring highly purified water to avoid interference with sensitive experiments.
In large-scale industrial water systems, MX910 functions as a key component of mixed bed deionization solutions. When used in combination with mb 151 di resin, tulsion mb 111, et purolite resin products such as purolite mb400 et purolite c100e, the system achieves exceptional ion removal efficiency, maintaining stable water quality even under fluctuating feedwater conditions. This capability is vital in processes such as high-pressure boiler feedwater treatment, ultrapure water for cooling circuits, and advanced chemical synthesis operations.
Hebei Lijiang Biotechnology Co., Ltd. further enhances the practical application of MX910 by providing comprehensive technical support, including system design consultation, process optimization, and regeneration guidance. These services ensure that clients maximize the performance of their mixed bed systems, achieve longer resin life, and reduce operating costs. By integrating high-performance resins with professional technical expertise, Lijiang enables industries to implement efficient, reliable, and environmentally responsible water treatment solutions.
Conclusion
Résine à lit mixte MX910 represents a high-performance, reliable solution for achieving ultra-pure water in both industrial and laboratory settings. Its intimate mixture of strong acid cation and strong base anion resins ensures precise ion removal, efficient regeneration, and consistent high-quality output. In combination with complementary products such as mb 151 di resin, tulsion mb 111, purolite resin, purolite mb400, and purolite c100e, MX910 provides a versatile platform for diverse water treatment applications, from boiler feedwater and high-pressure steam systems to semiconductor-grade and laboratory ultrapure water.
Hebei Lijiang Biotechnology Co., Ltd. underpins the global deployment of MX910 by offering high-performance resin products, comprehensive technical support, and internationally certified quality. By leveraging Lijiang’s expertise and advanced materials, industries worldwide can achieve sustainable, efficient, and high-performing water purification systems. From precise laboratory applications to large-scale industrial operations, MX910 and Lijiang’s portfolio of mixed bed resins provide the foundation for reliable, ultra-pure water production, ensuring operational excellence and long-term performance.
