Reverse Osmosis Membranes LE-400 in The Textile Industry

RO membrane technical parameters

Filtration accuracy

The pore size of the RO membrane is about 0.0001 microns, which can filter out impurities such as bacteria and viruses.

Flux

refers to the amount of water passing through an RO membrane per unit time, depending on factors such as membrane area, pressure, and water quality.

Desalination rate: The filtration efficiency of RO membranes for salts, usually expressed as a percentage, typically between 95% and 98%.

Pressure loss

The pressure difference required for water to pass through the RO membrane, and the smaller the pressure loss, the lower the energy consumption.

Molecular weight retention

The maximum molecular weight that an RO membrane can filter, which is crucial for selecting the appropriate RO membrane.

Membrane thickness

The thickness of an RO membrane, which typically has higher flux and lower salt resistance.

Replacement cycle: It is recommended to replace every 8-12 months, depending on the water quality and usage habits.

Characteristics of RO membrane

Ultra - fine Filtration Precision

The RO membrane has an incredibly small pore size, about 0.0001 microns. This minuscule pore structure allows it to capture minuscule impurities like bacteria and viruses. For instance, when dealing with water containing harmful microorganisms, the RO membrane can effectively block these pathogens, ensuring the filtered water meets high - purity standards.

Variable Flux

The flux of an RO membrane, which means the amount of water passing through it per unit time, depends on multiple factors. A larger membrane area generally leads to a higher flux. Also, increasing the pressure can boost the water - passing rate, but within a reasonable range to avoid membrane damage. Besides, better - quality water with fewer contaminants can flow through the membrane more smoothly, resulting in a relatively higher flux.

High Desalination Rate

RO membranes show remarkable salt - removing ability. Their desalination rate usually ranges from 95% to 98%. When treating seawater for desalination, for example, the RO membrane can efficiently separate the high - concentration salts in seawater, making the water suitable for various uses, such as drinking and industrial applications.

Low - pressure - loss Advantage

During the water - passing process, the RO membrane has a relatively small pressure loss. This feature is highly beneficial as it means lower energy consumption. Factories using RO membranes for water treatment can save a significant amount of energy costs, which is crucial for large - scale industrial water - treatment operations.

Molecular - weight - based Separation

RO membranes can filter substances based on their molecular weights. Each RO membrane has a specific molecular weight retention value. This characteristic allows users to select the appropriate membrane according to the substances they want to separate. For example, in pharmaceutical or food - processing industries, where separating certain macromolecules from solutions is necessary, the RO membrane's molecular - weight - based separation ability comes in handy.

Thickness - related Performance

The thickness of an RO membrane affects its performance. A thinner membrane often exhibits a higher flux, enabling more water to pass through in a given time. However, it may have relatively lower salt - resistance. Manufacturers need to balance these two aspects according to the actual application requirements.

Replacement - cycle Consideration

The recommended replacement cycle of an RO membrane is typically 8 - 12 months. But this can vary depending on water quality and usage habits. In areas with poor - quality water, the membrane may need more frequent replacement due to faster fouling. Regular replacement ensures the membrane maintains its high - performance characteristics.

Application areas of RO membrane

Textile Wastewater Treatment

In the textile industry, a large amount of wastewater is generated during the production process, which contains various dyes, sizing agents, and other chemical substances. RO membranes can effectively separate these pollutants from the wastewater. By doing so, they enable the recycling of treated water back into the production line, reducing the overall water consumption of textile factories. For example, some large - scale textile mills use RO membrane - based wastewater treatment systems to purify over 80% of their wastewater, which can then be reused for processes like fabric rinsing.

High - Quality Water Supply for Textile Production

High - quality water is essential for many textile production processes, especially in dyeing and finishing. RO membranes can remove trace impurities, heavy metals, and minerals from the water source. This ensures that the dyes can be evenly absorbed by the fabrics, resulting in more consistent color tones and better color fastness. In the production of high - end silk fabrics, for instance, RO - purified water is used to prevent any potential water - borne impurities from affecting the delicate texture and luster of the silk.

Production of Special - Functional Textiles

When manufacturing special - functional textiles such as waterproof, breathable, or antibacterial fabrics, precise control of the chemical composition in the fabric - treating solutions is required. RO membranes are used to purify the water and other solvents used in these processes. For example, in the production of antibacterial textiles, the water used in the antibacterial agent - impregnation process needs to be free of contaminants that could interfere with the antibacterial properties. RO - filtered water helps maintain the effectiveness of the antibacterial treatment.

Industrial Textile Applications

In the production of industrial textiles like filter materials, RO membranes can be used to clean the water used in the manufacturing process. High - quality water ensures that the filter materials have consistent pore sizes and filtering performance. In the production of geotextiles, RO - treated water can help in better adhesion of the fibers, enhancing the overall strength and durability of the geotextiles.

RO membranes have a wide range of applications in the textile industry, playing a crucial role in promoting sustainable development, improving product quality, and enabling the production of innovative textile products.

conclusion

In conclusion, RO membranes have become an indispensable part of the textile industry. Their unique features, such as ultra - fine filtration precision, high desalination rate, and low - pressure - loss property, enable them to handle various tasks in textile production. In wastewater treatment, RO membranes effectively remove pollutants, allowing for water recycling and minimizing environmental impact. When it comes to high - quality water supply for production processes like dyeing and finishing, they ensure that the water is free from impurities, which is crucial for achieving excellent product quality.