Product Introduction
Utilizes advanced membrane separation technology to achieve precise component separation and purification for different types of gas and liquid media.
According to different application scenarios, filter elements of various materials and pore size specifications can be customized to meet diverse separation requirements.
Widely used in industries such as chemicals, food, environmental protection, and medicine, it is an important component of equipment for medium purification and recovery.
Transportation of Mixed Medium: The mixed gas or liquid to be separated enters the equipment with installed separation filter elements through pipelines under pressure.
Screening and Separation: Driven by pressure, the mixed medium passes through the filter membrane of the filter element. Substances such as molecules and particles that meet the pore size of the membrane pass through the filter element, while the target substances to be separated are intercepted on the surface of the membrane.
Concentration and Enrichment: As the filtration progresses, the intercepted target substances gradually enrich on the surface of the membrane to form a concentrated layer.
Separate Collection: The separated pure medium flows out from the outlet of the filter element and is collected; the enriched target substances can be separated from the surface of the filter element by backwashing and other methods and then collected.
Filter Element Regeneration: Some models of filter elements can be regenerated through chemical cleaning, physical flushing, and other methods after use to restore their filtration and separation performance.
High - precision Separation: The separation precision can reach up to 0.001μm, enabling precise separation of tiny molecules and particles.
Wide Applicability: It can handle a variety of complex mixed media, including corrosive liquids and high - temperature gases.
Long - lasting Durability: Made of high - quality filter membrane materials and with a sturdy structural design, the service life can reach more than 5 years under normal working conditions.
Energy - saving and Efficient: The optimized filtration structure reduces fluid resistance, lowers energy consumption, and increases the processing capacity per unit time.
| Item | Parameter Range |
|---|
| Separation Precision | 0.001 - 10μm |
| Working Pressure | ≤3.0MPa |
| Working Temperature | -30℃ - 150℃ |
| Membrane Material | Ceramic membrane, polyvinylidene fluoride (PVDF) membrane, polytetrafluoroethylene (PTFE) membrane |
| Applicable Media | Compressed air, chemical solutions, biological fermentation broth, etc. |
Chemical Industry: Separate and purify chemical raw materials, recycle valuable chemical substances, and improve the utilization rate of raw materials.
Food and Beverage Industry: Used for juice concentration, wine clarification, dairy product sterilization, etc., to improve product quality.
Environmental Protection Field: Treat industrial wastewater and separate and recycle pollutants such as heavy metal ions and organic substances.
Medical and Pharmaceutical Industry: Separate and purify biological agents such as proteins and vaccines during the biopharmaceutical process.
Question 1: How to select the appropriate filter element membrane material according to the separated medium?
Answer: Selecting the filter element membrane material requires considering the chemical properties (such as acidity, alkalinity, and corrosiveness), temperature, pressure, and separation precision requirements of the separated medium. For example, to handle highly corrosive media, polytetrafluoroethylene (PTFE) membranes can be selected; for handling high - temperature gases, ceramic membranes are a good choice. At the same time, it is also necessary to consult professional personnel for accurate selection advice based on specific separation goals.
Question 2: Will the performance of the separation filter element decline after regeneration treatment?
Answer: Under the correct regeneration treatment conditions, the performance of most separation filter elements can be restored to a state close to the initial state. However, as the number of regeneration times increases, the filtration and separation performance of the filter element may gradually decline. Therefore, it is recommended to regularly test the performance of the regenerated filter element, and replace it with a new one in a timely manner when the performance cannot meet the usage requirements.
The all - around separation filter element has become an ideal choice for many industries to achieve medium separation and purification with its precise separation technology, wide applicability, and excellent performance. Whether in complex chemical separation processes or in the biopharmaceutical field with extremely high requirements for purity, it can show excellent separation effects and provide reliable guarantees for enterprise production.
Equivalent P-all Filters
Replacement HYDAC filter element
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