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02
2022-12
Applications and Advantages of Inorganic Membranes in Food Cheese Production
In the food industry, inorganic membranes are widely used, particularly ultrafiltration and microfiltration. Thanks to high‑quality membrane products and continuous advances in membrane technology, their applications are becoming increasingly widespread.
2022-12-02
28
2022-11
A detailed explanation of the applications of inorganic membranes?
Inorganic membranes are widely used and highly popular in the market thanks to their numerous advantageous properties. However, there are many important considerations to keep in mind during their application, as many users remain unfamiliar with these aspects. Below, we’ll introduce the various applications of inorganic membranes—read on if you’re interested.
2022-11-28
22
2022-11
What are the characteristics of inorganic membranes?
Inorganic membranes have an extremely broad range of applications. Before using them, it is essential to understand their properties, as this will enable more effective utilization. If you’re interested in this topic, let’s take a look together—hopefully, this will be helpful to those concerned.
2022-11-22
14
2022-11
What are the advantages of inorganic membranes?
The inorganic membrane industry boasts a promising outlook, as its applications deliver substantial benefits to businesses, making it highly favored by customers. To help you better understand this technology, we’ll now outline the key advantages of inorganic membranes, with the hope of providing valuable insights to a wider audience.
2022-11-14
09
2022-11
Characterization of the Properties of Inorganic Membrane Materials
1. Chemical Stability Inorganic membranes exhibit excellent chemical stability and can operate over a broad pH range. Their chemical stability is primarily determined by the properties of the membrane material, such as its crystal structure and chemical bonding. For example, α‑Al₂O₃ membranes demonstrate superior stability compared to γ‑Al₂O₃ membranes. Additionally, the chemical stability of porous membranes is influenced by their pore size and specific surface area.
2022-11-09
12
2022-10
Ceramic membrane separation is a size‑exclusion process that relies on pore size, employing a dynamic cross‑flow filtration mode: the feed liquid is circulated at high velocity through the ceramic membrane pores by a recirculation pump. Under pressure, the clarified permeate passes through the ceramic membrane and the porous ceramic support, permeating perpendicularly outward, while the retentate is retained by the membrane and flows rapidly within the channels, generating turbulence that continuously flushes the inner surface of the membrane, carrying away any trace deposits adhering to the membrane and maintaining a steady effluent of clarified liquid, thereby achieving separation, concentration, and purification of the fluid.
2022-10-12
The research institution approved by Nanjing is also an independent legal entity of the first professional research institute of Jiangsu Industrial Technology Research Institute Membrane Science and Technology Research Institute, which is positioned as the organizer of membrane material industry cultivation.
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