Groundbreaking Physical Design and Mechanisms:

Unlike our common "tubular cross-flow membranes" (where fluid flows through internal channels and is pressed from the inside out), the geometric structure and filtration pathway of multi-channel plates are fundamentally different:

• Outside Coated: This ceramic plate features a flat, multi-channel structure, and the "active layer" responsible for precise separation is coated on the external surface (outside).

• Designed for Vacuum Filtration: Multi-channel plates are primarily applied in vacuum (negative pressure) filtration systems. During installation, one end of the internal permeate channels is sealed by special molded parts, while the other end is connected to a dedicated suction joint.

• Outside-in Suction: In operation, the ceramic plate is immersed in the liquid to be treated. A negative pressure (vacuum) draws the clean filtrate from the outside into the multiple internal channels to be discharged, while impurities are retained and blocked on the outer surface of the plate.

• Unmatched Energy Efficiency: Through specialized housing and vacuum-suction operation, these plates achieve high-efficiency filtration with significantly lower energy consumption compared to traditional high-pressure ceramic membrane systems.

• Extended Service Life: Built with Inopor’s robust, high-purity ceramics, the system excels in aggressive chemical (acid/alkali) and high-temperature environments. Its durability vastly outperforms polymer alternatives, drastically reducing replacement frequency and downtime costs.

• Superior Purification & Disinfection: Proven in vacuum filtration applications, our ceramic plates ensure stable bacteria removal and a significant reduction in turbidity, providing high-standard purification for surface water and process fluids.