X-spiral-flow wound membrane diversion screen

Abstract

The invention discloses an X-spiral-flow wound membrane diversion screen, which consists of a plurality of layers of flow passages which are overlapped together. Each layer of flow passages consists of longitudinal ribs. The layers of flow passages are in parallel with each other. Adjacent layers of flow passages are staggered in an X shape, i.e. the longitudinal ribs of the adjacent layers are connected in an X staggered and overlapped way to facilitate conversion from laminar flow to turbulent flow and eliminate influence caused by concentration polarization. Since the X-spiral-flow wound membrane diversion screen consists of a plurality of layers of flow passages consisting of longitudinal ribs, transverse ribs are not used and the scheme is different from the existing schemes, not only can the area of contact with a membrane surface be reduced and the effective available area of a separation membrane be increased, but also a dead corner is not produced, the disturbance of the laminar flow can be facilitated to convert the laminar flow to the turbulent flow under the secondary flow facilitating effect of an X spiral flow, the driving force and the mass transfer effect of solute diffusion are enhanced and the mass transfer capacity of primary liquid is greatly improved. The efficiency of membrane separation is improved, the volumetric percolate flux of the separation membrane is improved, the deposition of pollutants is avoided and the defects of the existing technical scheme are avoided.

Description

technical field

[0001] The present invention relates to the technical field of membrane separation, in particular to a method for high-purity separation applications (such as in food, medical and pharmaceutical industries), environmental protection sewage treatment or seawater desalination industries, using engineered osmosis methods (such as: reverse osmosis, Forward osmosis) Forward osmosis, reverse osmosis membrane, nanofiltration membrane, ultrafiltration membrane, microfiltration membrane, electrodialysis membrane, pervaporation membrane, membrane bioreactor and other diversion screens for separation and extraction operations. Background technique

[0002] At present, the structure of various spiral-wound membranes is roughly the same. They are all stacked with a membrane bag with a built-in porous diversion net and a diversion net that acts as a spacer diversion, and is wound in a hollow porous tube—the central product collection on the tube, and then seal the connecti...

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