RU2007137665A - METHODS FOR MEMBRANE SEPARATION AND SYSTEMS FOR IMPROVED PERMEANT REGENERATION - Google Patents

Abstract

1. A method of membrane separation of a permeant, including:! a. feeding a liquid feed containing at least two components to be separated to the retentate side of the selectively permeable membrane having a retentate side and an opposite permeate side! b. maintaining the driving force across the membrane in order to carry out the separation of at least one of these components by permeation through the membrane to obtain a permeate fraction on the permeate side of the membrane,! with. withdrawal of at least 5 wt.% of liquid raw material in order to mix with at least a part of the permeate fraction, and the withdrawn fraction does not pass through the membrane, and! d. removal of the retentate fraction from the retentate side of the membrane, and the retentate fraction is characterized by a higher concentration of the other of the at least two components than the raw material. ! 2. The method according to claim 1, characterized in that 5-40 wt.% Of the liquid raw material is removed in step (c). ! 3. The method according to claim 2, characterized in that at least 90 wt.% Of the permeant included in the feedstock is contained in the retentate fraction, including the fraction removed in step (c). ! 4. The method according to claim 2, characterized in that the retentant fraction contains less than 10 wt.% Of the permeant contained in the raw material. ! 5. The method according to claim 2, characterized in that the surface area of the membrane from step (a) is at least 25% less than in the absence of step (c), and all other things being equal, the retentate fraction contains the same amount permeant, including the fraction removed in step (c), and the retentate fraction has the same permeant concentration. ! 6. System for membrane permeant separation, including:! a.

Claims (10)

1. The method of membrane separation of permeant, including: but. supplying a liquid feed comprising at least two components to be separated onto the retentate side of a selectively permeable membrane having a retentate side and an opposite permeate side, b. maintaining a driving force through the membrane in order to separate at least one of said components by penetrating through the membrane to obtain a permeate fraction on the permeate side of the membrane, from. the removal of at least 5 wt.% liquid raw materials with the aim of mixing at least part of the permeate fraction, and the selected fraction does not pass through the membrane, and d. removal of the retentate fraction from the retentate side of the membrane, wherein the retentate fraction is characterized by a higher concentration of the other of the at least two components than the feed. 2. The method according to claim 1, characterized in that 5-40 wt.% Liquid raw materials are removed in stage (C). 3. The method according to claim 2, characterized in that at least 90 wt.% Permeant, which is part of the feedstock, is contained in the retentate fraction, including the fraction removed in step (c). 4. The method according to claim 2, characterized in that the retentant fraction contains less than 10 wt.% Permeant, which is part of the raw material. 5. The method according to claim 2, characterized in that the surface area of the membrane from stage (a) is at least 25% less than in the absence of stage (c), all other things being equal, the retentate fraction contains the same amount permeant, including the fraction removed in step (c), and the retentate fraction is characterized by the same concentration of permeant. 6. A system for membrane separation of permeant, including: but. a membrane separator (104) comprising a selectively permeable membrane adapted to distinguish between the retentate and permeate sides, b. at least one feed line (102) adapted to provide a liquid stream of at least two components to be separated from the retentate side, from. at least one bypass (110) adapted to remove a portion of the liquid feed not passing through the membrane, d. at least one pipe (108) adapted to divert the retentate fraction from the retentate side, and e. at least one pipeline (106) adapted to divert the permeate fraction from the permeate side, moreover, the pipeline (110) is in liquid relationship with at least part of the permeate fraction. 7. The system according to claim 6, characterized in that the pipeline (e) is in liquid contact with the reactor (112). 8. The system according to claim 6, characterized in that the pipeline (110) is located in the membrane separator. 9. A system for membrane separation of permeant, including: but. a membrane separator (206) comprising a selectively permeable membrane adapted to distinguish between the retentate and permeate sides, b. at least one feed line (202) adapted to produce a liquid feed containing at least two components to be separated on the retentate side, from. at least one bypass pipe (212) adapted to remove part of the liquid feed so that this stream does not pass through the membrane, d. at least one conduit (206) adapted to divert the retentate fraction from the retentate side, e. at least one conduit (210) adapted to divert the permeate fraction from the permeate side, the conduit (212) being in fluid interaction with at least a portion of the permeate fraction, f. at least one sensor in the pipeline (202), adapted to detect at least one flow rate and composition and adapted to create a signal corresponding to this definition, and g. a valve (214) located so as to control the flow rate through the pipe (212) in response to a signal from the sensor. 10. The system according to claim 9, characterized in that it is provided with a central processor adapted to receive a signal from the sensor (f) and control the valve (g) in order to control the flow of liquid raw materials through the pipeline (s).