Modified forward osmosis membrane module for flow regime improvement

The invention claimed is: 1. A forward osmosis (FO) membrane module, comprising: a water inlet; a water outlet; two forward osmosis membranes; a frame; internal folded plates, wherein at least one of the internal folded plates is for improving a flow regime; an air vent; and an intercommunicating hole, wherein: said water inlet, said two forward osmosis membranes, said internal folded plates and said water outlet are set on the frame forming a modularized membrane module, a first forward osmosis membrane of said two forward osmosis membranes is set on a front side of the frame and a second forward osmosis membrane of said two forward osmosis membranes is set on a back side of the frame to make a fluid feed space, and said air vent is set on a connecting part of at least one of the internal folded plates and the frame, said air vent is configured to vent air built up within the modularized membrane module through the water outlet, wherein a draw solution is introduced into the modularized membrane module through said water inlet, then flown through flow channels composed by the internal folded plates vertically arranged on upper and bottom portions of said frame alternatively along a horizontal direction with equal space, and then drawn out from the water outlet. 2. The forward osmosis membrane module of claim 1 , wherein each of said internal folded plates is an opposite folded plate with peaks and valleys, the modularized membrane module consists of three opposite folded plates configured to improve the flow regime and to generate a vortex. 3. The forward osmosis membrane module of claim 1 , wherein two borders of said frame have folded plate components configured to promote the flow regime of an inlet flow channel and an outlet flow channel defined by said frame and said internal folded plates, said two borders named A border and B border, the A border and the B border matching each other for joining the FO membrane module with another FO membrane module. 4. The forward osmosis membrane module of claim 2 , wherein said intercommunicating hole is set on a connecting part of at least one of the internal folded plates and the frame of the modularized membrane module at a bottom thereof. 5. The forward osmosis membrane module of claim 1 , wherein a folding angle of each of said internal folded plates is 60-120°, through which a vortex is formed in the flow channel defined by said internal folded plates for improving the flow regime to get better mixture of liquids. 6. The forward osmosis membrane module of claim 3 , wherein said two borders of said frames with said folded plate components are symmetric with respect to each other for improving the flow regime.