Compact high-throughput device for water treatment

1 . A water treatment device comprising: (a) a corrugated membrane plate and frame core having parallel rows of folds, and comprising: a corrugated frame with a corrugated bottom frame member, a corrugated top frame member, a vertical left side frame member, and a vertical right side frame member, said frame having a front side, a back side, a bottom side, a top side, and said bottom, top, left, and right frame members defining an open central area; a first corrugated membrane sheet with a top edge, a bottom edge, a left side edge and a right side edge attached to the front side of the corrugated frame along the top, bottom, left, and right frame members; a second membrane sheet with a top edge, a bottom edge, a left side edge and a right side edge attached to the back side of the corrugated frame along the top, bottom, left, and right frame members; said first and second membrane sheets forming a membrane lumen space in the open central area of the corrugated frame for collecting a permeated fluid, said corrugated membrane plate and frame core being sealed to prevent a fluid to be treated from entering the membrane lumen space without passing through one of the first and second corrugated membrane sheets, and an area of said first and second membrane sheets being formed that is coextensive with the membrane lumen space and provides an active membrane area where the top, bottom, left, and right edges of the first and second membrane sheets attached to the frame are inactive membrane areas; (b) a fluid outlet manifold attached to a top side of the top frame member of the corrugated membrane plate and frame core, said fluid outlet manifold having an interior space that receives permeated fluid from the membrane lumen space via one or more openings in the top frame member, and a fluid outlet port for removing the permeated fluid from the interior space of the fluid outlet manifold; and (c) a base attached to a bottom side of the bottom frame member of the corrugated membrane plate and frame core. 2 . The water treatment device of claim 1 , wherein the base comprises a gas inlet manifold having an interior space for receiving a gas, a gas inlet port, and a plurality of gas outlets on a top surface of the gas inlet manifold positioned to discharge the gas adjacent to an exterior of the corrugated membrane plate and frame core, said gas inlet manifold and said gas outlets being isolated from the membrane lumen space. 3 . The water treatment device of claim 2 , wherein the base further comprises a fluid inlet manifold attached to the bottom frame member, wherein a portion of the bottom frame member extends through the gas inlet manifold to contact the fluid inlet manifold while maintaining isolation from the gas in the gas inlet manifold interior space, said fluid inlet manifold having an interior space for receiving a fluid, a fluid inlet port, and one or more openings on a top surface adjacent to a plurality of openings in the bottom frame member through which fluid from the fluid inlet manifold can flow into the membrane lumen space of the corrugated membrane plate and frame core. 4 . The water treatment device of claim 2 , wherein the gas is air, nitrogen, saturated carbon-dioxide, or unsaturated carbon-dioxide. 5 . The water treatment device of claim 3 , wherein the fluid in the fluid inlet manifold is a draw fluid or a coolant fluid. 6 . The water treatment device of claim 1 , wherein a spacer selected from a perforated membrane plate and a non-woven mesh spacer sheet is positioned in the membrane lumen space between the first and second membrane sheets, wherein said spacer is attached to the frame members. 7 . The water treatment device of claim 1 , wherein the first and second membrane sheets are selected from forward osmosis membranes, reverse osmosis membranes, membrane distillation membranes, nanofiltration membranes, microfiltration membranes, or ultrafiltration membranes. 8 . The water treatment device of claim 1 , wherein the submersing fluid to be treated is saline water, brackish water, domestic wastewater, industrial wastewater, produced water, pharmaceutical fluids, and food and beverage fluids. 9 . The water treatment device of claim 1 , further comprising: a housing having an inlet port for receiving the fluid to be treated, an outlet port for outputting some of the fluid to be treated, and a gas output port, wherein the housing is attached to the fluid outlet manifold and the base in an air-tight manner. 10 . A method for treating water comprising the steps of: a) providing a water treatment device having a corrugated membrane plate and frame core that comprises: (i) a corrugated frame with a corrugated bottom frame member, a corrugated top frame member, a vertical left side frame member, and a vertical right side frame member, said frame having a front side, a back side, a bottom side, a top side, and said bottom, top, left, and right frame members defining an open central area; (ii) a first corrugated membrane sheet with a top edge, a bottom edge, a left side edge and a right side edge attached to the front side of the corrugated frame along the top, bottom, left, and right frame members; (iii) a second membrane sheet with a top edge, a bottom edge, a left side edge and a right side edge attached to the back side of the corrugated frame along the top, bottom, left, and right frame members; said first and second membrane sheets forming a membrane lumen space in the open central area of the corrugated frame for collecting a permeated fluid, said corrugated membrane plate and frame core being sealed to prevent a fluid to be treated from entering the membrane lumen space without passing through one of the first and second corrugated membrane sheets, and an area of said first and second membrane sheets being formed that is coextensive with the membrane lumen space and provides an active membrane area where the top, bottom, left, and right edges of the first and second membrane sheets attached to the frame are inactive membrane areas; (iv) a fluid outlet manifold attached to a top side of the top frame member of the corrugated membrane plate and frame core, said fluid outlet manifold having an interior space that receives permeated fluid from the membrane lumen space via one or more openings in the top frame member, and a fluid outlet port for removing the permeated fluid from the interior space of the fluid outlet manifold; and (v) a base attached to a bottom side of the bottom frame member of the corrugated membrane plate and frame core; b) providing a conduit for removal of permeated fluid from the fluid outlet manifold via the fluid outlet port; c) applying a suction or negative pressure to the fluid outlet port; d) exposing the water treatment device to the fluid to be treated; and e) removing the permeated fluid from the fluid outlet manifold via the fluid outlet port by delivering a gas to the gas inlet manifold. 11 . The method for treating water of claim 10 , wherein said gas inlet manifold has an interior space for receiving the gas, a gas inlet port for delivering a gas to the gas inlet manifold, and a conduit to deliver the gas to the gas inlet port, wherein the plurality of gas outlets on the top surface of the gas inlet manifold are positioned to discharge the gas adjacent to the exterior of the corrugated membrane plate and frame core in isolation from the membrane lumen space. 12 . The method for treating water of claim 11 , further comprising the steps of: providing a fluid inlet manifold attached to the bottom frame member, said fluid inlet manifold having an interior space for receiving a fluid, a fluid inlet port, and an