3D microstructures for rapid absorption/desorption in mechanically constrained liquid absorbents

We claim: 1. An absorber or desorber, comprising: a plurality of micro-channels, wherein (1) each of the plurality of micro-channels comprises at least one 3-D structured heat-exchanging surface consisting of a series of ridges projected up from a base of the corresponding micro-channel between sidewalls of the corresponding micro-channel, the series of ridges forming an alternatingly asymmetrical herringbone structure, (2) a ratio between a depth of the ridges and a channel height of each of the plurality of micro-channels is larger than or equal to 0.6 , and (3) the sidewalls of each of the plurality of micro-channels are thermally conductive; a hydrophobic membrane situated proximal to a vapor-exchanging surface, wherein the vapor-exchanging surface is distal to the at least one 3-D structured heat-exchanging surface, wherein the at least one 3-D structured heat-exchanging surface resides on each of the plurality of micro-channels; and a solution, wherein the solution residing within the micro-channel has vortices that mix temperatures and concentrations by flowing over the at least one 3-D structured heat-exchanging surface of the absorber or desorber. 2. The absorber or desorber according to claim 1 , wherein the membrane comprises nanofibers and the solution is an absorbing solution. 3. The absorber or desorber according to claim 2 , wherein the absorbing solution is a LiBr solution. 4. The absorber or desorber according to claim 1 , wherein the herringbone structure comprises a series of left arms connected at an angle to respective right arms. 5. The absorber or desorber according to claim 4 , wherein each of the ridges have a short arm and a long arm, and wherein a first portion of the series of ridges that have the short arms oriented to one side of the micro-channel alternates with a second portion of the series of ridges having the short arms oriented to a second side opposite the first side. 6. The absorber or desorber according to claim 4 , where the ridges consist of solid walls. 7. The absorber or desorber according to claim 4 , wherein the alternating asymmetry of the herringbone structure is formed by a first portion of the series of left arms being long than the respective right arms, followed by a portion of the respective series of right arms being longer than corresponding left arms. 8. An absorption system, comprising at least one of the absorber and the desorber according to claim 1 . 9. A method of absorbing vapors, comprising: providing the absorber according to claim 1 ; flowing a solution comprising a absorbent through the micro-channels of the absorber; cooling the 3-D structured heat-exchanging surface; and exposing vapors of the solvent to the vapor-exchanging surface of the solution through the membrane. 10. The method of claim 9 , wherein the herringbone structure comprises a series of left arms connected at an angle to respective right arms. 11. The method of claim 10 , wherein the alternating asymmetry of the herringbone structure is formed by a first portion of the series of left arms being long than the respective right arms, followed by a portion of the respective series of right arms being longer than corresponding left arms. 12. A method of desorbing vapors, comprising: providing the desorber according to claim 1 ; flowing a solution comprising absorbent through the micro-channels of the desorber; heating the 3-D structured heat-exchanging surface; and expelling vapors of the absorbent from the vapor-exchanging surface of the solution through the membrane. 13. The method of claim 12 , wherein the herringbone structure comprises a series of left arms connected at an angle to respective right arms. 14. The method of claim 13 , wherein the alternating asymmetry of the herringbone structure is formed by a first portion of the series of left arms being long than the respective right arms, followed by a portion of the respective series of right arms being longer than corresponding left arms. 15. An absorption system, comprising at least one of the absorber or the desorber according to claim 1 . 16. The absorption system of claim 15 , wherein the herringbone structure comprises a series of left arms connected at an angle to respective right arms. 17. The absorption system of claim 16 , wherein the alternating asymmetry of the herringbone structure is formed by a first portion of the series of left arms being long than the respective right arms, followed by a portion of the respective series of right arms being longer than corresponding left arms.