Systems and methods for ink-based digital printing using dampening fluid imaging member and image transfer member

What is claimed is: 1. A method for ink-based digital printing, comprising: jetting a dampening fluid pattern onto a conformable porous surface of an imaging member configured to swell after absorbing the dampening fluid pattern, the jetting of the dampening fluid pattern onto the conformable porous surface of the imaging member including jetting the dampening fluid pattern of silicone oil onto a silicone surface of the imaging member; transferring the dampening fluid pattern to a transfer member at a dampening fluid pattern loading nip defined by the transfer member and the imaging member; applying ink to a surface of the transfer member having the dampening fluid pattern to produce an ink pattern; and transferring the ink pattern to a substrate at an ink pattern loading nip defined by the transfer member and a substrate transport system. 2. The method of claim 1 , comprising: conditioning the ink pattern to increase a viscosity of the ink before transfer of the ink pattern to a substrate. 3. The method of claim 1 , comprising: applying heat to the surface of the imaging member to evaporate dampening fluid contained by the imaging member surface. 4. The method of claim 1 , comprising: removing dampening fluid from the surface of the imaging member after the transferring the dampening fluid pattern, the removing comprising blotting and vacuuming the surface of the imaging member. 5. The method of claim 4 , the transferring the dampening fluid pattern step including transferring the dampening fluid pattern to the transfer member at the dampening fluid pattern loading nip under a first pressure at the dampening fluid pattern loading nip, and the removing dampening fluid step including blotting the surface of the imaging member under a second pressure greater than the first pressure. 6. The method of claim 1 , comprising: removing ink remaining on the surface of the transfer member after the transferring the ink pattern. 7. The method of claim 1 , the jetting step including jetting the dampening fluid pattern onto a conformable porous foam surface of the imaging member. 8. The method of claim 1 , the jetting step including jetting the dampening fluid pattern onto a conformable porous sponge surface of the imaging member. 9. The method of claim 1 , the transferring the dampening fluid pattern step including transferring the dampening fluid pattern to the transfer member at the dampening fluid pattern loading nip under a first pressure at the dampening fluid pattern loading nip, and removing residual dampening fluid from the conformable porous surface of the imaging member after the dampening fluid pattern loading nip under a second pressure greater than the first pressure. 10. The method of claim 1 , the transferring the dampening fluid pattern step reducing the amount of the dampening fluid that gets transferred onto the transfer member due to splitting at the loading nip. 11. The method of claim 10 , wherein the transferring the dampening fluid pattern to a transfer member step and the applying ink to a surface of the transfer member steps occur in sequence absent application of a vacuum or heat source. 12. The method of claim 1 , the conformable porous surface fixed to the imaging member and configured to swell and remain fixed after absorbing the dampening fluid pattern. 13. A method for ink-based digital printing, comprising: jetting a dampening fluid pattern onto a conformable porous surface of an imaging member configured to swell after absorbing the dampening fluid pattern, the jetting of the dampening fluid pattern onto the conformable porous surface of the imaging member including jetting the dampening fluid pattern onto a porous silicone surface of the imaging member; transferring the dampening fluid pattern to a transfer member at a dampening fluid pattern loading nip defined by the transfer member and the imaging member; applying ink to a surface of the transfer member having the dampening fluid pattern to produce an ink pattern; and transferring the ink pattern to a substrate at an ink pattern loading nip defined by the transfer member and a substrate transport system.