Cleaning system architecture with recirculating bath for variable data lithographic printing

What is claimed is: 1. A variable data lithographic printing system cleaning apparatus, comprising: a first cleaning member having a surface layer with a durometer at most 45 shore A, a surface roughness Ra less than 20 micro inches and a medium surface energy higher than a low surface energy of an imaging member, the first cleaning member configured to rotate against a conformable surface of the imaging member to transfer residual ink from the imaging member to the surface layer of the first cleaning member upon rotation of the imaging member; a second cleaning member having a hard surface with a surface roughness less than the surface roughness of the first cleaning member and a high surface energy higher than the surface energy of the first cleaning member, the second cleaning member configured to rotate against the first cleaning member surface layer to transfer the residual ink from the first cleaning member to the second cleaning member upon rotation of the first cleaning member; and an ink flushing device including a melamine sponge disposed in a liquid bath of cleaning solution against the hard surface of the second cleaning member to remove the residual ink from the second cleaning member to the cleaning solution, the melamine sponge configured to scrub the residual ink from the rotating second cleaning member against the sponge while lubricating the surface of the second cleaning member with the cleaning solution, wherein the melamine sponge is stationarily fixed in the liquid bath of cleaning solution against the hard surface of the second cleaning member to remove the residual ink from the second cleaning member. 2. The variable data lithographic printing system cleaning apparatus of claim 1 , further comprising a squeegee against the hard surface of the second cleaning member rotationally downstream the melamine sponge, the squeegee configured to remove cleaning solution and residual ink remaining on the second cleaning member after the second cleaning member is scrubbed by the melamine sponge. 3. The variable data lithographic printing system cleaning apparatus of claim 1 , further comprising a filter configured to separate the residual ink from the cleaning solution. 4. The variable data lithographic printing system cleaning apparatus of claim 1 , further comprising a recycling system coupled to the liquid bath of cleaning solution, the recycling system including a filter configured to separate the residual ink from the cleaning solution, and a conduit recycling the filtered cleaning solution back to the liquid bath. 5. The variable data lithographic printing system cleaning apparatus of claim 1 , wherein the second member is a hard roller having a high surface energy, and the melamine sponge is configured for constant scrubbing engagement with the hard roller over at least 100 mm of the circumferential surface of the hard roller. 6. The variable data lithographic printing system cleaning apparatus of claim 1 , further comprising an air dryer proximate the second cleaning member rotationally downstream the melamine sponge to remove any surface moisture from the hard surface of the second cleaning member after the second cleaning member is scrubbed by the melamine sponge. 7. The variable data lithographic printing system cleaning apparatus of claim 1 , the first cleaning member having a temperature controlled to a temperature at least 5 degrees C. less than the temperature of the imaging member, the second cleaning member having a temperature controlled to a temperature at least 5 degrees C. less than the temperature of the imaging member. 8. The variable data lithographic printing system cleaning apparatus of claim 1 , wherein the first cleaning member is a tacky roller having an ethylene propylene diene terpolymer surface with a surface energy of 29-35 dynes/cm and in rolling contact with both the imaging member and the second cleaning member, and the second cleaning member is a hard roller having a surface roughness Ra less than 10 micro inches and a high surface energy at least 8 dyne/cm higher than the surface energy of the tacky roller, the hard roller having a surface including one of ebonite, copper, nickel, polyimide, or nylon. 9. The variable data lithographic printing system cleaning apparatus of claim 1 , wherein the first cleaning member includes a first tacky roller and a second tacky roller, the first tacky roller being in rolling contact with both the imaging member and the second cleaning member, the second tacky roller being in rolling contact with both the imaging member and the second cleaning member adjacent the first tacky roller and configured to transfer ink residue from the surface of the imaging member to the second cleaning member that may still remain on the surface of the imaging member after the first tacky roller. 10. A method of cleaning using the variable data lithographic printing system cleaning apparatus of claim 1 , comprising: rotating the first cleaning member against the conformable surface of the imaging member to transfer residual ink from the imaging member to the surface layer of the first cleaning member upon rotation of the imaging member, the first cleaning member rotating opposite the imaging member; rotating the second cleaning member against the first cleaning member surface layer to transfer the residual ink from the first cleaning member to the second cleaning member upon rotation of the first cleaning member, the second cleaning member rotating opposite the first cleaning member; and urging the melamine sponge disposed in the liquid bath of cleaning solution against the hard surface of the second cleaning member to remove the residual ink from the second cleaning member to the cleaning solution, the sponge scrubbing the residual ink from the rotating second cleaning member against the sponge while lubricating the surface of the second cleaning member with the cleaning solution. 11. The method of claim 10 , further comprising fixing the melamine sponge in a stationary position in the liquid bath of cleaning solution against the hard surface of the second cleaning member to remove the residual ink from the second cleaning member. 12. The method of claim 10 , further comprising: urging a squeegee against the hard surface of the second cleaning member rotationally downstream the sponge to remove cleaning solution and residual ink remaining on the second cleaning member surface after it is scrubbed by the melamine sponge; drying the surface of the rotating second cleaning member rotationally downstream the melamine sponge. 13. The method of claim 12 , wherein the urging the melamine sponge disposed in the liquid bath of cleaning solution against the hard surface of the second cleaning member includes rotating the second cleaning member against the abutting sponge to allow the sponge to scrape the residual ink from the second cleaning member. 14. The method of claim 10 , further comprising separating the residual ink from the cleaning solution with a filter and recycling the cleaning solution back to the liquid bath. 15. The method of claim 10 , wherein the urging the melamine sponge disposed in the liquid bath of cleaning solution against the hard surface of the second cleaning member includes transferring the cleaning solution from the liquid bath to the second cleaning member to help clean the surface of the second cleaning member and provide lubrication between the rotating second cleaning member and the relatively fixed sponge. 16. The method of claim 10 , further comprising controlling the temperature of both the first cleaning member and