Charged particle generation, filtration, and delivery for digital offset printing applications

What is claimed is: 1. A charged fountain solution aerosol development device useful for printing with an ink-based image forming apparatus having a rotatable imaging member with a charge-retentive surface bearing an electrostatic charged pattern and a rotatable inkable blanket downstream the imaging member and having a surface in rolling communication with the charge-retentive surface, the rotatable inkable blanket configured to accept a patterned fountain solution latent image and transfer an ink image based on the patterned fountain solution latent image, the charged fountain solution aerosol development device comprising: a manifold in fluid communication with a fountain solution reservoir through which fountain solution aerosol particles from the fountain solution reservoir traverse; a particle charger adjacent the manifold that forms a fog of charged fountain solution aerosol particles, the charged fountain solution aerosol particles including undesirably charged particles and sufficiently charged particles; and a particle sorter that receives the fog of charged fountain solution aerosol particles and separates the undesirably charged particles from the charged fountain solution aerosol particles within the manifold resulting in filtered charged fountain solution aerosol particles that are sufficiently attracted to the electrostatic charged pattern to attach to the rotatable imaging member charge-retentive surface and form the patterned fountain solution latent image based on the electrostatically patterned target. 2. The device of claim 1 , further comprising an image forming unit adjacent the rotatable charge-retentive reimageable surface that forms the electrostatic charged pattern on the surface. 3. The device of claim 1 , wherein the particle charger charges the fountain solution aerosol particles by corona discharge, induction, conduction, or tribocharging to form the charged fountain solution aerosol particles. 4. The device of claim 1 , the charged fountain solution aerosol development unit further including an aerosol generator that forms the fountain solution aerosol particles having a range of diameters within plus or minus a factor of two. 5. The device of claim 4 , wherein the aerosol generator is a nebulizer that produces the fountain solution aerosol particles having a diameter from 0.5 μm to 2.0 μm. 6. The device of claim 1 , further comprising a recovery conduit for the undesirably charged particles to transfer back to the fountain solution reservoir. 7. The device of claim 1 , wherein the particle sorter separates the undesirably charged particles from the charged fountain solution aerosol particles by charge-to-mass ratio of the charged particles. 8. The device of claim 1 , the manifold further comprising a particle delivery baffle proximate the electrostatic charged pattern to deliver the filtered charged fountain solution aerosol particles from the particle sorter about the charge-retentive surface to enable charged fountain solution aerosol particle attachment to the electrostatic charged pattern and form the charged patterned fountain solution latent image on the charge-retentive surface. 9. The device of claim 8 , the manifold having an aerosol supply chamber in fluid communication with the aerosol generator and configured to deliver the charged fountain solution aerosol particles towards the rotatable charge-retentive reimageable surface for transfer of the charged fountain solution aerosol particles to adherence at portions of the charge-retentive reimageable surface and form the charged patterned fountain solution latent image thereon, the charge-retentive reimageable surface configured to transfer the patterned fountain solution latent image from the charge-retentive reimageable surface to the rotatable inkable blanket. 10. The device of claim 8 , wherein the particle delivery baffle deposits the charged fountain solution aerosol particles about the charge-retentive reimageable surface via a directed flow of a gas. 11. The device of claim 8 , wherein the particle delivery baffle deposits the charged fountain solution aerosol particles about the charge-retentive reimageable surface via a nozzle. 12. The device of claim 8 , the particle delivery baffle including an outlet end having a counter electrode proximate the charge-retentive reimageable surface to drive the filtered charged fountain solution aerosol particles toward the electrostatic charged pattern and away from discharged or uncharged areas of the reimageable surface. 13. The device of claim 1 , further comprising a carrier gas flow through the charged fountain solution aerosol development device that freezes the fountain solution aerosol particles into solid particles. 14. The device of claim 1 , further comprising electrodes downstream the particle charger to remove gas ions from the fog. 15. The device of claim 14 , wherein electrodes are screens. 16. The device of claim 1 , wherein the sufficiently charged particles have a range of diameters within a factor of two. 17. The device of claim 1 , further comprising a controller configured to tune a partial pressure of fountain solution vapor in the fog to control an evaporation or sublimation rate of the charged fountain solution aerosol particles. 18. A fountain solution aerosol particle development system for delivering charged fountain solution aerosol particles onto a target, comprising: a manifold; a particle charger that forms a fog of charged fountain solution aerosol particles in the manifold, the charged aerosol particles including undesirably charged particles; a particle sorter that separates the undesirably charged particles from the charged fountain solution aerosol particles in the manifold; and a particle delivery baffle proximate the target to deposit the charged fountain solution aerosol particles from within the manifold about the target. 19. A method for delivering charged fountain solution aerosol particles onto a target, comprising: forming a fog having charged fountain solution aerosol particles with a particle charger, with the fog traversing through a manifold; separating undesirably charged aerosol particles from the charged fountain solution aerosol particles within the manifold with a particle sorter; and depositing the charged fountain solution aerosol particles from within the manifold about the target with a particle delivery baffle proximate the target. 20. The method of claim 19 , wherein the target is a moving electrostatically patterned target, and further comprising transferring the charged fountain solution aerosol particles that attach to the electrostatically patterned target to a transfer member inking blanket for forming an inked image thereon based on the electrostatically patterned target.