System and method for reducing condensation on printheads in a print zone within an aqueous inkjet printer

What is claimed is: 1. An aqueous inkjet printer comprising: a plurality of printheads configured to eject aqueous ink drops; an image receiving surface that moves past the plurality of printheads in a process direction to enable the printheads to eject aqueous ink drops onto the image receiving surface to form an ink image on the image receiving surface, the image receiving surface having a temperature that enables water vapor to be formed adjacent the image receiving surface within the plurality of printheads; an air mover; and a plurality of air directing members, each air directing member having a first opening and a second opening, the first opening and the second opening of each air directing member are connected by a conduit within each air directing member to enable air to flow between the first opening of each air directing member and the second opening of each air directing member, the first opening of each air directing member being separated from the first opening of the other air directing members in the plurality of air directing members, the second opening of each air directing member extends across a width of the image receiving surface in a cross-process direction that is perpendicular to the process direction, one pair of air directing members being positioned between a pair of printheads that are adjacent to one another in the process direction and the second opening of each air directing member in the pair of air directing member is configured to direct air away from the printhead to which the air directing member is adjacent, the first opening in each air directing member in the pair of air directing members being pneumatically and separately connected to the air mover and the second openings of the pair of air directing members are separated from one another by a distance in the process direction to enable the air mover to generate air flow through each air directing member of the pair of air directing members to move air across the image receiving surface in an area between the pair of printheads adjacent to one another in the process direction and to move air vertically with reference to the image receiving surface between the pair of air directing members to remove air and the water vapor from the area between the pair of printheads adjacent to one another in the process direction without producing air flows under the printheads adjacent to one another in the process direction. 2. The aqueous inkjet printer of claim 1 wherein the image receiving surface is an intermediate imaging member that rotates in the process direction past the plurality of printheads. 3. The aqueous inkjet printer of claim 1 wherein the image receiving surface is a continuous web of media that moves past the plurality of printheads in the process direction. 4. The aqueous inkjet printer of claim 1 wherein the air mover is a positive air pressure source. 5. The aqueous inkjet printer of claim 1 wherein the air mover is a negative air pressure source. 6. The aqueous inkjet printer of claim 1 further comprising: another air mover positioned to move air vertically with reference to the image receiving surface between the pair of air directing members between the pair of printheads adjacent to one another in the process direction. 7. The aqueous inkjet printer of claim 6 wherein the air mover pneumatically connected to the first opening of each air directing member in the pair of air directing members is a positive air pressure source and the other air mover is a negative air pressure source. 8. The aqueous inkjet printer of claim 6 wherein the air mover pneumatically connected to the first opening of each air directing member in the pair of air directing members is a negative air pressure source and the other air mover is a positive air pressure source.