System and method for printing color images on substrates in an inkjet printer

What is claimed is: 1. A color inkjet printer comprising: a first printhead module configured to eject a first ink having a first color; a second printhead module configured to eject a second ink having a second color that is different than the first color, the second printhead module following the first printhead module in a process direction; a first heated air source positioned after the first printhead module in the process direction and positioned before the second printhead module in the process direction; an optical sensor configured to generate image data of substrates printed by the first printhead module and the second printhead module, the optical sensor being positioned after the second printhead module in the process direction; and a controller operatively connected to the first printhead module, the second printhead module, the first heated air source, and the optical sensor, the controller being configured to: receive image content data for a substrate in a print job; generate at least a first color separation and a second color separation using the image content data for the substrate; operate the first printhead module to print the first color separation onto the substrate; operate the first heated air source to direct heated air having a first temperature and a first air flow rate toward the substrate after the first color separation has been printed on the substrate but before the second color separation is printed on the substrate; operate the second printhead module to print the second color separation onto the substrate immediately after the substrate has passed the first heated air source; measure a size of ink drops in the image data of the printed first color separation and the printed second color separation generated by the optical sensor; and vary operation of the first heated air source to adjust at least one of the first temperature of the heated air and the air flow rate of the heated air when the measured size of at least some of the ink drops in the image data of the printed first color separation and the printed second color separation exceeds a predetermined threshold. 2. The color inkjet printer of claim 1 further comprising: a first vacuum source configured to pull the heated air away from the substrate after the heated air has reached the substrate. 3. The color inkjet printer of claim 2 , the controller being further configured to: adjust a level of vacuum pulled by the first vacuum source when the measured size of at least some of the ink drops in the printed first color separation and the printed second color separation exceeds a predetermined threshold. 4. The color inkjet printer of claim 3 further comprising: a third printhead module configured to eject a third ink having a third color that is different than the first color and the second color, the printhead module following the first printhead module and the second printhead module in the process direction; a second heated air source positioned after the second printhead module in the process direction and positioned before the third printhead module in the process direction; the controller being further operatively connected to the third printhead module and the second heated air source, the controller being further configured to: generate a third color separation using the image content data for the substrate; operate the second heated air source to direct heated air toward the substrate after the second color separation has been printed on the substrate but before the third color separation is printed on the substrate; operate the third printhead module to print the third color separation onto the substrate immediately after the substrate has passed the second heated air source; and use image data of the printed third color separation generated by the optical sensor to adjust operating parameters for the second heated air source. 5. The color inkjet printer of claim 1 , the first heated air source further comprising: a first plurality of heated air sources; and the controller being further operatively connected to each heated air source in the first plurality of heated air sources, the controller being further configured to: use the image data of the printed first color separation, the printed second color separation, and the third printed color separation generated by the optical sensor to adjust at least one of the operating parameter for at least one heated air source in the first plurality of heated air sources. 6. The color inkjet printer of claim 5 , the second heated air source further comprising: a second plurality of heated air sources; and the controller being further operatively connected to each heated air source in the second plurality of heated air sources, the controller being further configured to: use the image data of the printed first color separation, the printed second color separation, and the third printed color separation generated by the optical sensor to adjust at least one operating parameter for at least one heated air source in the second plurality of heated air sources. 7. The color inkjet printer of claim 6 wherein a number of heated air sources in the first plurality of heated air sources is different than a number of heated air sources in the second plurality of air sources. 8. The color inkjet printer of claim 7 , the controller being further configured to control the first plurality of heated air sources independently of the second plurality of heated air sources. 9. The color inkjet printer of claim 8 , the controller being further configured to control each heated air source in the first plurality of heated air sources independently of the other heated air sources in the first plurality of heated air sources. 10. The color inkjet printer of claim 9 , the controller being further configured to not adjust the temperature of the heated air generated by any heated air source in the first plurality of heated sources and the second plurality of heated air sources above a maximum temperature. 11. The color inkjet printer of claim 10 wherein the maximum temperature is 37° C. 12. A method for operating a printer comprising: receiving image content data for a substrate in a print job; generating at least a first color separation and a second color separation using the image content data for the substrate; operating a first printhead module to print the first color separation onto the substrate; operating a first heated air source to direct heated air toward the substrate after the first color separation has been printed on the substrate but before the second color separation is printed on the substrate; operating a second printhead module to print the second color separation onto the substrate immediately after the substrate has passed the first heated air source; generating image data of the printed first color separation and the printed second color separation; measuring a size of ink drops in the image data of the printed first color separation and the printed second color separation; and adjusting operational parameters of the first heated air source when the size of at least some of the ink drops in the image data of the printed first color separation and the printed second color separation exceeds a predetermined threshold. 13. The method of claim 12 , the adjustment of the operational parameters of the first heated air source further comprises: adjusting one of a temperature of the heated air directed toward the substrate and an air flow rate of the heated air directed toward the substrate. 14. The method of claim 13 further comprising: operating a