The achievable colour gamut exceeds US Gracol and SWOP standards for offset print, though no Fogra equivalent is quoted. The very small and even particle size, coupled with the Stream continuous inkjet printhead technology, also means that less humectant is required, reducing the energy requirement for drying the ink and the overall volume needed to achieve any given amount of coverage. Continuous Feed, Continuous Flow The Stream technology has been around for over a decade and is used in all other Kodak PROSPER presses and imprinting modules, bar the PROSPER Ultra 520 introduced at the same time as the 7000 Turbo, which uses Ultrastream, a more recent development. There are reportedly over 80 PROSPER installations around the world. Stream is a continuous flow design in which ink droplets are emitted constantly from every nozzle and deflected by airflow if they’re not needed on the substrate; deflected droplets are then recycled back into the ink system. The advantages of this approach are that inks potentially drying and clogging lessused nozzles is avoided, allowing there to be less humectant in the ink, which benefits drying of the print. More spherical drops are produced with Stream printheads than by drop-on-demand inkjets, which produce teardrop-shaped droplets whose tails can smear when hitting fast-moving paper. This results in rounder printed dots which Kodak says brings a quality advantage; the difference is clear under the microscope, but you’d need to compare actual print samples to see how it manifests in normal viewing. Whatever the ink dot shape, drying is a major consideration in high-speed inkjet printing. The PROSPER 7000 Turbo has eight NIR (near infra-red) dryers, one after each colour print station. There are four stations per side of the web and it’s worth noting that this allows for a choice of configurations of the press – all in a straight line, and L- or U-shapes with the banks of four stations at right angles or parallel respectively. Kodak supplies the essential paper handling via an unwinder and rewinder. It says it’s open to third-party integration for inline finishing but notes that anything under consideration must be able to keep up with the press. Since it’s most likely that this machine will go into high-volume production environments which already have offline or nearline finishing capacity, it’s not a likely scenario. Driving a press this fast with variable content requires some serious RIP horsepower too. The Kodak 800 Print Manager is based on the Adobe PDF Print Engine (APPE) and as well as handling regular PDF, accepts PDF/VT and a variety of other high speed print variable content formats found in the transactional print world, including PPML, IPDS, and AFP. Housed in three physical cabinets, it uses hardware acceleration to drive the press at full rated speed and is compliant with JDF/ JMF and of course Kodak’s own Prinergy workflow offerings. So how might you harness all this print power? Kodak suggests that the Quality mode produces ‘offset-class’ results for catalogues and direct mail, while Performance suits book and transactional work. The headline-grabbing Turbo mode more fully exploits the speeds of which the Stream technology is capable (up to 900m/ min in some hybrid imprinting applications) to give fastest turnaround for work with ‘lower resolution and coverage requirements’, though examples of what this might be aren’t given. Kodak’s Josh Howard, senior director of Inkjet Research & Development, says that the 7000 Turbo is ideal for applications “where most volume is on uncoated stock, with the opportunity to move into coated paper on occasion”. Flexibility and lower running costs are said to be the strengths of the 7000 Turbo with Kodak claiming that it’s up to 20% cheaper to run than other inkjet systems. No detailed breakdown of this calculation was provided, but it seems reasonable to assume that some of this would come from the reduced operator labour-to-work ratio that a faster press brings, plus the benefits of the Ektacolor inks in terms of both volume consumed and reduced drying energy requirements. So far, Kodak has publicised only one customer for the PROSPER 7000 Turbo, Mercury Print Productions, based in Rochester, New York, USA. Already a long-standing PROSPER site, which enabled significant growth in educational book printing, Mercury has sheet-fed and web offset, sheet-fed and web inkjet, sheet-fed toner, and wide-format inkjet printers. The addition of the 7000 Turbo has enabled the company to pursue longer run lengths than were previously feasible and opened up new business opportunities, according to chief executive officer, John Place. If you’re hitting the limits with existing web inkjet or looking to consolidate work from toner and/or offset, then the PROSPER 7000 Turbo might be just the ticket. If you don’t need that absolute top speed, the PROSPER 6000 line is still available, offering the Quality and Performance modes via the same printhead and ink combination. Maximum Roll Width: 64.8cm, 62cm printable Print Resolution: Up to 600 x 900dpi via 48 Kodak Stream continuous Print Speed: Up to 410m/min in Turbo mode (5523 A4 ppm), 200m/ min in Quality Supported Media: Newsprint, uncoated, recycled, inkjet coated; silk and gloss with Optimax priming Inks: Standard: rotary, direct, and pen; optional: oscillating, kiss-cut, and VeloTaper Statistics ▼ The PROSPER 7000 was demonstrated live at Hunkeler Innovation days 2025 UNDER THE HOOD | KODAK PROSPER 7000 TURBO 23 www.printmonthly.co.uk Issue 359 - March | April 2026
RkJQdWJsaXNoZXIy MjM0NDIxOA==