Accelleron and HD HMS (HD Hyundai Marine Solution) have conducted Engine Part Load Optimization (EPLO) projects on two vessels owned by leading container line Hapag-Lloyd.
The 14,000TEU Basle Express and Essen Express had main engine tunings and turbocharger components modified for lower engine loads, with sea trials and subsequent operations showing fuel savings of more than 10g/kWh – equivalent to 5% of overall consumption in specific load ranges.
Accelleron and HMS’s EPLO product ensures that vessels operating at engine speeds lower than their original design, for example to comply with energy efficiency regulations as well as to reduce carbon cost exposure, run as efficiently as possible. The two Hapag-Lloyd vessels had recently been retrofitted with hull and propeller enhancements to achieve required speed using significantly less power. With EPLO and turbocharger cut-outs, the vessels can still deliver required propulsion power when needed, while adding further fuel savings on top of those gained from their earlier retrofits.
The vessels were optimized in a highly efficient project, after previous technical evaluation, with commissioning completed just four weeks after the initial orders were placed. Following the positive results, Hapag-Lloyd will extend implementation for the remaining eight vessels in its Dortmund Express class fleet.
Hapag-Lloyd Director Fleet Innovation & Projects, Dr. Christoph Thiem said: “Enhancing our vessels’ efficiency is a key pillar of our energy efficiency and decarbonization strategy. The measured fuel savings provide a clear competitive edge for our fleet, delivered within just four weeks after placing the order and realizing immediate benefits for our company.”
Working with vessel lifecycle solutions provider HMS and Accelleron implemented a tailored EPLO solution that included turbocharger hardware optimization and main engine tuning to align with part-load operation. Fixed cut-out functionality was added to one turbocharger to further increase efficiency at part engine load.
