Litcius/Paper detail

Investigation of the adverse effects of slow steaming operations for ships

Çağlar Dere, Burak Zincir, Ömer Berkehan İnal, Cengiz Deniz

2022Proceedings of the Institution of Mechanical Engineers Part M Journal of Engineering for the Maritime Environment16 citationsDOI

Abstract

The typical negative effects of prolonged slow steaming operations are investigated in this study. The scope of the research is to examine the effects of the carbon deposit formation on piston rings (lack of sealing function), exhaust boiler (reduction in the heat recovery capacity), turbocharger (lack of scavenging capacity), and injector, due to the prolonged slow steaming operation. It is necessary to identify the holistic adverse effects of the low-load operation on the main engine performance and subsequent components. The study shows that the negative consequences of a long-term slow steaming operation cause noteworthy efficiency degradation in marine diesel engines. The paper aims to clarify the barriers to the efficient operation of marine diesel engines via raising awareness of proper and planned maintenance for sustainable slow steaming. The degradation rates affect the total operational efficiency, CO 2 emissions, and fuel consumption. The study results show that the fuel consumption increases by 1.9%, 2.1%, and 1.9% of daily consumption and the corresponding CO 2 emission increments are 4.36, 4.29, and 3.48 kg CO 2 per nautical mile sailing of the container ship at specified speeds at 65%, 55%, and 45% engine loads, respectively. The efficiency variation leads significant amount of emission increment, while up to 50% decrement will enter into force by April 2022 for container ships. The study gives valuable insight into the increase in CO 2 emissions and fuel after long-term slow steaming for the near future with the stricter emission limits. The results provide considerable information about the deterioration effect on the whole energy system and help to estimate potential efficiency levels for marine diesel engines.

Topics & Concepts

SteamingEnvironmental scienceFuel efficiencyDiesel fuelDiesel engineGreenhouse gasAutomotive engineeringTurbochargerWaste managementEngineeringChemistryMechanical engineeringEcologyBiologyFood scienceTurbineMaritime Transport Emissions and EfficiencyVehicle emissions and performanceAdvanced Combustion Engine Technologies