Visit our Research & Development section to read the original paper published by Ömer Harun Özkernak and Gönül Tuğrul İçemer of the Azdeniz University in Antalya, Turkey.
Bilge water waste poses an environmental risk for humans and marine creatures by causing cancer and developmental disorders due to the toxic substances. This study aims to create a calculation method to calculate the amount of bilge that a ship can produce. The number of ships and the amount of bilge water that they have given the port waste reception facilities in the past years were collected to prevent marine pollution caused by ships in the Gulf of Antalya.
The amount of possible future bilge water discharge in the gulf was estimated by using the collected data by linear regression method. The risk distribution of the amount of bilge water that a ship can produce was determined with the data obtained by the Monte Carlo method for the first time in this study. As a result, although the number of ships in the gulf will decrease in number, it is predicted that the amount of bilge water discharge and the needs of a waste receptions facility will increase in the coming years.
In March 2020, the Technical University Berlin and five representatives of the port industry started the funded research project SELECT. The acronym “SELECT” stands for “Smarte Entscheidungsassistenz für Logistikketten der Binnenschifffahrt durch ETA-Prognosen” (engl.: “Smart decision-making assistance for logistics chains in inland shipping through ETA forecasts”). FleetMon has been chosen as the official AIS data provider.
The aim of the project is to develop an IT system for port operators and shipping companies that automatically and dynamically predicts the transport processes of inland vessels and thus their arrival times (ETA) at inland and seaports. The digital decision assistant is intended to enable the parties to take suitable actions in relation to the expected arrival time. It considers the entire logistical process flow. Reducing the vessel transit/travel times as well as increasing the handling capacities in inland ports are other important goals.
The research partners are supported by the BMVI (Federal Ministry of Transport and Digital Infrastructure) and receive funds amounting to around one million euros.
Additionally, FleetMon’s data have been used for the teaching course “Supply Chain Analytics” at the Technical University Berlin related to the SELECT project. Visit our Research & Development section to know more about the student case studies in the field of inland vessel ETA predictions.
Researchers at ETH Zurich provide new insights on the emission reduction potential of shore-side electricity using AIS data from FleetMon.
The urgency for climate action expressed by the Intergovernmental Panel on Climate Change (IPCC) demands a rapid market uptake of CO2 reduction measures in all sectors. For international shipping, the European Commission has frequently emphasized the important role of providing shore-side electricity to ships at berth, being a rather simple way of reducing CO2 emissions of ships, but also due to considerable co-benefits: Local air pollution in sea ports is primarily caused by emissions of ships at berth and poses a severe threat for premature mortality on the local residents.