DEWATRA
focuses on addressing the challenge of global warming and its connection to rising Earth temperatures.
Description
The proposed project, focuses on addressing the challenge of global warming and its connection to rising Earth temperatures, with a particular emphasis on the role of the shipping industry in international trade. It introduces the concept of “green shipping” as a comprehensive approach to enhance environmental conditions within the shipping sector.
The project outlines various technological and operational strategies, including optimizing ship hull design, implementing energy-saving devices, exploring alternative fuels, utilizing wind energy, and employing artificial neural networks (ANN) for predicting fuel consumption and emissions. Additionally, it highlights the use of Automatic Identification System (AIS) data for studying ship emissions’ impact on air quality.
The primary objective of the proposed project is to achieve a higher level of sustainability in shipping by reducing CO2 emissions, enhancing energy efficiency, and ensuring compliance with international regulations. This initiative sets clear and ambitious goals, such as developing numerical models, assessing the performance of technology combinations, fostering capacity-building, and influencing transport policy measures to promote sustainable maritime practices.
Working Groups
| Number | Title | Leader | Vice-Leader |
|---|---|---|---|
| 1 | WG1. Assessment of atmospheric emissions from shipping | Prof Jin Wang | Prof Selma Ergin |
| 2 | WG2. Hydrodynamic hull design for energy-efficient performance | Prof Kostas Belibassakis | Mr Ivan Sulovsky |
| 3 | WG3. Operation of ship propulsion systems with alternative fuels | Prof Peilin Zhou | Dr Elias Yfantis |
| 4 | WG4. Renewable energy contributions to ship energy efficiency | Prof Jonas Ringsberg | Dr Caglar Karatug |
| 5 | WG5. Onboard decision support systems for energy-efficient ship operation | Prof Nikola Vladimir | Dr. Haitong Xu |