Aligned with
This conference contributes to global sustainability by aligning its research discussions and academic sessions with key United Nations Sustainable Development Goals. It fosters knowledge exchange, innovation, and collaborative engagement.
This track focuses on the fundamental mechanisms driving ocean turbulence, including the interplay between stratification and shear flows. Participants will explore recent advancements in understanding turbulent flows and their implications for ocean dynamics.
This session will examine the unique mixing processes occurring in coastal regions, emphasizing the role of eddies and boundary layers. Contributions will highlight the significance of these processes in nutrient transport and ecosystem health.
This track will delve into the generation and propagation of internal waves and their effects on ocean stratification. Discussions will include observational studies and modeling efforts to understand wave-induced mixing.
This session aims to investigate the mechanisms of energy dissipation in various oceanic flows, including turbulence and wave interactions. Participants will present findings on the implications of energy loss for ocean circulation and climate models.
This track will showcase innovative numerical models used to simulate ocean turbulence and mixing processes. Presentations will cover model validation, parameterization strategies, and the integration of observational data.
This session will explore the hydrodynamic principles governing ocean circulation patterns, including the role of mesoscale processes. Contributions will focus on the interactions between large-scale currents and smaller turbulent features.
This track will highlight cutting-edge technologies and methodologies for measuring turbulence in the ocean. Participants will discuss the challenges and innovations in obtaining high-resolution data in dynamic marine environments.
This session will investigate the influence of density gradients on mixing processes in the ocean. Presentations will cover theoretical frameworks and empirical studies that elucidate the relationship between density stratification and turbulence.
This track will focus on the significance of mesoscale processes in shaping ocean dynamics and their interactions with larger-scale phenomena. Researchers will present findings on the role of these processes in energy transfer and mixing.
This session will explore the mechanisms of vertical mixing and its impact on thermocline stability and structure. Contributions will include observational studies and modeling efforts that enhance our understanding of vertical transport in the ocean.
This track will examine the complex interactions between waves and currents and their influence on turbulent mixing processes. Discussions will focus on theoretical insights and practical implications for oceanographic research.