<p>This topical collection brings together a selection of contributions presented at the 7th edition of the Turbulence and Interactions conference, held in La Palma (Canary Islands, Spain). The Turbulence and Interactions conference series has established itself as a dedicated forum for the discussion of new research directions in fundamental and applied aspects of turbulence, with the aim to enhance the understanding of the physics of complex flows and to improve the capability to solve related engineering problems. The 2025 edition continued this tradition by fostering exchanges between theoretical, numerical, and experimental approaches, with a focus on multiphysics interactions in turbulent flows.</p><p>The motivation for this collection arises from the increasing recognition that turbulence rarely occurs in isolation. In many natural and engineering systems, it interacts with dispersed phases, boundaries, chemical reactions, or external forcing. Understanding these interactions remains a central challenge, requiring advances not only in physical modeling of single- and multi-phase turbulent flows [<CitationRef CitationID="CR1">1</CitationRef>, <CitationRef CitationID="CR2">2</CitationRef>] but also in numerical methods and data analysis [<CitationRef CitationID="CR3">3</CitationRef>]. The present collection reflects this perspective, bringing together contributions that address both fundamental questions and application-driven problems.</p>

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Turbulence and interactions

  • Oscar Flores,
  • Manuel García-Villalba,
  • Cristian Marchioli,
  • Ivette Rodriguez

摘要

This topical collection brings together a selection of contributions presented at the 7th edition of the Turbulence and Interactions conference, held in La Palma (Canary Islands, Spain). The Turbulence and Interactions conference series has established itself as a dedicated forum for the discussion of new research directions in fundamental and applied aspects of turbulence, with the aim to enhance the understanding of the physics of complex flows and to improve the capability to solve related engineering problems. The 2025 edition continued this tradition by fostering exchanges between theoretical, numerical, and experimental approaches, with a focus on multiphysics interactions in turbulent flows.

The motivation for this collection arises from the increasing recognition that turbulence rarely occurs in isolation. In many natural and engineering systems, it interacts with dispersed phases, boundaries, chemical reactions, or external forcing. Understanding these interactions remains a central challenge, requiring advances not only in physical modeling of single- and multi-phase turbulent flows [1, 2] but also in numerical methods and data analysis [3]. The present collection reflects this perspective, bringing together contributions that address both fundamental questions and application-driven problems.