One-dimensional turbulence (ODT) modelling represents a powerful stochastic framework for simulating turbulent flows while reducing computational complexity. By focussing on a single spatial dimension ...

Boundary layer transition and turbulence modelling represent central challenges in fluid dynamics, with profound implications for the design and performance of aerospace, automotive, and energy ...

Researchers from Aarhus University aim to develop a new way of modelling complex turbulent systems. This is necessary to design, for example, less expensive, more productive wind farms, more efficient ...

Researchers used the world's fastest supercomputer for open science to train an artificial intelligence model that captures ...

Turbulence is one of the most expensive problems in computing. Simulating the chaotic swirl of air over a wing or the churn ...

ADELPHI, Md.-- Researchers from the Army’s corporate laboratory developed a unique turbulence model for the atmosphere that has broad applications to both civilian and military activities to include ...

Researchers at Purdue University have created a turbulence model for vortex collisions that could allow aircraft engineers and designers to build aircraft more capable of handling extreme scenarios.

WEST LAFAYETTE, Ind. -- In 2018, passengers onboard a flight to Australia experienced a terrifying 10-second nosedive when a vortex trailing their plane crossed into the wake of another flight. The ...

A sneeze. Ocean currents. Smoke. What do these have in common? They're instances of turbulence: unpredictable, chaotic, uneven fluid flows of fluctuating velocity and pressure. Though ubiquitous in ...