Bassem M. Akoush scite author profile

Physics-informed machine-learning (PIML) enables the integration of domain knowledge with machine learning (ML) algorithms, which results in higher data efficiency and more stable predictions. This provides opportunities for augmenting—and even replacing—high-fidelity numerical simulations of complex turbulent flows, which are often expensive due to the requirement of high temporal and spatial resolution. In this review, we (i) provide an introduction and historical perspective of ML methods, in particular neural networks (NN), (ii) examine existing PIML applications to fluid mechanics problems, especially in complex high Reynolds number flows, (iii) demonstrate the utility of PIML techniques through a case study, and (iv) discuss the challenges and opportunities of developing PIML for fluid mechanics.

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An intuitive framework for optimizing energetic and exergetic performances of parabolic trough solar collectors operating with nanofluids

Abubakr

Amein

Akoush

et al. 2020

Renewable Energy

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Combustion of lean ammonia-hydrogen fuel blends in a porous media burner

Vignat

Akoush

Toro

et al. 2023

Proceedings of the Combustion Institute

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Unleashing deep neural network full potential for solar radiation forecasting in a new geographic location with historical data scarcity: a transfer learning approach

et al. 2022

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High-resolution estimates of diffuse fraction based on dynamic definitions of sky conditions

et al. 2021

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Bassem M. Akoush

A Review of Physics-Informed Machine Learning in Fluid Mechanics

An intuitive framework for optimizing energetic and exergetic performances of parabolic trough solar collectors operating with nanofluids

Combustion of lean ammonia-hydrogen fuel blends in a porous media burner

Unleashing deep neural network full potential for solar radiation forecasting in a new geographic location with historical data scarcity: a transfer learning approach

High-resolution estimates of diffuse fraction based on dynamic definitions of sky conditions

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