New formulation of the Navier–Stokes equations for liquid flows

Giona, Massimiliano; Procopio, Giuseppe; Adrover, Alessandra; Mauri, Roberto

doi:10.1515/jnet-2022-0095

Cited by 5 publications

(1 citation statement)

References 42 publications

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“…A way to overcome this issue is addressed in Ref. [69], where a dynamic formulation of the pressure contribution is proposed.…”

Section: Positivity Constraint and Stochastic Representation: The Cas...mentioning

confidence: 99%

Thermodynamics of Irreversible Processes: Fundamental Constraints, Representations, and Formulation of Boundary Conditions

Procopio,

Pezzotti,

Cocco

et al. 2024

Physics

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Starting from the analysis of the lack of positivity of the Cattaneo heat equation, this work addresses the thermodynamic relevance of the positivity constraint in irreversible thermodynamics, that is at least as significant as the entropic constraints. The fulfillment of this condition in hyperbolic models leads to the parametrization of the concentration fields with respect to internal variables associated with the microscopic dynamics. Using Brownian motion theory as a landmark example for deriving macroscopic transport equations from the equations of motion at the particle/molecular level, we discuss two typical problems involving hydrodynamic interactions at the microscale: surface chemical reactions at a solid interface of a diffusing reactant, and mass-balance equations in a complex viscoelastic fluid, in which the physics of the interaction leads either to overcoming the parabolic diffusion model or to considering the parametrization of the concentration with respect to the degrees of freedom associated with the relaxation dynamics of the solvent fluid.

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“…A way to overcome this issue is addressed in Ref. [69], where a dynamic formulation of the pressure contribution is proposed.…”

Section: Positivity Constraint and Stochastic Representation: The Cas...mentioning

confidence: 99%

Thermodynamics of Irreversible Processes: Fundamental Constraints, Representations, and Formulation of Boundary Conditions

Procopio,

Pezzotti,

Cocco

et al. 2024

Physics

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show abstract

Hydrodynamic Green functions: paradoxes in unsteady Stokes conditions and infinite propagation velocity in incompressible viscous models

2022

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We present a simple representation of the hydrodynamic Green functions grounded on the free propagation of a vector field without any constraints (such as incompressibility) coupled with a gradient gauge in order to enforce these constraints. This approach involves the solution of two scalar problems: a couple of Poisson equations in the case of the Stokes regime, and a system of diffusion/Poisson equations for unsteady Stokes flows. The explicit and closed-form expression of the Green function for unsteady Stokes flow is developed. The relevance of this approach resides in its conceptual simplicity and it enables us to focus on the intrinsic singularities (Stokesian paradoxes) associated with the propagation of the stresses in incompressible flows under unsteady Stokes conditions, determining the occurrence of power-law tails in the velocity profile arbitrarily far away from the location of the impulsive force.

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A novel plant-based milk alternative made from red kidney bean (Phaseolus vulgaris L.): Effects of cultivars on its stability and sensory properties

Tang,

Cui,

Zhang

et al. 2023

Food Bioscience

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New formulation of the Navier–Stokes equations for liquid flows

Cited by 5 publications

References 42 publications

Thermodynamics of Irreversible Processes: Fundamental Constraints, Representations, and Formulation of Boundary Conditions

Thermodynamics of Irreversible Processes: Fundamental Constraints, Representations, and Formulation of Boundary Conditions

Hydrodynamic Green functions: paradoxes in unsteady Stokes conditions and infinite propagation velocity in incompressible viscous models

A novel plant-based milk alternative made from red kidney bean (Phaseolus vulgaris L.): Effects of cultivars on its stability and sensory properties

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