6533b7d1fe1ef96bd125ce24
RESEARCH PRODUCT
A mechanical picture of fractional-order Darcy equation
Massimiliano ZingalesLuca Deserisubject
Numerical AnalysisAnomalous diffusionApplied MathematicsVolumetric fluxMass flowAnomalous diffusion; Anomalous scaling; Darcy equation; Fractional derivatives; Porous mediaMathematical analysisPorous mediaAnomalous diffusionFluxFractional derivativeViscous liquidDarcy–Weisbach equationFractional calculusModeling and SimulationDarcy equationSettore ICAR/08 - Scienza Delle CostruzioniPorous mediumAnomalous scalingMathematicsdescription
Abstract In this paper the authors show that fractional-order force-flux relations are obtained considering the flux of a viscous fluid across an elastic porous media. Indeed the one-dimensional fluid mass transport in an unbounded porous media with power-law variation of geometrical and physical properties yields a fractional-order relation among the ingoing flux and the applied pressure to the control section. As a power-law decay of the physical properties from the control section is considered, then the flux is related to a Caputo fractional derivative of the pressure of order 0 ⩽ β ≤ 1 . If, instead, the physical properties of the media show a power-law increase from the control section, then flux is related to a fractional-order integral of order 0 ⩽ β ≤ 1 . These two different behaviors may be related to different states of the mass flow across the porous media.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2015-03-01 | Communications in Nonlinear Science and Numerical Simulation |