ascanio araujo

Universidade Federal do Ceará, Physics, Faculty Member

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Address: Brazil

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Daniel Flórez-Orrego

Ecole Polytechnique Federale de Lausanne

Kiran Dasari

University of Illinois at Urbana-Champaign

Harijono Djojodihardjo

Institut Teknologi Bandung

Apostolos Papanikolaou

National Technical University of Athens

Roland Kröger

University of York

Ephraim Paul

Akwa Ibom State University

Christos N Markides

Imperial College London

Jean-Yves Fortin

Centre National de la Recherche Scientifique / French National Centre for Scientific Research

Sohail Murad

Illinois Institute of Technology

Armando Marques-Guedes

UNL - New University of Lisbon

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Papers by ascanio araujo

Dynamics of enzymatic digestion of elastic fibers and networks under tension

Proceedings of the National Academy of Sciences, 2011

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Optimal array of sand fences

Scientific Reports, 2017

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Scaling behavior of diffusion and reaction processes in percolating porous media

Physical Review E Statistical Nonlinear and Soft Matter Physics, Jun 1, 2003

We investigate the diffusion-reaction behavior of two-dimensional pore networks at the critical p... more We investigate the diffusion-reaction behavior of two-dimensional pore networks at the critical percolation point. Our results indicate the existence of three distinct regimes of reactivity, determined by parameter xi[triple bond]D/(Kl2), where D is the molecular diffusivity of the reagent, K is its chemical reaction coefficient, and l is the length scale of the pore. First, when the diffusion transport is strongly limited by chemical reaction (i.e., D&amp;amp;lt;K), we recover the classical scaling behavior Phi approximately Lxi(1/2), where Phi is the mass flux of reagent penetrating the pore space and L is the system size. Second, at an intermediate range of xi values, when the process is influenced by the fractal morphology of the percolation cluster, we observe an anomalous diffusion scaling, Phi approximately L(alpha/2)xiB, with an exponent beta approximately 0.34. Third, in the absence of diffusional limitation (D&amp;amp;gt;K), the flux of reagent reaches a saturation limit Phi(sat) that scales with the system size as Phi(sat) approximately L(alpha), with an exponent alpha approximately 1.89, corresponding to the fractal dimension of the sample-spanning cluster. We then show that the variation of flux Phi calculated for different network sizes at the second and third regimes can be adequately described in terms of the scaling relation, Phi approximately L(alpha)f(xi/L(z)), where the crossover exponent z approximately 2.69 is consistent with the predicted scaling law alpha=2betaz.

Inertial capture in flow through porous media

European Physical Journal B Condensed Matter and Complex Systems, Feb 27, 2008

We investigate through analytical and numerical calculation of non-Brownian particles transported... more We investigate through analytical and numerical calculation of non-Brownian particles transported by a fluid at low Reynolds number in a porous medium, the influence of geometry and inertial effects on the capture efficiency of the solid matrix. In the case of a periodic array of cylinders, our results reveal a typical second order transition between non-trapping and trapping of particles that can be expressed as δ ∼ (St − Stc) α , where δ is the particle capture efficiency, St and Stc are the Stokes and the critical Stokes numbers, respectively, and α ≈ 0.5 is a critical exponent. Our simulation results for a random porous system under more realistic conditions suggest that the non-trapping regime is absent (i.e., Stc = 0). Moreover, the scaling exponent for the random system, α ≈ 1, is substantially different from the periodic model. We also show that the penetration length of the particles in the random pore space can be written as λ/D = β/St(1 −), where is the porosity, D is a characteristic length of the pores, and the prefactor β = 0.58 is a characteristic constant for the capture process. This simple relation discloses a novel way to rescale the relevant variables in the filtering system that can be useful in practical applications.

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Homeostatic maintenance via degradation and repair of elastic fibers under tension

Scientific Reports, 2016

Cellular maintenance of the extracellular matrix requires an effective regulation that balances e... more Cellular maintenance of the extracellular matrix requires an effective regulation that balances enzymatic degradation with the repair of collagen fibrils and fibers. Here, we investigate the longterm maintenance of elastic fibers under tension combined with diffusion of general degradative and regenerative particles associated with digestion and repair processes. Computational results show that homeostatic fiber stiffness can be achieved by assuming that cells periodically probe fiber stiffness to adjust the production and release of degradative and regenerative particles. However, this mechanism is unable to maintain a homogeneous fiber. To account for axial homogeneity, we introduce a robust control mechanism that is locally governed by how the binding affinity of particles is modulated by mechanical forces applied to the ends of the fiber. This model predicts diameter variations along the fiber that are in agreement with the axial distribution of collagen fibril diameters obtained from scanning electron microscopic images of normal rat thoracic aorta. The model predictions match the experiments only when the applied force on the fiber is in the range where the variance of local stiffness along the fiber takes a minimum value. Our model thus predicts that the biophysical properties of the fibers play an important role in the long-term regulatory maintenance of these fibers.

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Entropy Production and the Pressure-Volume Curve of the Lung

Frontiers in physiology, 2016

We investigate analytically the production of entropy during a breathing cycle in healthy and dis... more We investigate analytically the production of entropy during a breathing cycle in healthy and diseased lungs. First, we calculate entropy production in healthy lungs by applying the laws of thermodynamics to the well-known transpulmonary pressure-volume (P-V) curves of the lung under the assumption that lung tissue behaves as an entropic spring similar to rubber. The bulk modulus, B, of the lung is also derived from these calculations. Second, we extend this approach to elastic recoil disorders of the lung such as occur in pulmonary fibrosis and emphysema. These diseases are characterized by particular alterations in the P-V relationship. For example, in fibrotic lungs B increases monotonically with disease progression, while in emphysema the opposite occurs. These diseases can thus be mimicked simply by making appropriate adjustments to the parameters of the P-V curve. Using Clausius's formalism, we show that entropy production, ΔS, is related to the hysteresis area, ΔA, enclos...

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Particles in fluids

The European Physical Journal Special Topics, Apr 1, 2007

For finite Reynolds numbers the interaction of moving fluids with particles is still only underst... more For finite Reynolds numbers the interaction of moving fluids with particles is still only understood phenomenologically. We will present three different numerical studies all using the solver "Fluent" which elucidate this issue from different points of view. On one hand we will consider the case of fixed particles, i.e. a porous medium and present the distribution of channel openings and fluxes. These distributions show a scaling law in the density of particles and for the fluxes follow an unexpected stretched exponential behaviour. The next issue will be filtering, i.e. the release of massive tracer particles within this fluid. Interestingly a critical Stokes number below which no particles are captured and which is characterized by a critical exponent of 1/2. Finally we will also show data on saltation, i.e. the motion of particles on a surface which dragged by the fluid performs jumps. This is the classical aeolian transport mechanism responsible for dune formation. The empirical relations between flux and wind velocity are reproduced.

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Dynamics of viscous penetration in percolation porous media

Physical Review E, 2001

We investigate the dynamics of viscous penetration in two-dimensional percolation networks at cri... more We investigate the dynamics of viscous penetration in two-dimensional percolation networks at criticality for the case in which the ratio between the viscosities of displaced and injected fluids is very large. We report extensive numerical simulations that indicate that the scaling exponents for the breakthrough time distribution are the same as the previously reported values computed for the case of unit viscosity ratio. Our results are consistent with the possibility that viscous displacement through critical percolation networks constitutes a single universality class, independent of the viscosity ratio. We also find that the distributions of mass and breakthrough time of the invaded clusters have the same scaling form, but with different critical exponents.

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Scaling behavior of diffusion and reaction processes in percolating porous media

Physical Review E, 2003

Particle Transport in Rough Channels

International Journal of Modern Physics C, 2009

The transport of particles in two-dimensional self-affine rough channels is investigated through ... more The transport of particles in two-dimensional self-affine rough channels is investigated through numerical simulations. We show how the average transit time depends on the particle Stokes number as well as on the restitution coefficient controlling the collisions with the walls. More precisely, our results reveal that the particle motion in such irregular channels displays a complex behavior that is characterized by the existence of four distinct transit time regimes. Finally, we also show that this rich behavior is a direct consequence of the local competition between particle-structure (collisions) and particle-fluid (drag) interactions taking place in the system.

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Screening Effects in Flow through Rough Channels

Physical Review Letters, 2007

A surprising similarity is found between the distribution of hydrodynamic stress on the wall of a... more A surprising similarity is found between the distribution of hydrodynamic stress on the wall of an irregular channel and the distribution of flux from a purely Laplacian field on the same geometry. This finding is a direct outcome from numerical simulations of the Navier-Stokes equations for flow at low Reynolds numbers in two-dimensional channels with rough walls presenting either deterministic or random self-similar geometries. For high Reynolds numbers, when inertial effects become relevant, the distribution of wall stresses on deterministic and random fractal rough channels becomes substantially dependent on the microscopic details of the walls geometry. In addition, we find that, while the permeability of the random channel follows the usual decrease with Reynolds, our results indicate an unexpected permeability increase for the deterministic case, i.e., "the rougher the better". We show that this complex behavior is closely related with the presence and relative intensity of recirculation zones in the reentrant regions of the rough channel.

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Publisher's Note: Multiple invaded consolidating materials [Phys. Rev. E 70, 066150 (2004)]

Physical Review E, 2005

Multiple invaded consolidating materials

Physical Review E, 2004

We study a multiple invasion model to simulate corrosion or intrusion processes. Estimated values... more We study a multiple invasion model to simulate corrosion or intrusion processes. Estimated values for the fractal dimension of the invaded region reveal that the critical exponents vary as function of the generation number G, i.e., with the number of times the invasion process takes place. The averaged mass M of the invaded region decreases with a power-law as a function of G, M ∼ G β , where the exponent β ≈ 0.6. We also find that the fractal dimension of the invaded cluster changes from d1 = 1.887±0.002 to ds = 1.217±0.005. This result confirms that the multiple invasion process follows a continuous transition from one universality class (NTIP) to another (optimal path). In addition, we report extensive numerical simulations that indicate that the mass distribution of avalanches P (S, L) has a power-law behavior and we find that the exponent τ governing the powerlaw P (S, L) ∼ S −τ changes continuously as a function of the parameter G. We propose a scaling law for the mass distribution of avalanches for different number of generations G.

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Dynamical properties for a mixed Fermi accelerator model

Physica A: Statistical Mechanics and its Applications, 2013

The behavior of the decay of velocity in a semi-dissipative one-dimensional Fermi accelerator mod... more The behavior of the decay of velocity in a semi-dissipative one-dimensional Fermi accelerator model is considered. Two different kinds of dissipative forces were considered: (i) F ∝ −v and; (ii) F ∝ −v 2. We prove the decay of velocity is linear for (i) and exponential for (ii). During the decay, the particles move along specific corridors which are constructed by the borders of the stable manifolds of saddle points. These corridors organize themselves in a very complicated way in the phase space leading the basin of attraction of the sinks to be seemingly of fractal type.

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Post-breakthrough scaling in reservoir field simulation

Physica A: Statistical Mechanics and its Applications, 2012

ABSTRACT We study the oil displacement and production behavior in an isothermal thin layered rese... more ABSTRACT We study the oil displacement and production behavior in an isothermal thin layered reservoir model subjected to water flooding. We use the CMG&#39;s (Computer Modelling Group) numerical simulators to solve mass balance equations. The influences of the viscosity ratio (m≡μ/μ) and the inter-well (injector-producer) distance r on the oil production rate C(t) and the breakthrough time t are investigated. Two types of reservoir configuration are used, namely one with random porosities and another with a percolation cluster structure. We observe that the breakthrough time follows a power-law of m and r, t∝rαmβ, with α=1.8 and β=-0.25 for the random porosity type, and α=1.0 and β=-0.2 for the percolation cluster type. Moreover, our results indicate that the oil production rate is a power law of time. In the percolation cluster type of reservoir, we observe that P(t)∝tγ, with γ=-1.81, where P(t) is the time derivative of C(t). The curves related to different values of m and r may be collapsed suggesting a universal behavior for the oil production rate.

Numerical simulation of particle flow in a sand trap

Granular Matter, 2009

Sand traps are used to measure Aeolian flux. Since they modify the surrounding wind velocity fiel... more Sand traps are used to measure Aeolian flux. Since they modify the surrounding wind velocity field their gauging represents an important challenge. We use numerical simulations under the assumption of homogeneous turbulence based on FLUENT to systematically study the flow field and trapping efficiency of one of the most common devices based on a hollow cylinder with two slits. In particular, we investigate the dependence on the wind speed, the Stokes number, the permeability of the membrane on the slit and the saltation height.

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Wind velocity and sand transport on a barchan dune

Geomorphology, 2003

We present measurements of wind velocity and sand flux performed on the windward side of a large ... more We present measurements of wind velocity and sand flux performed on the windward side of a large barchan dune in Jericoacoara, northeastern Brazil. From the measured profile, we calculate the air shear stress using an analytical approximation and treat the problem of flow separation by an heuristic model. We find that the results from this approach agree well with our field data. Moreover, using the calculated shear velocity, we predict the sand flux according to well-known equilibrium relations and with a phenomenological continuum saltation model that includes saturation transients and thus allows for nonequilibrium conditions. Based on the field data and theoretical predicted results, we indicate the principal differences between saturated and nonsaturated sand flux models. Finally, we show that the measured dune moves with invariant shape and predict its velocity from our data and calculations.

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Fluid Flow Through Disordered Porous Media

Fractals, 2003

This talk briefly reviews the subject of fluid flow through disordered media. First, we use two-d... more This talk briefly reviews the subject of fluid flow through disordered media. First, we use two-dimensional percolation networks as a simple model for porous media to investigate the dynamics of viscous penetration when the ratio between the viscosities of displaced and injected fluids is very large. The results indicate the possibility that viscous displacement through critical percolation networks constitutes a single universality class, independent of the viscosity ratio. We also focus on the sorts of considerations that may be necessary to move statistical physics from the description of idealized flows in the limit of zero Reynolds number to more realistic flows of real fluids moving at a nonzero velocity, when inertia effects may become relevant. We discuss several intriguing features, such as the surprisingly change in behavior from a "localized" to a "delocalized" flow structure (distribution of flow velocities) that seems to occur at a critical value of ...

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Particles in fluids

The European Physical Journal Special Topics, 2007

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Flow in Rough Self-Affine Fractures Joints

Arxiv preprint cond-mat/ …, 2006

Alex Hansen Department of Physics, Norwegian University of Science and Technology, N7491 Trondhe... more

$FIG. 1: (a) Contour plot of the local velocity magnitude along a typical realization of the self-affine rough channel (h = 0.8) subjected to low Reynolds conditions. Fluid is pushed from eft to right. The colors ranging from blue to red correspond to low and high velocity magnitudes, respectively. The solid ine in the center of the channel corresponds to the streamline that divides the flux into two equal parts. The zoom shown in (b) reveals the presence of high velocity spots in the flow field induced by the occurrence of high slopes in the channel geometry. inderstand the interplay between porous structure anc luid flow, it is necessary to examine local aspects of th« o0re space morphology and relate them to the relevan mechanisms of momentum transfer (viscous and inertia ‘orces). Flow in self-affine faults was to our knowledg irst discussed by Roux et al. [6], where they considered racture fault consisting of two matching walls that have seen moved along the fracture plane with respect to eacl other. If the in-plane movement is x, then — due to th self-affinity of the fault — the amplitude of the fault wil 9e proportional to x”. It was claimed in [6] that the sermeability of a two-dimensional fracture fault woulc scale as x7”, based on using the self-affinity to deter. mine the scaling properties of an effective channel width However, numerical studies by Gutfraind et al. [7] usin;$