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    Introducción a los sensores de fibra óptica para el monitoreo de salud de estructuras civiles
    (2022-02-18) Alustiza, Diego; Lopez, Anahí; Mineo, Marcos; Russo, Nélida Araceli; Villagrán Zaccardi, Yury Andrés
    El monitoreo de salud de estructuras civiles (SHM, Structural Health Monitoring) es una de las principales herramientas disponibles para la ejecución de tareas de mantenimiento predictivo. La evolución de las tecnologías asociadas a las comunicaciones ópticas en los últimos 30 años, propició la aparición de diferentes tipos de sensores de fibra óptica (OFS, Optical Fiber Sensors) cuya aplicabilidad en el campo de las técnicas de medición vinculadas al SHM ha sido demostrada. El desempeño de varios tipos de OFS fue ampliamente evaluado tanto en el laboratorio como en campo, para la determinación de algunos procesos físico/químicos y de magnitudes de gran interés ingenieril. En este trabajo se brinda el panorama actual de los OFS dentro de los esquemas de medición más empleados en SHM. Se mencionan las diferentes magnitudes y procesos térmicos, químicos y mecánicos reportados hasta el momento que son susceptibles de ser analizados a través del uso de OFS en estrategias de monitoreo de estructuras civiles.
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    Fabricación local de sensores de fibra óptica aplicables al sensado de magnitudes relevantes en ingeniería civil
    (2019-08-15) Alustiza, Diego; Mineo, Marcos; Aredes, Daniel; Russo, Nélida Araceli
    En este artículo se reportan los resultados obtenidos en la fabricación local de una estructura óptica conocida como red de período largo, en una fibra óptica estándar empleada para telecomunicaciones. Dicha red se logró mediante el empleo de una técnica en la que se genera una sucesión periódica de reducciones en el diámetro de la fibra (microtapers) mediante el ataque con un arco eléctrico de carac-terísticas controladas. A la estructura óptica mencionada se la conoce como LPG (por su sigla en inglés) y puede ser empleada como elemento de transducción en sistemas de sensado de diversas magnitudes fisicoquímicas. El proceso de fabricación se realizó mediante un arreglo experimental recientemente implementado en el CIOp. Las LPG generadas constituyen uno de los elementos básicos en el estudio y desarrollo de técnicas ópticas aplicables en la caracterización de materiales cementíceos, en el contexto de un proyecto de trabajo conjunto entre el LEMIT y el CIOp. Se reportan las características que descri-ben el comportamiento óptico de las LPG generadas y se las compara con dispositivos comerciales de igual naturaleza fabricados en el exterior.
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    Determination of the angle of repose and coefficient of rolling friction for wood pellets
    (2022-02-08) Madrid, Marcos A.; Fuentes., José María; Ayuga, Francisco; Gallego Vazquez, Eutiquio
    The determination of the angle of repose for granular materials is indispensable for their handling and the design of containers and technological processing equipment. On the other hand, computational simulations have become an essential tool to understand the micro-behavior of the granular material and to relate it with the macro-behavior. The experimental determination of the angle of repose has a fundamental role when defining the required parameters to perform realistic simulations. However, there is a lack of a standard that allows the reproducibility of the experiments when using granular materials of equivalent spherical radius greater than 2 mm, such as corn, soybeans, wheat and PLA pellets, among others. In particular, a product of growing importance in the global strategy of decarbonization of the economy is biomass pellets, whose handling operations are one of the main components for the total cost of pellets supplied to the final user. In the present work, with the aim of determining the rolling friction coefficient, the variations in the angle of repose with the drop height for biomass pellets were studied both experimentally and with simulations, and an optimal procedure for its determination was found. Then, a calibration of the coefficient of rolling friction was performed through computational simulations using the discrete element method. The accuracy of the model under different configurations was checked.
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    Effect of bevelled silo outlet in the flow rate during discharge
    (2023-07-29) Gago, Paula; Madrid, Marcos A.; Boettcher, Stefan; Blumenfeld, Raphael; King, Peter
    We investigate the effect of a bevelled (or slanted) outlet on the discharge rate of mono-sized spheres from a quasi-two-dimensional silo, using the discrete element method. In contrast to hopper discharges, where the bevelling is across the entire base of the container, we study a bevelled opening that is significantly smaller than the silo width and in which the slanting is limited to half a sphere diameter at the boundary of the outlet. We show that the bevelling increases the flow rate comparably to the inclination in hopper walls. Using Beverloo’s model, we relate this increase in rate to what we define as the ‘effective opening’ of the silo and analyse the velocity profiles associated with the discharges. We show that different openings, having effectively the same discharge rates, give rise to distinctly different internal dynamics in the silo. These results have the potential to aid industrial processes by fine-tuning and improving control of silo discharges, with a minimal impact on silo design, thus significantly reducing production and handling costs.
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    Differential equation for the flow rate of discharging silos based on energy balance
    (2020-05) Darias, José Ramón; Madrid, Marcos A.; Pugnaloni, Luis
    Since the early work of Hagen in 1852 and Beverloo et al. in 1961, the flow rate of granular material discharging through a circular orifice from a silo has been described by means of dimensional analysis and experimental fits, and explained through the “free fall arch” model. Here, in contrast with the traditional approach, we derive a differential equation based on the energy balance of the system. This equation is consistent with the well known Beverloo rule thanks to a compensation of energy terms. Moreover, this new equation can be used to explore new conditions for silo discharges. In particular, we show how the effect of friction on the flow rate can be predicted. The theory is validated using discrete element method simulations.
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    Stability and conductivity of proppant packs during flowback in unconventional reservoirs: a CFD–DEM simulation study
    (Elsevier B.V., 2021) Vega, Federico G.; Carlevaro, Manuel; Sánchez, Martín; Pugnaloni, Luis
    We present simulations using a coupled Computational Fluid Dynamics–Discrete Element Method (CFD–DEM) approach for a slurry of millimeter-sized particles in water which is squeezed between two walls and then made flow out though a narrow aperture. The process is akin to the flowback stage in the near wellbore zone of a hydraulic-stimulated well for hydrocarbon recovery. We consider different wall roughness and investigate its effect on particle production, final distance between walls, spatial particle distribution between the walls, and fluid production rate. We have found that the final distribution of particles changes significantly with small variations in the roughnesses of the walls. This in turn leads to production flow rates that may vary up to 50%. Although the main driver of the production for unconventional wells is the propped fracture network, these results suggest that the roughness of the fracture walls seems to play an important role in the final conductivity and therefore in the ultimate recovery.
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    Universal features of the stick-slip dynamics of an intruder moving through a confined granular medium
    (2022-04-21) Pugnaloni, Luis; Carlevaro, Manuel; Kozlowski, Ryan; Zheng, Hu; Kondic, Lou; Socolar, Joshua E. S.
    Experiments and simulations of an intruder dragged by a spring through a two-dimensional annulus of granular material exhibit robust force fluctuations. At low packing fractions (φ < φ0), the intruder clears an open channel. Above φ0, stick-slip dynamics develop, with an average energy release that is independent of the particle-particle and particle-base friction coefficients but does depend on the width W of the annulus and the diameter D of the intruder. A simple model predicts the dependence of φ0 on W and D, allowing for a data collapse for the average energy release as a function of φ/φ0. These results pose challenges for theories of mechanical failure in amorphous materials.
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    Self-assembly of self-propelled magnetic grains
    (2021) Madrid, Marcos A.; Irastorza, Ramiro; Meyra, Ariel G.; Carlevaro, Manuel
    In this work, we study bidisperse mixtures of self-propelled magnetic particles of di erent shapes via discrete element method simulations. We show how these particles self-assemble into clusters and how these clusters depend on the ratio of the mixture, the magnetic interaction, and the shape of the grains. It is found that the mix ratio of the system controls the cluster size. Besides, the intensity of the magnetic dipoles and the shape of the grains in the mixture rule the average number of neighbors in contact and the shape of the clusters. By varying the intensity of the interactions, globular, linear and branched clusters were obtained.
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    On the use of magnetic particles to enhance the flow of vibrated grains through narrow apertures
    (2021-06-28) Carlevaro, Manuel; Kuperman, Marcelo N.; Bouzat, Sebastián; Pugnaloni, Luis; Madrid, Marcos A.
    The ow of grains through narrow apertures posses an extraordinary challenge: clogging. Strategies to alleviate the effect of clogging, such as the use of external vibration, are always part of the design of machinery for the handling of bulk materials. It has recently been shown that one way to reduce clogging is to use a small fraction of small particles as an additive. Besides, several works reported that self-repelling magnetic grains can ow through narrow apertures with little clogging, which suggest these are excellent candidates as \lubricating" additives for other granular materials. In this work, we study the effect of adding self-repelling magnetic particles to a sample of grains in two-dimensions. We find that, in contrast with intuition, the added magnetic grains not necessarily aid the ow of the original species.
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    Intruder in a two-dimensional granular system: effects of dynamic and static basal friction on stick-slip and clogging dynamics
    (2019-10-15) Carlevaro, Manuel; Kozlowski, Ryan; Pugnaloni, Luis; Zheng, Hu; Socolar, Joshua E. S.; Kondic, Lou
    We discuss the results of simulations of an intruder pulled through a two-dimensional granular system by a spring, using a model designed to lend insight into the experimental findings described by Kozlowski et al. [Phys. Rev. E 100, 032905 (2019)]. In that previous study the presence of basal friction between the grains and the base was observed to change the intruder dynamics from clogging to stick–slip. Here we first show that our simulation results are in excellent agreement with the experimental data for a variety of experimentally accessible friction coefficients governing interactions of particles with each other and with boundaries. Then, we use simulations to explore a broader range of parameter space, focusing on the friction between the particles and the base. We consider a range of both static and dynamic basal friction coefficients, which are difficult to vary smoothly in experiments. The simulations show that dynamic friction strongly affects the stick–slip behaviour when the coefficient is decreased below 0.1, while static friction plays only a marginal role in the intruder dynamics.