Diego Hincapie scite author profile

A single-shot method to reduce the speckle noise in the numerical reconstructions of electronically recorded holograms is presented. A recorded hologram with the dimensions N×M is split into S=T×T sub-holograms. The uncorrelated superposition of the individually reconstructed sub-holograms leads to an image with the speckle noise reduced proportionally to the 1/S law. The experimental results are presented to support the proposed methodology.

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Turbinas hidrocinéticas de eje horizontal: una revisión de la literatura

Cardona-Mancilla

Río

Chica

et al. 2018

Tecnol. cienc. agua

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Las turbinas hidrocinéticas permiten la generación de energía eléctrica a partir de una fuente renovable, utilizando la energía de las corrientes de agua, generalmente de ríos, mares y canales elaborados por el hombre, entre otros. Constituyen una tecnología que contribuye a la conservación del medio ambiente, al no requerir la construcción de represas, dado que su funcionamiento no está limitado a alturas o caídas de agua, siendo una de las principales características diferenciadoras con relación a las centrales hidroeléctricas convencionales. En este artículo se realiza una revisión sobre turbinas hidrocinéticas de eje horizontal, teniendo en cuenta una serie de aspectos de diseño, simulación computacional, materiales empleados en la fabricación y algunas mejoras implementadas para incrementar la eficiencia de este tipo de tecnología, como el uso de

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Enhancement efficiency of Michell-Banki turbine using NACA 6512 modified blade profile via CFD

Galvis-Holguin¹,

Rio

Hincapie³

2022

Eureka: PE

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The small hydroelectric power plants (SHPP) are implemented in non-interconnected zones (NIZ) of developing countries. In which, the provision of electrical energy from the national interconnected system is not economically feasible. Therefore, in the literature, hydroelectric generation technologies have been implemented taking advantage of the energy available in the rivers. One of these technologies is the Michell-Banki type cross-flow turbines (MBT), which, despite having lower efficiencies than turbines such as Pelton and Francis, maintain their efficiency although fluctuations in site conditions. For this reason, different studies have been made to increase the efficiency of the MBT by making geometric modifications to both the nozzle and the rotor. The purpose of this study is to determine numerically the effect of the geometry of the blades that form the runner on the efficiency of Michell-Banki Turbine (MBT). For this, two (2) geometries were studied corresponding to a circular sector of a standard tubular profile and an airfoil NACA 6512 modified in curvature profile and chord length, according to the profile of the standard tubular blade. For this study, transient simulations for multiphase water-air flow were implemented using a k-ε turbulence model in the Ansys 2020R1® CFX software. The two (2) turbine models were configured to the same hydraulic conditions of head and volumetric flow corresponding to 0.5 m and 16.27 L/s, respectively. Variations in rotational speed were configured between 100 and 200 RPM with 20 RPM steps. It was found that using the modified 6512 hydrodynamic profile, at 140 RPM increased efficiency by 6 %, compared to the conventional tubular type blade geometry

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Physical compensation of phase curvature in digital holographic microscopy by use of programmable liquid lens

et al. 2015

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Quantitative phase measurements obtained with digital holographic microscopes are strongly dependent on the optical arrangement of the imaging system. The nontelecentric operation provides phase measurements affected by a parabolic phase factor and requires numerical postprocessing, which does not always remove all the perturbation. Accurate phase measurements are achieved by using the imaging system in telecentric mode. Unfortunately, this condition is not accomplished when a commercial microscope is used as the imaging system. In this paper, we present an approach for obtaining accurate phase measurements in nontelecentric imaging systems without the need for numerical postprocessing. The method uses an electrically tunable liquid lens to illuminate the sample so that the perturbing parabolic wavefront is cancelled out. Experimental holograms of a Fresnel lens and a section of the thorax of a Drosophila melanogaster fly are captured to verify the proposed method.

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Diego Hincapie

Speckle noise reduction in digital holography by slightly rotating the object

Single-shot speckle reduction in numerical reconstruction of digitally recorded holograms

Turbinas hidrocinéticas de eje horizontal: una revisión de la literatura

Enhancement efficiency of Michell-Banki turbine using NACA 6512 modified blade profile via CFD

Physical compensation of phase curvature in digital holographic microscopy by use of programmable liquid lens

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