Flowing Liquid-Based Triboelectric Nanogenerator Performance Enhancement with Functionalized Polyvinylidene Fluoride Membrane for Self-Powered Pulsating Flow Sensing Application.

Pulsating flow, a common term in industrial and medical contexts, necessitates precise water flow measurement for evaluating hydrodynamic system performance. Addressing challenges in measurement technologies, particularly for pulsating flow, we propose a flowing liquid-based triboelectric nanogenerator (FL-TENG). To generate sufficient energy for a self-powered device, we employed a fluorinated functionalized technique on a polyvinylidene fluoride (PVDF) membrane to enhance the performance of FL-TENG. The results attained a maximum instantaneous power density of 50.6 µW/cm2, and the energy output proved adequate to illuminate 10 white LEDs. Regression analysis depicting the dependence of the output electrical signals on water flow revealed a strong linear relationship between the voltage and flow rate with high sensitivity. A high correlation coefficient R2 within the range from 0.951 to 0.998 indicates precise measurement accuracy for the proposed FL-TENG. Furthermore, the measured time interval between two voltage peaks precisely corresponds to the period of pulsating flow, demonstrating that the output voltage can effectively sense pulsating flow based on voltage and the time interval between two voltage peaks. This work highlights the utility of FL-TENG as a self-powered pulsating flow rate sensor.

CFD analysis of heat transfer enhancement by wall mounted flexible flow modulators in a channel with pulsatile flow.

The aim of the present study is to explore heat transfer and pressure drop characteristics in a pulsating channel flow due to wall-mounted flexible flow modulators (FFM). Cold air in pulsating fashion is forced to enter through the channel having isothermally heated top and bottom walls with one/multiple FFMs mounted on them. The dynamic conditions of pulsating inflow are characterized by Reynolds number, non-dimensional pulsation frequency and amplitude. Applying the Galerkin finite element method in an Arbitrary Lagrangian-Eulerian (ALE) framework, the present unsteady problem has been solved. Flexibility (10-4 ≤ Ca ≤ 10-7), orientation angle (60° ≤ Î¸ ≤ 120°), and location of FFM(s) have been considered in this study to find out the best-case scenario for heat transfer enhancement. The system characteristics have been analyzed by vorticity contours and isotherms. Heat transfer performance has been evaluated in terms of Nusselt number variations and pressure drop across the channel. Besides, power spectrum analysis of thermal field oscillation along with that of the FFM's motion induced by pulsating inflow has been performed. The present study reveals that single FFM having flexibility of Ca = 10-5 and an orientation angle of θ = 90° offers the best-case scenario for heat transfer enhancement.

The Resulting Effect of Flow Pulsations on Calibration Constant of Acoustic Path in Ultrasonic Flowmeters.

The present paper compares, for the first time, the regimes of a pulsating turbulent flow in a smooth pipe in terms of 0.001 ≤ ω+ ≤ 0.0346 and 0.16 ≤ ß ≤ 0.63 at Re ≈ 7000 with the uncertainty in estimating the flow rate by an ultrasonic flowmeter. It was revealed that the classification of pulsating flow regimes according to the dimensionless angular frequency ω+ does not have a direct relation with the K parameter equal to the ratio of the phase-average calibration constant in pulsating flow to the corresponding value in steady flow. The results of data processing showed that K depends on the relative amplitude of pulsations ß and the position of the chord of the ultrasonic beam trajectory (L/R is distance L from the pipe center to the chord to the pipe radius R). In the coordinates ß and L/R, there is a rather wide area where the uncertainty in flow rate estimation of pulsating flows should not exceed 0.5%. An increase in ß or L/R leads to an increase in measurement uncertainty, which in the limiting case ß, L/R → 1 can reach 5% or more. Favorable and unfavorable areas of the pipe section were identified when scanning pulsating flows and the effectiveness of using multi-path scanning schemes was estimated to reduce the resulting effect of flow pulsations on flow measurement uncertainty.

New Facility for Membrane Fouling Investigations under Customizable Hydrodynamics: Validation and Preliminary Experiments with Pulsating Cross-Flow.

Flux reduction induced by fouling is arguably the most adverse phenomenon in membrane-based separation systems. In this respect, many laboratory-scale filtration studies have shown that an appropriate use of hydrodynamic perturbations can improve both performance and durability of the membrane; however, to fully understand and hence appropriately exploit such effects, it is necessary to understand the underpinning flow processes. Towards this end, in this work we propose and validate a new module-scale laboratory facility with the aim of investigating, at very well-controlled flow conditions, how hydrodynamics affects mass transport phenomena at the feed/membrane interface. The proposed facility was designed to obtain a fully developed and uniform flow inside the test section and to impose both steady and pulsating flow conditions. The walls of the facility were made transparent to grant optical accessibility to the flow. In this paper, we discuss data coming from particle image velocimetry (PIV) measurements and preliminary ultrafiltration tests both under steady and pulsating flow conditions. PIV data indicate that the proposed facility allows for excellent flow control from a purely hydrodynamic standpoint. Results from filtration tests provide promising results pointing towards pulsating flows as a viable technique to reduce fouling in membrane systems.

The Effect of Flow-Induced Vibration on Heat and Mass Transfer Performance of Hollow Fiber Membranes in the Humidification/Dehumidification Process.

Cross-flow hollow fiber membranes are commonly applied in humidification/dehumidification. Hollow fiber membranes vibrate and deform under the impinging force of incoming air and the gravity of liquid in the inner tube. In this study, fiber deformation was caused by the pulsating flow of air. With varied pulsating amplitudes and frequencies, single-fiber deformation was investigated numerically using the fluid-structure interaction technique and verified with experimental data testing with a laser vibrometer. Then, the effect of pulsating amplitude and frequency on heat and mass transfer performance of the hollow fiber membrane was analyzed. The maximum fiber deformation along the airflow direction was far larger than that perpendicular to the flow direction. Compared with the case where the fiber did not vibrate, increasing the pulsation amplitude could strengthen Nu by 14-87%. Flow-induced fiber vibration could raise the heat transfer enhancement index from 13.8% to 80%. The pulsating frequency could also enhance the heat transfer of hollow fiber membranes due to the continuously weakened thermal boundary layer. With the increase in pulsating amplitude or frequency, the Sh number or Em under vibrating conditions can reach about twice its value under non-vibrating conditions.

Data on distribution of heat transfer coefficient and profiles of velocity and turbulent characteristics behind a rib in pulsating flows.

The paper presents experimental data on heat transfer and kinematic structure of steady and pulsating flows behind a rib. Several forcing frequencies and one non-dimensional amplitude of pulsation are considered. Distributions of heat transfer coefficient were obtained in the separation region. Optical measurements yielded the profiles of velocity and turbulent characteristics of flow at representative coordinates of the separation region..

Avaliação da influência de alterações cardíacas na ultrassonografia vascular periférica de idosos / Assessment of cardiac influence on peripheral vascular Doppler in the elderly

Resumo Contexto As cardiopatias podem causar alterações no formato das ondas da ultrassonografia vascular (UV) em vasos periféricos. Essas alterações, tipicamente bilaterais e sistêmicas, são pouco conhecidas e estudadas. Objetivo Avaliar as ondas periféricas da UV de pacientes idosos para identificar alterações decorrentes de cardiopatias. Métodos Foram estudados 183 pacientes idosos submetidos a UV periférica no ano de 2014. Resultados Foram avaliados 102 mulheres (55,7%) e 81 homens (44,3%) com idade entre 60 e 91 anos (média de 70,4±7,2 anos). Encontraram-se alterações pela UV em 84 pacientes (45,9%). Foram identificadas 138 alterações de oito dos 13 tipos descritos na literatura: arritmia, onda bisferiens de pico sistólico, baixa velocidade de pico sistólico, pulsatilidade em veias femorais, bradicardia, taquicardia, onda de pulso parvus tardus e onda de pulso alternans. Houve baixa concordância entre a presença e a não presença de alterações na UV e na avaliação cardiológica. Na análise específica das alterações, os exames tiveram uma concordância variável, que foi boa para o achado de taquicardia, moderada para arritmia e baixa para bradicardia. Não houve concordância entre a UV e os exames cardiológicos para as demais alterações. Conclusões É possível identificar determinadas alterações cardíacas em idosos por meio da análise do formato das ondas periféricas da UV. É importante reconhecer e relatar a presença dessas alterações, pela possibilidade de alertar para um diagnóstico ainda não identificado nesses pacientes. Entretanto, mais estudos são necessários para que seja definida a importância das alterações no formato das ondas Doppler periféricas no reconhecimento de cardiopatias.

Abstract Background Heart diseases can cause changes to vascular ultrasonography (VUS) waveforms in peripheral vessels. These changes are typically bilateral and systemic, they have been little studied, and little is known about them. Objective To assess peripheral VUS waveforms in elderly patients in order to identify changes caused by heart diseases. Methods During 2014, a total of 183 elderly patients were examined with peripheral VUS and the results were analyzed. Results The sample comprised 102 women (55.7%) and 81 men (44.3%) with ages ranging from 60 to 91 years (mean of 70.4±7.2 years). Abnormalities were identified in VUS waveforms in 84 patients (45.9%). A total of 138 abnormalities were identified and classified into eight of the 13 categories described in the literature, as follows: arrhythmia, systolic pulsus bisferiens, low peak systolic velocity, pulsatile flow in femoral veins, bradycardia, tachycardia, pulsus tardus et parvus and pulsus alternans. There was low agreement between presence/absence of VUS abnormalities and cardiological assessments. Analysis of specific abnormalities revealed variable levels of agreement between VUS and cardiological assessments, ranging from good for tachycardia, moderate for arrhythmia, to low for bradycardia. There was no agreement between VUS and cardiological examinations for the remaining categories of abnormalities. Conclusions Certain cardiac abnormalities can be identified in elderly patients by analysis of peripheral VUS waveforms. It is important to recognize and report the presence of these abnormalities because there is a possibility that they may serve to signal hitherto unidentified diagnoses in these patients. However, further studies are needed to determine the importance of changes to peripheral Doppler waveforms to recognition of heart diseases.

La velocidad de la onda del pulso como método para evaluar la función endotelial / Evaluation of Endothelial Function through Pulse Wave Velocity

Introducción La disfunción endotelial está presente precozmente en la aterosclerosis y constituye la base fisiopatológica de ella y de la enfermedad cardiovascular (CV). La función endotelial puede estudiarse por ultrasonografía, que permite observar la vasodilatación mediada por flujo (VMF). También puede evaluarse por el cambio en la velocidad de la onda del pulso (VOP), que de acuerdo con la ecuación de Moens-Korteweg concuerda con los resultados obtenidos por otros métodos. Objetivos Investigar la función endotelial a través de las variaciones de la velocidad de la onda del pulso (VOP) carótido-radial preinducción y posinducción de isquemia braquial. Material y métodos La VOP carótido-radial se determinó en 248 pacientes hipertensos (160 mujeres, 63,6 ± 12,3 años y 88 hombres, 63,1 ± 11,6 años) y en 56 normotensos (38 mujeres, 63,1 ± 12,6 años y 18 hombres, 56,1 ± 13,7 años). Se consideró respuesta endotelial normal la reducción de la VOP > 5%. En pacientes con respuesta anormal se realizó la medición luego de la administración de 5 mg de dinitrato de isosorbide sublingual con el objeto de registrar la vasodilatación no dependiente del endotelio como forma de validación del método. Resultados La VOP se redujo el 9,3% en promedio en el grupo de sujetos sanos, mientras que en los pacientes esta reducción fue de sólo el 1,5% (p < 0,0005). La reducción de la VOP con dinitrato de isosorbide sublingual fue aún mayor que la de los individuos normales (18,2%) (p < 0,0001). Conclusiones La medición de la VOP carótido-radial preinducción y posinducción de isquemia discriminó el comportamiento endotelial entre personas normotensas e hipertensas. Este hallazgo consolida su utilidad para la medición de la función endotelial.

Background Endothelial dysfunction occurs early in the development of atherosclerosis and constitutes the physiopathologic basis of this condition and of cardiovascular disease (CVD). Ultrasound is useful to study endothelial function through the assessment of flow-mediated dilation (FMD). Endothelial function may also be evaluated by the change in pulse wave velocity (PWV) with results that are similar to those obtained by other methods according to the Moens-Korteweg equation. Objectives To evaluate endothelial function through the changes in the carotid-radial PWV before and after inducing ischemia at the level of the brachial artery. Material and Methods Carotid-radial PWV was determined in 24 hypertensive patients (160 women, 63.6±12.3 years and 88 men, 63.1±11.6 years) and in 56 controls (38 women, 63.1±12.6 years and 18 men, 56.1±13.7 years). A reduction in PWV <5% was considered a normal endothelial response. Patients with abnormal response received 5 mg of sublingual isosorbide dinitrate to evaluate endothelium-independent vasodilation for validation of the method. Results An average reduction by 9.3% was recorded in healthy subjects compared to a reduction by 1.5% in hypertensive patients (p<0.0005). The reduction in PWV after the administration of sublingual isosorbide dinitrate was even greater compared to normal subjects (18.2%) (p<0.0001). Conclusions The measurement of carotid-radial PWV before and after inducing ischemia is a reliable method to evaluate endothelial function.