Effect of abutment length on the bed shear stress and the horseshoe vortex system

River engineeringNumerical modelling in river engineerin

Time Evolution of the Horseshoe Vortex System Forming Around a Bridge Abutment

Scour forming around an isolated bridge abutment with curved end is investigated in this study. Clear water scour experiments are conducted for an abutment in a 25 m long sediment flume at a Reynolds number of 45000. 3D scour patterns forming around the abutments are obtained using an array of acoustic transducers along a grid refined up to 1-2 cm spacing at different stages of the scour. Detached Eddy Simulation (DES) is performed at the same channel Reynolds number for flat bed case (initiation of the scour) and for two deformed bed cases (intermediate stages of scour). Incoming flow in the simulations were fully turbulent containing unsteady velocity fluctuations. Variations in the structure and intensity of the horseshoe vortex system are investigated. At the initial stage of the scour the main and secondary horseshoe vortices undergo aperiodic bimodal oscillations. Those oscillations cause the horseshoe vortices to induce large bed shear stress values beneath them. As the scour hole starts forming secondary necklace vortex, HV2, gets closer to the primary necklace vortex, HV1, and merges with it at a location close to the abutment tip. © 2010 American Society of Civil Engineers

Superheated water extraction of essential oils of Origanum micranthum

Superheated water extraction is used to extract essential oil of leaves of Origanum micranthum. The effect of different temperatures on the essential oil profile and rate of extraction as a function of time is investigated. The components of essential oil of Origanum micranthum are removed from the aqueous extract by C18 solid-phase extraction. The identification of components is carried out using comprehensive gas chromatography-time of flight-mass spectrometry. The number of extracted components is almost the same; however, the concentrations change with changing temperature. The highest yield (0.64%) is found at a temperature of 150°C, 2 mL/min and 60 bar for 30 min. The increasing temperature from 100°C to 175°C increased the rate of extraction of six selected components of essential oil of Origanum micranthum. cis-Sabinenehydrate exhibits the fastest rate of extraction at all temperatures studied. Some degradation products are observed at a temperature of 175°C

Comparación entre los efectos de la dexmedetomidina, el fentanilo y el esmolol en la prevención de la respuesta hemodinámica a la intubación

ResumenJustificación y objetivosLa laringoscopia y la intubación pueden causar una respuesta hemodinámica. Varios medicamentos pueden ser usados para controlar esa respuesta. En este estudio, nuestro objetivo fue comparar los efectos de la dexmedetomidina, el fentanilo y el esmolol sobre la respuesta hemodinámica.MétodosNoventa pacientes programados para cirugías electivas con intubación endotraqueal, estado físico ASA I-II, y edades entre 21 y 65 años, se incluyeron en el estudio prospectivo, aleatorizado y doble ciego. Las presiones arteriales medias, sistólicas, diastólicas y las frecuencias cardíacas se midieron cuando los pacientes llegaron al quirófano y se registraron como valores basales. Los pacientes fueron aleatorizados en 3 grupos: el grupo i (n=30) recibió 1μg/kg de dexmedetomidina con infusión en 10min; el grupo ii (n=30) recibió 2μg/kg de fentanilo; el grupo iii recibió 2mg/kg de esmolol 2min antes de la inducción. Los pacientes fueron intubados en 3min. Las presiones medias, sistólicas y diastólicas y las frecuencias cardíacas fueron medidas antes de la inducción, antes de la intubación y durante los minutos 1, 3, 5 y 10 después de la intubación.ResultadosCuando los niveles basales fueron comparados entre los grupos, verificamos que en los minutos 5 y 10 la postintubación, las frecuencias cardíacas en el grupo i y las presiones arteriales medias, sistólicas y diastólicas en el grupo iii eran más bajas que en otros tiempos medidos (p<0,05).ConclusionesLa dexmedetomidina fue superior en la prevención de la taquicardia. El esmolol previno el aumento de las presiones arteriales medias, sistólicas y diastólicas después de la intubación. Concluimos que son necesarios algunos estudios adicionales para descubrir una estrategia que prevenga tanto el aumento de la presión arterial sistémica como la frecuencia cardíaca.AbstractBackground and objectivesLaryngoscopy and intubation can cause hemodynamic response. Various medications may be employed to control that response. In this study, we aimed to compare the effects of dexmedetomidine, fentanyl and esmolol on hemodynamic response.MethodsNinety elective surgery patients who needed endotracheal intubation who were in American Society of Anesthesiology I–II group and ages between 21 and 65 years were included in that prospective, randomized, double-blind study. Systolic, diastolic, mean arterial pressures, heart rates at the time of admittance at operation room were recorded as basal measurements. The patients were randomized into three groups: Group I (n = 30) received 1 μg/kg dexmedetomidine with infusion in 10 min, Group II (n = 30) received 2 μg/kg fentanyl, Group III received 2 mg/kg esmolol 2 min before induction. The patients were intubated in 3 min. Systolic, diastolic, mean arterial pressures and heart rates were measured before induction, before intubation and 1, 3, 5, 10 min after intubation.ResultsWhen basal levels were compared with the measurements of the groups, it was found that 5 and 10 min after intubation heart rate in Group I and systolic, diastolic, mean arterial pressures in Group III were lower than other measurements (p < 0.05).ConclusionsDexmedetomidine was superior in the prevention of tachycardia. Esmolol prevented sytolic, diastolic, mean arterial pressure increases following intubation. We concluded that further studies are needed in order to find a strategy that prevents the increase in systemic blood pressure and heart rate both

Reservoir sedimentation in the Demirköprü Dam, Turkey

River morphodynamics and sediment transportSedimentation in reservoir

Pre-treatment and extraction techniques for recovery of added value compounds from wastes throughout the agri-food chain

The enormous quantity of food wastes discarded annually force to look for alternatives for this interesting feedstock. Thus, food bio-waste valorisation is one of the imperatives of the nowadays society. This review is the most comprehensive overview of currently existing technologies and processes in this field. It tackles classical and innovative physical, physico-chemical and chemical methods of food waste pre-treatment and extraction for recovery of added value compounds and detection by modern technologies and are an outcome of the COST Action EUBIS, TD1203 Food Waste Valorisation for Sustainable Chemicals, Materials and Fuels

Local scour evolution around semi-circular end bridge abutment in quasi-unsteady condition

© 2021 ICE Publishing: All rights reserved.In this experimental study, the temporal development of local scour is studied around semi-circular end bridge abutments under quasi-unsteady clear-water flow conditions in a rectangular sediment channel. A step-wise hydrograph of 6 h duration is used in the experiments. Six different abutment lengths having constant width, with uniform sand as bed material, were tested for three different successive flows - each applied continuously for 2 h. Bathymetry of the bed level was measured around the abutment every 15 min with the help of a measurement device to observe temporal development of the local scour around the semi-circular end abutment. Effects of the abutment length, flow intensity and time on the scour depths around semi-circular end bridge abutments, along with those at the front, upstream and downstream faces of the abutment, are also investigated and discussed. It is shown that the maximum scour depth always occurs at the front noses of the abutments compared with those at the upstream and downstream noses. A dimensionless empirical formula is derived to predict the scour depth at the front nose of the abutment as a function of related parameters. The results reveal that flow intensity is the most critical parameter in scour development

Estimation of Critical Submergence at Single Horizontal Intakes Under Asymmetric Flow Conditions

Air-entraining vortices are one of the serious hydraulic phenomena which can create various problems during the operation of intakes. Generally, air-entraining vortices start to form when the intake submergence is insufficient and less than a critical value. The purpose of the present study is to investigate the formation of air-entraining vortices and determine the critical submergences at single horizontal intake under asymmetrical approach flow conditions by conducting experiments with four different pipe diameters. In the experiments, various sidewall clearances with a series of discharges were tested for a given pipe diameter to examine the effect of dimensionless flow and geometric parameters on the critical submergence. Based on dimensional analysis, empirical equations were derived to predict critical submergence by performing regression analyses of relevant dimensionless parameters. Scale effect analysis was also carried out to investigate the effect of neglected flow parameters on the critical submergence in the application of model similitude law. A formula that makes it possible to transform model results into prototype results in the range of tested parameters was derived and compared with similar studies mostly based on existing installations. Eventually, it was pointed out that the result of the model study underestimates critical submergence compared to others due to the scale effects. Moreover, it was determined that critical submergences at intakes having asymmetrical approach flow conditions are higher than those of symmetrical approach flows