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Journal articles on the topic 'Congresses. Fluid dynamic measurements'

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Published: 4 June 2021
Last updated: 4 February 2022

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1

Roodhart, L. P. "Fracturing Fluids: Fluid-Loss Measurements Under Dynamic Conditions." Society of Petroleum Engineers Journal 25, no. 05 (October 1, 1985): 629–36. http://dx.doi.org/10.2118/11900-pa.

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Abstract When filter-cake-building additives are used in fracturing fluids, the commonly applied static, 30-minute API filtration test is unsatisfactory, because in a dynamic situation (like fracturing) the formation of a thick filter cake will be inhibited by the shearing forces of the fracturing fluid. A dynamic, filter-cake-controlled, leakoff coefficient that is dependent on the shear rate and shear stress at the fracture face is, therefore, introduced. A test apparatus has been constructed in which the fluid leakoff is measured under conditions of temperature, rate of shear, duration of shear, and fluid-flow pattern as encountered under fracturing conditions. The effects of rock permeability, shear rate, and differential pressure on the permeability, shear rate, and differential pressure on the dynamic leakoff coefficient are presented for various, commonly used fracturing-fluid/fluid-loss-additive combinations. Introduction An important parameter in hydraulic fracturing design is the rate at which the fracturing fluid leaks into the formation. This parameter, known as fluid loss, not only determines the development of fracture length and width, but also governs the time required for a fracture to heal after the stimulation treatment has been terminated. The standard leakoff test is a static test, in which the effect of shear rate in the fracture on the viscosity of the fracturing fluid and on the filter-cake buildup is ignored. Dynamic vs. Static Tests The three stages in filter-cake buildup arespurt loss during initiation of the filter cake,buildup of filtercake thickness, during which time leakoff is proportional to the square root of time, andlimitation of filter-cake growth by erosion. In the standard API leakoff test, 1 the fracturing fluid, with or without leakoff additives, is forced through a disk of core material under a pressure differential of 1000 psi [7 MPa), and the flow rate of the filtrate is determined. In such a static test, the third stage-erosion of the filter cake-is absent. In a dynamic situation there is an equilibrium whereby flow along the filter cake limits the filter-cake thickness, and the leakoff rate becomes constant. The duration of each of these stages depends on the type of fluid, the type of additive, the rock permeability, and the test conditions. The differences between dynamic and static filtration tests are shown in Fig. 1, where the cumulative filtrate volume (measured in some experiments with the dynamic fluid-loss apparatus described below) is expressed as a function of time (Fig. la) and as a function of the square root of time (Fig. ]b), The shear rate at the surface of the disk is either static (O s -1 ), or 109 s -1 or 611 s -1. The curves indicate that the dynamic filtration velocities are higher than those measured in a static test and increase rapidly with increasing shear rate. This is in agreement with the observations made by Hall, who used an axially transfixed cylindrical core sample along which fracturing fluid was pumped, while the filtrate was collected from a bore through the center. Fig. la shows how the lines were drawn to fit the data: Vc = Vsp + A t + Bt, .........................(1) where Vc = cumulative volume per unit area, t = filtration time, Vsp= spurt loss, A = static leakoff component, andB = dynamic leakoff component. In static leakoff theory, B =0 and then A =2Cw, twice the static leakoff coefficient.-3 Each of the terms in Eq. 1 represents one of the stages in the leakoff process-spurt loss, buildup of filter cake, and erosion of filter cake. Analysis of the experimental data shows that the spurt loss, Vsp, and the static leakoff component, A, are independent of the shear rate, but the dynamic component, B, varies strongly with the shear rate (see Table 1). This means that, the higher the shear rate, the more the leakoff process is controlled by the third stage. process is controlled by the third stage. One model commonly used is based solely on square-root-of-time behavior with a constant spurt loss. Fig. 1 shows that little accuracy is lost by describing the leakoff with a single square-root-of-time equation: Vc = VsP + m t,...........................(2) where the dynamic leakoff coefficient. Cw = 1/2m, depends heavily on shear. and the spurt loss remains the same as in Eq. 1 and independent of the shear rate Table 2 shows that the error in C, that arises as a result of measuring under static conditions can be more than 100%. SPEJ P. 629
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2

Egger, H., T. Seitz, and C. Tropea. "Enhancement of flow measurements using fluid-dynamic constraints." Journal of Computational Physics 344 (September 2017): 558–74. http://dx.doi.org/10.1016/j.jcp.2017.04.080.

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3

Jaremkiewicz, Magdalena. "Reduction of dynamic error in measurements of transient fluid temperature." Archives of Thermodynamics 32, no. 4 (December 1, 2011): 55–66. http://dx.doi.org/10.2478/v10173-011-0031-3.

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Reduction of dynamic error in measurements of transient fluid temperatureUnder steady-state conditions when fluid temperature is constant, temperature measurement can be accomplished with high degree of accuracy owing to the absence of damping and time lag. However, when fluid temperature varies rapidly, for example, during start-up, appreciable differences occur between the actual and measured fluid temperature. These differences occur because it takes time for heat to transfer through the heavy thermometer pocket to the thermocouple. In this paper, a method for determinig transient fluid temperature based on the first-order thermometer model is presented. Fluid temperature is determined using a thermometer, which is suddenly immersed into boiling water. Next, the time constant is defined as a function of fluid velocity for four sheated thermocouples with different diameters. To demonstrate the applicability of the presented method to actual data where air velocity varies, the temperature of air is estimated based on measurements carried out by three thermocouples with different outer diameters. Lastly, the time constant is presented as a function of fluid velocity and outer diameter of thermocouple.
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4

Guibert, Clément, Jérôme Fresnais, Véronique Peyre, and Vincent Dupuis. "Magnetic fluid hyperthermia probed by both calorimetric and dynamic hysteresis measurements." Journal of Magnetism and Magnetic Materials 421 (January 2017): 384–92. http://dx.doi.org/10.1016/j.jmmm.2016.08.015.

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5

Dugyala, Venkateshwar Rao, Jyothi Sri Muthukuru, Ethayaraja Mani, and Madivala G. Basavaraj. "Role of electrostatic interactions in the adsorption kinetics of nanoparticles at fluid–fluid interfaces." Physical Chemistry Chemical Physics 18, no. 7 (2016): 5499–508. http://dx.doi.org/10.1039/c5cp05959c.

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6

Hua, Xiaoqing, Joelle Frechette, and Michael A. Bevan. "Nanoparticle adsorption dynamics at fluid interfaces." Soft Matter 14, no. 19 (2018): 3818–28. http://dx.doi.org/10.1039/c8sm00273h.

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7

Gensterblum, Yves, Amin Ghanizadeh, and Bernhard M. Krooss. "Gas permeability measurements on Australian subbituminous coals: Fluid dynamic and poroelastic aspects." Journal of Natural Gas Science and Engineering 19 (July 2014): 202–14. http://dx.doi.org/10.1016/j.jngse.2014.04.016.

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8

Thurow, Brian, Naibo Jiang, and Walter Lempert. "Review of ultra-high repetition rate laser diagnostics for fluid dynamic measurements." Measurement Science and Technology 24, no. 1 (October 29, 2012): 012002. http://dx.doi.org/10.1088/0957-0233/24/1/012002.

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9

Tosatti, Samuele, Rudolf Aeschlimann, Joseph Kakkassery, and Kathrine Lorenz. "Dynamic coefficient of friction measurements of contact lenses in tear-like fluid." Contact Lens and Anterior Eye 38 (February 2015): e29. http://dx.doi.org/10.1016/j.clae.2014.11.040.

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10

Boonsang, S., and W. Lertkittiwattanakul. "A flash photography method for the measurements of the fluid flow dynamic of a fluid dispensing system." Measurement 102 (May 2017): 57–63. http://dx.doi.org/10.1016/j.measurement.2017.01.050.

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11

Yesilata, Bulent, Alparslan O¨ztekin, Sudhakar Neti, and Jacob Kazakia. "Pressure Measurements in Highly Viscous and Elastic Fluids." Journal of Fluids Engineering 122, no. 3 (May 9, 2000): 626–33. http://dx.doi.org/10.1115/1.1287927.

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Pressure measurements in flows of highly viscous and elastic fluids are of practical importance in polymer processing and rheology systems. Special problems arise during such pressure measurements. High fluid viscosity results in excessive dynamic response time (rise time) of the pressure measuring systems. This is true for systems that consist of manometers as well as pressure transducers attached to the base of a small hole at the wall. We model the dynamic response and examine related disturbing effects. These systematic errors in pressure measurements include hole-pressure effects, instabilities in cavity flow, and the time lag of the disturbance wave. We consider static and dynamic flow systems of a polymer solution (PIB/C14/PB Boger fluid) to study these problems and show that instantaneous pressure measurements in these systems can effectively be performed. [S0098-2202(00)02703-6]
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12

Fuks, V. R. "Dynamic-stochastic analysis of satellite oceanographic measurements." Russian Meteorology and Hydrology 34, no. 8 (August 2009): 528–33. http://dx.doi.org/10.3103/s106837390908007x.

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13

Stocchino, Alessandro, Rodolfo Repetto, and Mario Romano. "Assessment of the fluid dynamic performance of a vitreous cutter." Modeling and Artificial Intelligence in Ophthalmology 2, no. 2 (June 18, 2018): 92–96. http://dx.doi.org/10.35119/maio.v2i2.80.

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Vitreous cutters are surgical devices used during vitrectomy to remove the vitreous humor from the eye and replace it with tamponade fluids. The aim of the present work is to assess the performance of the EVA Phaco-vitrectomy System vitreous cutter (Dutch Ophthalmic Research Center (DORC) BV; Zuidland, The Netherlands) used with diff erent needle sizes and blade shapes. The analysis is based on laboratory measurements of fluid flow performed using the particle image velocimetry (PIV) technique.
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14

Hooper, R. J., W. Liu, P. J. Fryer, W. R. Paterson, D. I. Wilson, and Z. Zhang. "Comparative Studies of Fluid Dynamic Gauging and a Micromanipulation Probe for Strength Measurements." Food and Bioproducts Processing 84, no. 4 (December 2006): 353–58. http://dx.doi.org/10.1205/fbp06038.

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15

Weiss, C., and U. Wieltsch. "Laser Optical Flow Measurements and Computational Fluid Dynamic Calculation of Spray Tower Hydrodynamics." Chemical Engineering Research and Design 83, no. 5 (May 2005): 492–507. http://dx.doi.org/10.1205/cherd.04071.

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16

Vogel, J. C., and J. K. Eaton. "Combined Heat Transfer and Fluid Dynamic Measurements Downstream of a Backward-Facing Step." Journal of Heat Transfer 107, no. 4 (November 1, 1985): 922–29. http://dx.doi.org/10.1115/1.3247522.

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Combined heat transfer and fluid dynamic measurements in a separated and reattaching boundary layer, with emphasis on the near-wall region, are presented. A constant heat-flux surface behind a single-sided sudden expansion is used to obtain Stanton number profiles as a function of Reynolds number and boundary-layer thickness at separation. Fluctuating skin-friction and temperature profiles demonstrate the importance of the near-wall region in controlling the heat transfer rate. The fluctuating skin friction controls the heat transfer rate near reattachment, while the conventional Reynolds analogy applies in the redeveloping boundary layer beginning two or three step heights downstream of reattachment.
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17

Levoni, P., D. Angeli, E. Stalio, E. Agnani, G. S. Barozzi, and M. Cipollone. "Fluid-dynamic characterisation of the Mont Blanc tunnel by multi-point airflow measurements." Tunnelling and Underground Space Technology 48 (April 2015): 110–22. http://dx.doi.org/10.1016/j.tust.2015.03.006.

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18

HOSSEINI-SIANAKI, A., W. A. BULLOUGH, R. FIROOZIAN, J. MAKIN, and R. C. TOZER. "EXPERIMENTAL MEASUREMENTS OF THE DYNAMIC TORQUE RESPONSE OF AN ELECTRORHEOLOGICAL FLUID IN THE SHEAR MODE." International Journal of Modern Physics B 06, no. 15n16 (August 1992): 2667–81. http://dx.doi.org/10.1142/s0217979292001365.

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Experimental measurements of the time response of an electrorheological fluid in a high natural frequency Couette type of rheometer system are reported for both step and variable frequency, DC biased small amplitude sine wave voltage excitation. The effects of both the speed of the rotating element of the rheometer and the magnitude of its voltage relative to the stationary element as well as the fluid temperature level are presented for time, frequency and steady domains. For a given DC voltage level and over the range of tests carried out, the fluid response time improves considerably with both increase in the temperature and speed, whereas the effect on the magnitude of the steady state ER torque value is marginal. Very encouraging results are obtained when the performance of the fluid with regard to the step tests are compared with results of transformed data taken from a larger and more practical clutch system and those acquired from the same fluid but in the flow mode valve arrangement.
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19

Nakashima, Takuji, Hidemi Mutsuda, Taiga Kanehira, and Makoto Tsubokura. "Fluid-Dynamic Force Measurement of Ahmed Model in Steady-State Cornering." Energies 13, no. 24 (December 14, 2020): 6592. http://dx.doi.org/10.3390/en13246592.

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The effects of on-road disturbances on the aerodynamic drag are attracting attention in order to accurately evaluate the fuel efficiency of an automobile on a road. The present study investigated the effects of cornering motion on automobile aerodynamics, especially focusing on the aerodynamic drag. Using a towing tank facility, measurements of the fluid-dynamic force acting on Ahmed models during steady-state cornering were conducted in water. The investigation included Ahmed models with slant angles θ = 25° and 35°, reproducing the wake structures of two different types of automobiles. The drag increase due to steady-state cornering motion was experimentally measured, and showed good agreement with previous numerical research, with the measurements conducted at a Reynolds number of 6 × 105, based on the model length. The Ahmed model with θ = 35° showed a greater drag increase due to the steady-state cornering motion than that with θ = 25°, and it reached 15% of the total drag at a corner with a radius that was 10 times the vehicle length. The results indicated that the effect of the cornering motion on the automobile aerodynamics would be more important, depending on the type of automobile and its wake characteristics.
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20

Lo̸land, Tore, Lars R. Sætran, Robert Olsen, Inge R. Gran, and Reidar Sakariassen. "Fluid Motion in Ultrasonic Flowmeter Cavities." Journal of Fluids Engineering 121, no. 2 (June 1, 1999): 422–26. http://dx.doi.org/10.1115/1.2822225.

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The ultrasonic flow meter is a newcomer among flow meters for measuring large quantities of natural gas. It has notable advantages compared to traditional meters. The ultrasonic flow meter is much more compact and has a wider dynamic range for flow measurements than the orifice plate meter. When manufactured, the ultrasonic sensors are often set back from the pipe wall in a cavity. When the fluid flows past the cavities, a secondary flow of vortices with characteristic size equal to the cavity width is established inside the cavities. The aim of this study has been to investigate the influence of this secondary flow on the accuracy of the ultrasonic flow meter. Both measurements and numerical simulations of the cavity flow have been conducted. It has been found from the present work, that the influence of the flow in the cavities on the measurements increases nonlinearly with the pipe flow rate.
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21

Ohno, Ken Ichi, and Tatsuo Sawada. "Characteristics of Hydrodynamic Pressure of a Magnetic Fluid in a Tuned Magnetic Fluid Damper." Materials Science Forum 670 (December 2010): 181–90. http://dx.doi.org/10.4028/www.scientific.net/msf.670.181.

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A tuned magnetic fluid damper (TMFD) is a semi-active dynamic absorber using a magnetic fluid as a damping mass. A characteristic of the TMFD is to change a natural frequency of a sloshing. When a magnetic field is applied to a container filled with a magnetic fluid from below, the natural sloshing frequency increases and a range of a damping frequency is spread. In this paper, pressure measurements were used to control the appropriate magnetic field.
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22

SAKAUE, Hirotaka. "Motion-Capturing Pressure-Sensitive Paint Method and its Applications to Unsteady Fluid-Dynamic Measurements." Journal of the Visualization Society of Japan 34, no. 132 (2014): 22–27. http://dx.doi.org/10.3154/jvs.34.132_22.

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23

Miller, Douglas C., and Richard W. Sternberg. "Field measurements of the fluid and sediment-dynamic environment of a benthic deposit feeder." Journal of Marine Research 46, no. 4 (November 1, 1988): 771–96. http://dx.doi.org/10.1357/002224088785113450.

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24

Terekhov, V. I., K. A. Sharov, Ya J. Smulsky, and A. Yu Dyachenko. "The influence of tabs on fluid dynamic measurements downstream of a backward-facing step." Journal of Physics: Conference Series 1382 (November 2019): 012047. http://dx.doi.org/10.1088/1742-6596/1382/1/012047.

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25

Pirrung, Georg Raimund, and Helge Aagaard Madsen. "Dynamic inflow effects in measurements and high-fidelity computations." Wind Energy Science 3, no. 2 (August 22, 2018): 545–51. http://dx.doi.org/10.5194/wes-3-545-2018.

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Abstract. A wind turbine experiences an overshoot in loading after, for example, a collective step change in pitch angle. This overshoot occurs because the wind turbine wake does not immediately reach its new equilibrium, an effect usually referred to as dynamic inflow. Vortex cylinder models and actuator disc simulations predict that the time constants of this dynamic inflow effect should decrease significantly towards the blade tip. As part of the NASA Ames Phase VI experiment, pitch steps have been performed on a turbine in controlled conditions in the wind tunnel. The measured aerodynamic forces from these experiments seemed to show much less radial dependency of the dynamic inflow time constants than expected when pitching towards low loading. Moreover the dynamic inflow effect seemed fundamentally different when pitching from low to high loading, and the reason for this behavior remained unclear in previous analyses of the experiment. High-fidelity computational fluid dynamics and free-wake vortex code computations yielded the same behavior as the experiments. In the present work these observations from the experiments and high-fidelity computations are explained based on a simple vortex cylinder wake model.
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26

Gibson, Phillip W., Kenneth Desabrais, and Thomas Godfrey. "Dynamic Permeability of Porous Elastic Fabrics." Journal of Engineered Fibers and Fabrics 7, no. 2_suppl (June 2012): 155892501200702. http://dx.doi.org/10.1177/155892501200702s05.

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This paper describes permeability measurements for porous fabrics as influenced by strain, humidity, air flow rate, and fabric elasticity. The focus is on standard parachute fabrics, where the fabric's porosity and air permeability influence the rate of steady-state descent, and also affect the complicated fluid-structure interactions taking place during parachute opening and deployment. High strength nylon parachute fabrics showed relatively small permeability changes due to strain, humidity, and flow rate. Comparative measurements on elastomeric fabrics showed much larger changes in air flow due to fabric dimensional changes at high pressures and flow rates. Elastomeric fabrics that stretch and change permeability in response to higher pressures and flow rates may be able to reduce the “opening shock” during the parachute deployment phase.
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27

Mazzoni, M. C., P. Borgstrom, K. E. Arfors, and M. Intaglietta. "Dynamic fluid redistribution in hyperosmotic resuscitation of hypovolemic hemorrhage." American Journal of Physiology-Heart and Circulatory Physiology 255, no. 3 (September 1, 1988): H629—H637. http://dx.doi.org/10.1152/ajpheart.1988.255.3.h629.

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A mathematical description of blood volume restoration after hemorrhage with resuscitative fluids, particularly hyperosmotic solutions, is presented. It is based on irreversible thermodynamic transport equations and known physiological data. The model shows that after a 20% hemorrhage, the rapid addition of a hypertonic (7.5% NaCl)-hyperoncotic (6% Dextran 70) solution amounting to one-seventh of the shed blood volume reestablishes blood volume within 1 min. Measurements of systemic hematocrit, hemoglobin concentration, and plasma osmolality taken from 13 experiments on anesthetized rabbits verify this prediction. The model shows that immediately after hyperosmotic infusion, water shifts into the plasma first from red blood cells and endothelium and then from the interstitium and tissue cells. The increase in blood volume is transitory; however, it occurs in a fraction of the time compared with isoosmotic fluids at the same infusion rate and is partially sustained by Dextran 70. We theorize that the concurrent hemodilution and endothelial cell shrinkage during hyperosmotic infusion lead to a decreased capillary hydraulic resistance, an effect that is even more significant in capillaries with swollen endothelium. Our results support the significant role of an osmotic mechanism during hyperosmotic resuscitation in quickly restoring blood volume with the added benefit of improved tissue perfusion.
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28

Watton, J., and Y. Xue. "Identification of Fluid Power Component Behaviour Using Dynamic Flowrate Measurement." Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 209, no. 3 (May 1995): 179–91. http://dx.doi.org/10.1243/pime_proc_1995_209_141_02.

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An identification concept is developed utilizing direct measurement of the transient flowrate and pressure to determine the dynamic characteristics of fluid power components. The fundamental experimental approach is discussed and applied to a range of sizes of a bladder-type accumulator and also to a single-stage pressure relief valve. The gas charging characteristic of the accumulator was determined for three different sizes and during dynamic operation. It is shown how the nitrogen gas index of compression varies during operation and a relationship between the index and instantaneous flowrate is proposed. Measurements obtained with the pressure relief valve were used to identify its dynamic impedance in the frequency domain via time series analysis and transformation. The predictions are compared with a linearized mathematical model showing good correlation over a wide frequency band. A particular feature was found to be the use of the impedance magnitude-frequency asymptotes for validation of the steady state pressure-flowrate characteristic.
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29

Celliers, Peter M., Marius Millot, Stephanie Brygoo, R. Stewart McWilliams, Dayne E. Fratanduono, J. Ryan Rygg, Alexander F. Goncharov, et al. "Insulator-metal transition in dense fluid deuterium." Science 361, no. 6403 (August 16, 2018): 677–82. http://dx.doi.org/10.1126/science.aat0970.

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Dense fluid metallic hydrogen occupies the interiors of Jupiter, Saturn, and many extrasolar planets, where pressures reach millions of atmospheres. Planetary structure models must describe accurately the transition from the outer molecular envelopes to the interior metallic regions. We report optical measurements of dynamically compressed fluid deuterium to 600 gigapascals (GPa) that reveal an increasing refractive index, the onset of absorption of visible light near 150 GPa, and a transition to metal-like reflectivity (exceeding 30%) near 200 GPa, all at temperatures below 2000 kelvin. Our measurements and analysis address existing discrepancies between static and dynamic experiments for the insulator-metal transition in dense fluid hydrogen isotopes. They also provide new benchmarks for the theoretical calculations used to construct planetary models.
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30

Tindell, R. H. "Computational Fluid Dynamic Applications for Jet Propulsion System Integration." Journal of Engineering for Gas Turbines and Power 113, no. 1 (January 1, 1991): 40–50. http://dx.doi.org/10.1115/1.2906529.

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The impact of computational fluid dynamics (CFD) methods on the development of advanced aerospace vehicles is growing stronger year by year. Design engineers are now becoming familiar with CFD tools and are developing productive methods and techniques for their applications. This paper presents and discusses applications of CFD methods used at Grumman to design and predict the performance of propulsion system elements such as inlets and nozzles. The paper demonstrates techniques for applying various CFD codes and shows several interesting and unique results. A novel application of a supersonic Euler analysis of an inlet approach flow field, to clarify a wind tunnel-to-flight data conflict, is presented. In another example, calculations and measurements of low-speed inlet performance at angle of attack are compared. This is highlighted by employing a simplistic and low-cost computational model. More complex inlet flow phenomena at high angles of attack, calculated using an approach that combines a panel method with a Navier-Stokes (N-S) code, is also reviewed. The inlet fluid mechanics picture is rounded out by describing an N-S calculation and a comparison with test data of an offset diffuser having massively separated flow on one wall. Finally, the propulsion integration picture is completed by a discussion of the results of nozzle-afterbody calculations, using both a complete aircraft simulation in a N-S code, and a more economical calculation using an equivalent body of revolution technique.
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31

Kadambi, J. R., R. D. Quinn, and M. L. Adams. "Turbomachinery Blade Vibration and Dynamic Stress Measurements Utilizing Nonintrusive Techniques." Journal of Turbomachinery 111, no. 4 (October 1, 1989): 468–74. http://dx.doi.org/10.1115/1.3262295.

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The vibration of large turbomachinery blading is well known to be one of the most important design factors in modern turbomachinery. Typically, blade vibration is dominated by the unsteady flow phenomena and the interaction effects set up by vibration of blades within a high-velocity compressible fluid medium. This paper addresses the feasibility of developing an in-service noninterference measuring/monitoring system for steam turbine and gas turbine jet engine blade vibrations and stresses. The major purpose of such a measurement system is to provide a technically feasible, cost-effective means to isolate potential turbine and fan blade failures before they occur; thus minimizing costly machinery failure and risk of injury. The techniques that are examined include magnetic, inductive, optical, and laser and acoustic Doppler measurement methods. It appears likely that the most feasible and promising approach would include use of a few properly chosen measurement points on the blading in combination with use of advanced finite-element computational techniques and vibration modal methods. The modal analysis, performed experimentally and/or computationally, is especially useful in converting vibration measurements to the desired dynamic stresses.
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32

Bechtel, S. E., J. A. Cooper, M. G. Forest, N. A. Petersson, D. L. Reichard, A. Saleh, and V. Venkataramanan. "A new model to determine dynamic surface tension and elongational viscosity using oscillating jet measurements." Journal of Fluid Mechanics 293 (June 25, 1995): 379–403. http://dx.doi.org/10.1017/s0022112095001753.

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We present an integro-differential equation model which, combined with experimental measurements of an oscillating free surface jet, calculates dynamic surface tension and elongational viscosity of a fluid. Our model builds upon previous models due to Rayleigh and Bohr in that it self-consistently incorporates the effects of viscosity and gravity. Further, surface tension and viscosity are allowed to be non-constant. The principal result of this paper is a technique for the measurement of surface tension of newly forming surfaces on the millisecond timescale relevant for agricultural spray mixtures. Coincidentally, our model independently yields the elongational viscosity of the fluid, although our present experimental apparatus limits the accuracy of measurement of this material property.In this paper we take measurements from physical jet experiments and implement our inverse model to deduce these material properties. The model is first benchmarked against standard techniques on a well-characterized fluid with constant surface tension and Newtonian viscosity. We then apply our method to an agricultural spray mixture, with non-constant surface tension and non-Newtonian rheology. We measure (i) the rapid decay of surface tension from the newly formed surface (aged less than a millisecond) to the much lower equilibrium value, and (ii) the rate dependence of elongational viscosity.
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33

Payri, F., E. Reyes, and J. Galindo. "Analysis and Modeling of the Fluid-Dynamic Effects in Branched Exhaust Junctions of ICE." Journal of Engineering for Gas Turbines and Power 123, no. 1 (November 3, 2000): 197–203. http://dx.doi.org/10.1115/1.1339988.

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The influence of exhaust junction geometry on flow-dynamics of exhaust gas is analyzed. The authors propose an experimental characterization method based on the measurement of the instantaneous pressure in the junction operating with engine exhaust flow and solving the problems posed for the accurate instantaneous pressure measurements under the adverse temperature condition. In this paper, the method is applied to two “Y” type junctions, with a reed being the unique difference between them, to determine the influence of this element on the junction behavior. The analysis of the experimental results denotes two major differences: the characteristics of the wave reflected at the junction, and the energy of the pulse transmitted to the lateral branch of the junction. The results of the analysis are introduced in the junction modeling used in a one-dimensional gas dynamic model with an important improvement in the agreement of the modeled predictions with the experimental measurements.
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Scully, Timothy G., Yifan Huang, Stephen Huang, Anthony S. McLean, and Sam R. Orde. "The effects of static and dynamic measurements using transpulmonary thermodilution devices on fluid therapy in septic shock: A systematic review." Anaesthesia and Intensive Care 48, no. 1 (January 2020): 11–24. http://dx.doi.org/10.1177/0310057x19893703.

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Transpulmonary thermodilution devices have been widely shown to be accurate in septic shock patients in assessing fluid responsiveness. We conducted a systematic review to assess the relationship between fluid therapy protocols guided by transpulmonary thermodilution devices on fluid balance and the amount of intravenous fluid used in septic shock. We searched MEDLINE, Embase and The Cochrane Library. Studies were eligible for inclusion if they were prospective, parallel trials that were conducted in an intensive care setting in patients with septic shock. The comparator group was either central venous pressure, early goal-directed therapy or pulmonary artery occlusion pressure. Studies assessing only the accuracy of fluid responsiveness prediction by transpulmonary thermodilution devices were excluded. Two reviewers independently performed the search, extracted data and assessed the bias of each study. In total 27 full-text articles were identified for eligibility; of these, nine studies were identified for inclusion in the systematic review. Three of these trials used dynamic parameters derived from transpulmonary thermodilution devices and six used primarily static parameters to guide fluid therapy. There was evidence for a significant reduction in positive fluid balance in four out of the nine studies. From the available studies, the results suggest the benefit of transpulmonary thermodilution monitoring in the septic shock population with regard to reducing positive fluid balance is seen when the devices are utilised for at least 72 hours. Both dynamic and static parameters derived from transpulmonary thermodilution devices appear to lead to a reduction in positive fluid balance in septic shock patients compared to measurements of central venous pressure and early goal-directed therapy.
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35

Miller, Ashley, and Justin Mandeville. "Predicting and measuring fluid responsiveness with echocardiography." Echo Research and Practice 3, no. 2 (June 2016): G1—G12. http://dx.doi.org/10.1530/erp-16-0008.

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Echocardiography is ideally suited to guide fluid resuscitation in critically ill patients. It can be used to assess fluid responsiveness by looking at the left ventricle, aortic outflow, inferior vena cava and right ventricle. Static measurements and dynamic variables based on heart–lung interactions all combine to predict and measure fluid responsiveness and assess response to intravenous fluid resuscitation. Thorough knowledge of these variables, the physiology behind them and the pitfalls in their use allows the echocardiographer to confidently assess these patients and in combination with clinical judgement manage them appropriately.
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36

Khazanehdari, Jalal, and Jeremy Sothcott. "Variation in dynamic elastic shear modulus of sandstone upon fluid saturation and substitution." GEOPHYSICS 68, no. 2 (March 2003): 472–81. http://dx.doi.org/10.1190/1.1567213.

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Experimental acoustic measurements on sandstone rocks at both sonic and ultrasonic frequencies show that fluid saturation can cause a noticeable change in both the dynamic bulk and shear elastic moduli of sandstones. We observed that the change in dynamic shear modulus upon fluid saturation is highly dependent on the type of saturant, its viscosity, rock microstructure, and applied pressures. Frequency dispersion has some influence on dynamic elastic moduli too, but its effect is limited to the ultrasonic frequency ranges and above. We propose that viscous coupling, reduction in free surface energy, and, to a limited extent, frequency dispersion due to both local and global flow are the main mechanisms responsible for the change in dynamic shear elastic modulus upon fluid saturation and substitution, and we quantify influences.
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37

Li, Gao-Jin, and Xi-Yun Lu. "Force and power of flapping plates in a fluid." Journal of Fluid Mechanics 712 (October 9, 2012): 598–613. http://dx.doi.org/10.1017/jfm.2012.443.

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AbstractThe force and power of flapping plates are studied by vortex dynamic analysis. Based on the dynamic analysis of the numerical results of viscous flow past three-dimensional flapping plates, it is found that the force and power are strongly dominated by the vortical structures close to the body. Further, the dynamics of the flapping plate is investigated in terms of viscous vortex-ring model. It is revealed that the model can reasonably reflect the essential properties of the ring-like vortical structure in the wake, and the energy of the plate transferred to the flow for the formation of each vortical structure possesses a certain relation. Moreover, simplified formulae for the thrust and efficiency are proposed and verified to be reliable by the numerical solutions and experimental measurements of animal locomotion. The results obtained in this study provide physical insight into the understanding of the dynamic mechanisms relevant to flapping locomotion.
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38

Fossa, M., and G. Guglielmini. "Dynamic void fraction measurements in horizontal ducts with sudden area contraction." International Journal of Heat and Mass Transfer 41, no. 23 (December 1998): 3807–15. http://dx.doi.org/10.1016/s0017-9310(98)00111-2.

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39

Wagner, Martin, and Marisol Ripoll. "Solvent-induced depletion interactions in multiparticle collision dynamic simulations." International Journal of Modern Physics C 30, no. 10 (October 2019): 1941008. http://dx.doi.org/10.1142/s0129183119410080.

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Molecular-dynamics-coupled multiparticle collision dynamic (MPC-MD) simulations have emerged to be an efficient and versatile tool in the description of mesoscale colloidal dynamics. However, the compressibility of the coarse-grained fluid leads to this method being prone to spurious depletion interactions that may dominate the colloidal dynamics. In this paper, we review the existing methodology to deal with these interactions, establish and report depletion measurements, and present a method to avoid artificial depletion in mesoscale simulation methods.
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40

Garimella, S. V., and P. A. Eibeck. "Fluid Dynamic Characteristics of the Flow Over an Array of Large Roughness Elements." Journal of Electronic Packaging 113, no. 4 (December 1, 1991): 367–73. http://dx.doi.org/10.1115/1.2905422.

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Flow visualization and measurements of velocity and turbulence intensity using laser Doppler velocimetry are used to investigate separation and reattachment processes in the flow over an array of protruding elements mounted on the bottom wall of a rectangular water channel. The concept of an array shear layer is introduced to demarcate the region of influence over which the resistance of the array retards the flow. Flow separation at the leading edge of the elements is documented. The confined or interacting nature of the flow in the cavities between elements is established as a function of element spacing. The reattachment length downstream of the element varies from 4 to 1.5 element heights, decreasing both with an increase in Reynolds number and a decrease in channel height.
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Astrakharchik-Farrimond, E., B. Shekunov, P. York, N. Sawyer, S. Morgan, M. Somekh, and C. See. "Dynamic measurements in supercritical flow using instantaneous phase-shift interferometry." Experiments in Fluids 33, no. 2 (August 2002): 307–14. http://dx.doi.org/10.1007/s00348-002-0434-7.

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42

Galambos, Stjepan, Nebojsa Nikolic, Dragan Ruzic, and Jovan Doric. "An approach to computational fluid dynamic air-flow simulation in the internal combustion engine intake manifold." Thermal Science 24, no. 1 Part A (2020): 127–36. http://dx.doi.org/10.2298/tsci180707063g.

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The subject of this paper is modeling of an intake manifold of a four-stroke IC engine using contemporary software tools. Virtual 3D CAD model of an intake manifold was designed based on a real intake manifold of a four-stroke IC engine. Based on the CAD model a 3D CFD model of the intake manifold was created. The modeling has been done with the purpose of simulation of the air flow inside the intake manifold in order to monitor values of the internal pressure during several seconds of the engine operation in three different operating points. Also, an experiment was conducted, which included measurements of intake manifold pressure in the same engine operating points in the course of a time interval of approximately the same duration. The results of both the simulation and the experimental measurements have been shown in the paper proving that the created model was good enough for the intended purpose.
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43

de Saint Vincent, M. Robert, J. Petit, M. Aytouna, J. P. Delville, D. Bonn, and H. Kellay. "Dynamic interfacial tension effects in the rupture of liquid necks." Journal of Fluid Mechanics 692 (January 6, 2012): 499–510. http://dx.doi.org/10.1017/jfm.2011.550.

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AbstractBy examining the rupture of fluid necks during droplet formation of surfactant-laden liquids, we observe deviations from expected behaviour for the pinch-off of such necks. We suggest that these deviations are due to the presence of a dynamic (time-varying) interfacial tension at the minimum neck location and extract this quantity from our measurements on a variety of systems. The presence of such dynamic interfacial tension effects should change the rupture process drastically. However, our measurements show that a simple ansatz, which incorporates the temporal change of the interfacial tension, allows us to understand the dynamics of thinning. This shows that this dynamics is largely independent of the exact details of what happens far from the breakup location, pointing to the local nature of the thinning dynamics.
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Flaherty, Julia E., David Stock, and Brian Lamb. "Computational Fluid Dynamic Simulations of Plume Dispersion in Urban Oklahoma City." Journal of Applied Meteorology and Climatology 46, no. 12 (December 1, 2007): 2110–26. http://dx.doi.org/10.1175/2006jamc1306.1.

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Abstract A 3D computational fluid dynamics study using Reynolds-averaged Navier–Stokes modeling was conducted and validated with field data from the Joint Urban 2003 dispersion study in Oklahoma City, Oklahoma. The modeled flow field indicated that the many short buildings in this domain had a relatively small effect on the flow field, whereas the few tall buildings considerably influenced the transport and diffusion of tracer gas through the domain. Modeled values were compared with observations along a vertical profile located about 500 m downwind of the source. The isothermal base case using the standard k–ɛ closure model was within 50% of the concentration measurements, and a convective case with ground and building surfaces 10°C hotter than ambient temperatures improved the modeled profile to within 30% of observations. Varying wind direction and source location had a marked effect on modeled concentrations at the vertical profile site. Ground-level concentrations were 6 times the observed values when the approach flow wind direction was changed by +15° and were nearly zero when the wind direction was changed by −15°. Similar results were obtained when the source was moved 50 m to the east and to the west, respectively. All cases underestimated wind speed and turbulent kinetic energy near the surface, although adding heat significantly improved the magnitude of the modeled turbulent kinetic energy. Model results based upon a Reynolds stress closure scheme were also compared with the vertical concentration profiles. Neither the isothermal case nor the thermal buoyancy case resulted in an improvement over the standard k–ɛ model.
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45

Cerimovic, Samir, Albert Treytl, Thomas Glatzl, Roman Beigelbeck, Franz Keplinger, and Thilo Sauter. "Development and Characterization of Thermal Flow Sensors for Non-Invasive Measurements in HVAC Systems." Sensors 19, no. 6 (March 21, 2019): 1397. http://dx.doi.org/10.3390/s19061397.

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We investigated non-invasive flow rate measurements in heating, ventilation, and air conditioning (HVAC) systems utilizing thermal transduction instead of commonly used ultrasonic techniques. The proposed thermal flow transduction comprises two temperature sensors and a heater, all mounted non-invasively on the outer surface of metal-pipes and, therefore, not disturbing the fluid flow inside. One temperature sensor measures the heater temperature, whereas the other one, mounted upstream of the heater, follows the fluid temperature for reference. The temperature difference (i.e., the heater excess temperature) depends on the fluid flow velocity and can be used to derive the mean volume flow inside the pipe. Experimental characterizations were conducted using two sensor prototypes. Beside output characteristics, other main issues such as dynamic behavior and noise density were investigated in detail. Special attention was paid to error compensation allowing measurements within a large range of fluid temperatures. Measurement results confirm the feasibility of this approach, however with some constraints regarding response time.
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46

White, W. W., Mario Zamora, and C. F. Svoboda. "Downhole Measurements of Synthetic-Based Drilling Fluid in an Offshore Well Quantify Dynamic Pressure and Temperature Distributions." SPE Drilling & Completion 12, no. 03 (September 1, 1997): 149–57. http://dx.doi.org/10.2118/35057-pa.

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47

Maldonado-Camargo, L., I. Torres-Díaz, A. Chiu-Lam, M. Hernández, and C. Rinaldi. "Estimating the contribution of Brownian and Néel relaxation in a magnetic fluid through dynamic magnetic susceptibility measurements." Journal of Magnetism and Magnetic Materials 412 (August 2016): 223–33. http://dx.doi.org/10.1016/j.jmmm.2016.03.087.

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48

Barney, Anna, Christine H. Shadle, and P. O. A. L. Davies. "Fluid flow in a dynamic mechanical model of the vocal folds and tract. I. Measurements and theory." Journal of the Acoustical Society of America 105, no. 1 (January 1999): 444–55. http://dx.doi.org/10.1121/1.424504.

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49

Da Silva, Marco Jose, Eckhard Schleicher, and Uwe Hampel. "A Novel Needle Probe Based on High-Speed Complex Permittivity Measurements for Investigation of Dynamic Fluid Flows." IEEE Transactions on Instrumentation and Measurement 56, no. 4 (August 2007): 1249–56. http://dx.doi.org/10.1109/tim.2007.900419.

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50

Nussbaumer, Thomas, Martin Kiener, and Pascal Horat. "Fluid dynamic optimization of grate boilers with scaled model flow experiments, CFD modeling, and measurements in practice." Biomass and Bioenergy 76 (May 2015): 11–23. http://dx.doi.org/10.1016/j.biombioe.2015.02.033.

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