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Books on the topic 'Pulsatile flow'

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Author: Grafiati

Published: 4 June 2021

Last updated: 31 January 2023

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1

Zamir, M. The Physics of Pulsatile Flow. New York, NY: Springer New York, 2000. http://dx.doi.org/10.1007/978-1-4612-1282-9.

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2

Zamir, M. The Physics of Pulsatile Flow. New York, NY: Springer New York, 2000.

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3

The physics of pulsatile flow. New York: AIP Press, 2000.

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4

Kaplan, Adam Jay. Pulsatile flow patterns in a 45° side-to-end anastomosis model. Ottawa: National Library of Canada, 1993.

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5

Vinh, Bach. A finite element analysis of steady and pulsatile flow through a two-dimensional end-to-side model anastomosis. Ottawa: National Library of Canada, 1990.

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6

Reyes, J. R. Santos. Pulsating flow in turbocharger turbines. Manchester: UMIST, 1996.

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7

Dörfler, Peter, Mirjam Sick, and André Coutu. Flow-Induced Pulsation and Vibration in Hydroelectric Machinery. London: Springer London, 2013. http://dx.doi.org/10.1007/978-1-4471-4252-2.

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8

Dörfler, Peter. Flow-Induced Pulsation and Vibration in Hydroelectric Machinery: Engineer’s Guidebook for Planning, Design and Troubleshooting. London: Springer London, 2013.

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9

Ascough, John. Pulsatile flow in curved elastic tubes. 1996.

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10

Symposium on Mechanisms and Biological Significance of Pulsatile Hormone Secretion (1999 : London, England), ed. Mechanisms and biological significance of pulsatile hormone secretion. Chichester, West Sussex, England: Wiley, 2000.

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11

Warriner, Renee K. A simulation model of pulsatile blood flow in elastic and viscoelastic arteries. 2006.

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12

Symposium on Mechanisms and Biological Significance of Pulsatile Hormone Secretion (1999 : London, England), ed. Mechanisms and biological significance of pulsatile hormone release. Chichester, West Sussex, England: Wiley, 2000.

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13

Mechanisms and Biological Significance of Pulsatile Hormone Secretion (Novartis Foundation Symposia). Wiley, 2000.

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14

Shinbrot, Troy. Biomedical Fluid Dynamics. Oxford University Press, 2019. http://dx.doi.org/10.1093/oso/9780198812586.001.0001.

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This book provides an overview of fundamental methods and advanced topics associated with complex, especially biological, fluids. The contents are taken from a graduate level course taught to biomedical engineers, many of whom are math averse. Consequently the book is organized around gentle historical foundations and illustrative tabletop experiments to make for accessible reading. The book begins with derivations of fundamental equations, defined in the simplest terms possible, and adds embellishments one at a time to build toward the analysis of complex fluid dynamics an and introduction to spontaneous pattern formation. Topics covered include elastic surfaces, flow through elastic tubes, pulsatile flows, effects of entrances, branches, and bends, shearing flows, effects of increased Reynolds number, inviscid flows, rheology in complex fluids, statistical mechanics, diffusion, and self-assembly.

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15

Succi, Sauro. Flows at Moderate Reynolds Numbers. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780199592357.003.0018.

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This chapter presents the application of LBE to flows at moderate Reynolds numbers, typically hundreds to thousands. This is an important area of theoretical and applied fluid mechanics, one that relates, for instance, to the onset of nonlinear instabilities and their effects on the transport properties of the unsteady flow configuration. The regime of Reynolds numbers at which these instabilities take place is usually not very high, of the order of thousands, hence basically within reach of present day computer capabilities. Nonetheless, following the full evolution of these transitional flows requires very long-time integrations with short time-steps, which command substantial computational power. Therefore, efficient numerical methods are in great demand. Also of major interest are steady-state or pulsatile flows at moderate Reynolds numbers in complex geometries, such as they occur, for instance, in hemodynamic applications. The application of LBE to such flows will also briefly be mentioned

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16

Brett, D. P. Ultrasonic flowmeter performance in pulsating flow. 1995.

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17

United States. National Aeronautics and Space Administration., ed. Low re multiple-time-scale turbulence model and calculations of steady and pulsating shear layers. [Washington, DC]: National Aeronautics and Space Administration, 1992.

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18

Low re multiple-time-scale turbulence model and calculations of steady and pulsating shear layers. [Washington, DC]: National Aeronautics and Space Administration, 1992.

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19

United States. National Aeronautics and Space Administration., ed. Low re multiple-time-scale turbulence model and calculations of steady and pulsating shear layers. [Washington, DC]: National Aeronautics and Space Administration, 1992.

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20

Flowinduced Pulsation And Vibration In Hydroelectric Machinery Engineers Guidebook For Planning Design And Troubleshooting. Springer, 2012.

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21

Sick, Mirjam, Peter Dörfler, and André Coutu. Flow-Induced Pulsation and Vibration in Hydroelectric Machinery: Engineer's Guidebook for Planning, Design and Troubleshooting. Springer, 2012.

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22

Dörfler, Peter. Flow-Induced Pulsation and Vibration in Hydroelectric Machinery: Engineer's Guidebook for Planning, Design and Troubleshooting. Springer, 2014.

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23

Mortimer, P. D. A theoretical study of the behavior of a twin rotor turbine meter in a pulsating flow. 1995.

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24

9th Russian conference “Computational Experiment in Aeroacoustics and Aerodynamics”. Keldysh Institute of Applied Mathematics, 2022. http://dx.doi.org/10.20948/ceaa-2022.

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The book of includes abstracts of the ninth Russian conference "Computational experiment in aeroacoustics and aerodynamics" held September 26 - October 1, 2022. The organizer of the conference is the Keldysh Institute of Applied Mathematics of Russian Academy of Sciences. With the support of the of the World-Class Research Center “Supersonic” and the Baltic Federal University named after Immanuel Kant. The materials included in the book are devoted to modern approaches to numerical modeling of noise and the prospects for their application to solve actual industrial-oriented problems of aeroacoustics and aerodynamics, including the dynamics of unsteady turbulent flows that create pulsating loads on the surface of an aircraft and participate in the formation of acoustic sources.

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25

Ajayi, Adebayo Akinola. Turbine Flowmeter signal analysis: Spectral analysis of turbine flowmeter pulse trains and local line pressures to defect rotor faults, pulsating and two-phase flows, and asymmetric velocity profiles. Bradford, 1988.

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