About an Important Phenomenon—Water Hammer

Explore “About an Important Phenomenon—Water Hammer”, a groundbreaking Special Issue featuring insights from leading experts. When pressurized pipe flow is disrupted, water hammer—a once overlooked phenomenon—creates waves of importance in engineering, driving a dangerous surge.Dedicated to modeling...

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Aineistotyyppi: Online
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Julkaistu: MDPI - Multidisciplinary Digital Publishing Institute 2024
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collection Directory of Open Access Books
description Explore “About an Important Phenomenon—Water Hammer”, a groundbreaking Special Issue featuring insights from leading experts. When pressurized pipe flow is disrupted, water hammer—a once overlooked phenomenon—creates waves of importance in engineering, driving a dangerous surge.Dedicated to modeling water hammer and experimental verification, this Special Issue delves into contemporary water hammer discourse, tackling key challenges in fluid dynamics. It intertwines with related phenomena including fluid friction, cavitation, viscoelastic deformations, and fluid–structure interaction. Whether unraveling complexities or developing safeguarding methods, submissions enrich our understanding, enabling us to traverse historical origins, mathematical foundations, and contemporary dimensions. “About an Important Phenomenon—Water Hammer” is more than a publication; it is a platform for sharing insights and innovations shaping the future of fluid dynamics and practical engineering.
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institution Directory of Open Access Books
language eng
publishDate 2024
publishDateRange 2024
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publisherStr MDPI - Multidisciplinary Digital Publishing Institute
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spelling doab-20.500.12854ir-1374172024-05-14T13:00:06Z About an Important Phenomenon—Water Hammer Urbanowicz, Kamil Ramos, Helena M. gravity flow hydraulic transient simulations MOC sensitivity analysis Morris screening method LHS-PRCC unsteady friction model surge damping compression–expansion effects pressure wave energy dissipation hydraulic transient open channel flow hydropower method of characteristics finite volume method water hammer hydraulic transients serially connected pipes unsteady friction viscoelasticity convolution-based model numerical simulation transient flow viscoelastic pipe quasi-2D model energy analysis Reynolds numbers damping attenuation water-hammer pressure waves wavespeed fluid–structure interaction wave superposition valve closure air cushion surge chamber load rejection process filling events entrapped air pocket thermodynamic behaviour CFD air-water interface laminar flow axisymmetric model 1D model radial mesh experimental tests dynamic mesh sliding mesh immersed solid 2D models gas release calibration micro-GA pipelines with surge tank dimensionless responses pump with check valve air valve air pocket pump trip pumping system water supply n/a thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues Explore “About an Important Phenomenon—Water Hammer”, a groundbreaking Special Issue featuring insights from leading experts. When pressurized pipe flow is disrupted, water hammer—a once overlooked phenomenon—creates waves of importance in engineering, driving a dangerous surge.Dedicated to modeling water hammer and experimental verification, this Special Issue delves into contemporary water hammer discourse, tackling key challenges in fluid dynamics. It intertwines with related phenomena including fluid friction, cavitation, viscoelastic deformations, and fluid–structure interaction. Whether unraveling complexities or developing safeguarding methods, submissions enrich our understanding, enabling us to traverse historical origins, mathematical foundations, and contemporary dimensions. “About an Important Phenomenon—Water Hammer” is more than a publication; it is a platform for sharing insights and innovations shaping the future of fluid dynamics and practical engineering. 2024-05-14T12:59:54Z 2024-05-14T12:59:54Z 2024 book ONIX_20240514_9783036598277_20 9783036598277 9783036598284 https://directory.doabooks.org/handle/20.500.12854/137417 eng application/octet-stream Attribution-NonCommercial-NoDerivatives 4.0 International https://mdpi.com/books/pdfview/book/8571 https://mdpi.com/books/pdfview/book/8571 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-0365-9828-4 10.3390/books978-3-0365-9828-4 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783036598277 9783036598284 300 open access
spellingShingle gravity flow
hydraulic transient simulations
MOC
sensitivity analysis
Morris screening method
LHS-PRCC
unsteady friction model
surge damping
compression–expansion effects
pressure wave
energy dissipation
hydraulic transient
open channel flow
hydropower
method of characteristics
finite volume method
water hammer
hydraulic transients
serially connected pipes
unsteady friction
viscoelasticity
convolution-based model
numerical simulation
transient flow
viscoelastic pipe
quasi-2D model
energy analysis
Reynolds numbers
damping
attenuation
water-hammer
pressure waves
wavespeed
fluid–structure interaction
wave superposition
valve closure
air cushion surge chamber
load rejection process
filling events
entrapped air pocket
thermodynamic behaviour
CFD
air-water interface
laminar flow
axisymmetric model
1D model
radial mesh
experimental tests
dynamic mesh
sliding mesh
immersed solid
2D models
gas release
calibration
micro-GA
pipelines with surge tank
dimensionless responses
pump with check valve
air valve
air pocket
pump trip
pumping system
water supply
n/a
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
About an Important Phenomenon—Water Hammer
title About an Important Phenomenon—Water Hammer
title_full About an Important Phenomenon—Water Hammer
title_fullStr About an Important Phenomenon—Water Hammer
title_full_unstemmed About an Important Phenomenon—Water Hammer
title_short About an Important Phenomenon—Water Hammer
title_sort about an important phenomenon water hammer
topic gravity flow
hydraulic transient simulations
MOC
sensitivity analysis
Morris screening method
LHS-PRCC
unsteady friction model
surge damping
compression–expansion effects
pressure wave
energy dissipation
hydraulic transient
open channel flow
hydropower
method of characteristics
finite volume method
water hammer
hydraulic transients
serially connected pipes
unsteady friction
viscoelasticity
convolution-based model
numerical simulation
transient flow
viscoelastic pipe
quasi-2D model
energy analysis
Reynolds numbers
damping
attenuation
water-hammer
pressure waves
wavespeed
fluid–structure interaction
wave superposition
valve closure
air cushion surge chamber
load rejection process
filling events
entrapped air pocket
thermodynamic behaviour
CFD
air-water interface
laminar flow
axisymmetric model
1D model
radial mesh
experimental tests
dynamic mesh
sliding mesh
immersed solid
2D models
gas release
calibration
micro-GA
pipelines with surge tank
dimensionless responses
pump with check valve
air valve
air pocket
pump trip
pumping system
water supply
n/a
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
topic_facet gravity flow
hydraulic transient simulations
MOC
sensitivity analysis
Morris screening method
LHS-PRCC
unsteady friction model
surge damping
compression–expansion effects
pressure wave
energy dissipation
hydraulic transient
open channel flow
hydropower
method of characteristics
finite volume method
water hammer
hydraulic transients
serially connected pipes
unsteady friction
viscoelasticity
convolution-based model
numerical simulation
transient flow
viscoelastic pipe
quasi-2D model
energy analysis
Reynolds numbers
damping
attenuation
water-hammer
pressure waves
wavespeed
fluid–structure interaction
wave superposition
valve closure
air cushion surge chamber
load rejection process
filling events
entrapped air pocket
thermodynamic behaviour
CFD
air-water interface
laminar flow
axisymmetric model
1D model
radial mesh
experimental tests
dynamic mesh
sliding mesh
immersed solid
2D models
gas release
calibration
micro-GA
pipelines with surge tank
dimensionless responses
pump with check valve
air valve
air pocket
pump trip
pumping system
water supply
n/a
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
url ONIX_20240514_9783036598277_20