About an Important Phenomenon—Water Hammer
Materialtyp:
ArtikelUtgivningsinformation: MDPI - Multidisciplinary Digital Publishing Institute 2024Beskrivning: 1 electronic resource (300 p.)Innehållstyp: - text
- computer
- online resource
- 9783036598277
- 9783036598284
- Technology, Engineering, Agriculture, Industrial processes
- Technology: general issues
- 1D model
- 2D models
- CFD
- LHS-PRCC
- MOC
- Morris screening method
- Reynolds numbers
- air cushion surge chamber
- air pocket
- air valve
- air-water interface
- attenuation
- axisymmetric model
- calibration
- compression–expansion effects
- convolution-based model
- damping
- dimensionless responses
- dynamic mesh
- energy analysis
- energy dissipation
- entrapped air pocket
- experimental tests
- filling events
- finite volume method
- fluid–structure interaction
- gas release
- gravity flow
- hydraulic transient
- hydraulic transient simulations
- hydraulic transients
- hydropower
- immersed solid
- laminar flow
- load rejection process
- method of characteristics
- micro-GA
- numerical simulation
- open channel flow
- pipelines with surge tank
- pressure wave
- pressure waves
- pump trip
- pump with check valve
- pumping system
- quasi-2D model
- radial mesh
- sensitivity analysis
- serially connected pipes
- sliding mesh
- surge damping
- thermodynamic behaviour
- transient flow
- unsteady friction
- unsteady friction model
- valve closure
- viscoelastic pipe
- viscoelasticity
- water hammer
- water supply
- wate
Open Access Unrestricted online access star
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.
Creative Commons Licence cc by-nc-nd cc https://creativecommons.org/licenses/by-nc-nd/4.0/
eng
Freely available e-book