Pipe Flow: Research and Applications
A special issue of Fluids (ISSN 2311-5521).
Deadline for manuscript submissions: closed (30 June 2024) | Viewed by 27057
Special Issue Editors
Interests: computational fluid dynamics; numerical astrophysics; numerical analysis; error analysis and consistency of particle methods; heat and mass transfer; multiphase and multicomponent flows
Special Issues, Collections and Topics in MDPI journals
2. Department of Chemical Engineering, DCNE, University of Guanajuato, Noria Alta S/N, Guanajuato 3605, Mexico
Interests: computational fluid dynamics; smoothed particle hydrodynamics; software development; multicomponent and multiphase flows; heat and mass transfer; flow in porous media; microbial kinetics simulation
Special Issues, Collections and Topics in MDPI journals
Special Issue Information
Dear Colleagues,
The flow of fluids through pipes is an engineering problem of long-standing practical importance, with applications ranging from household water and gas supply to sewage flows to the transportation of chemicals and petroleum in the chemical and oil industries. It is also currently used in numerous heating and cooling applications.
The first scientific studies on pipe flow began to appear in 1839, when Hagen and then Poiseuille performed the first experiments on water flow through straight pipes of various sizes to determine pressure losses. Later on, Reynolds, in 1883, observed that the transition from Hagen–Poiseuille (i.e., laminar) to turbulent flow in pipes occurs above a certain critical value, known today as the critical Reynolds number. Since then, pipe flow has deserved particular interest as a gateway to turbulence, not only at high Reynolds numbers in straight pipes but also at relatively slower flows through pipe elbows, bends, and restrictors.
While experimental work on pipe flow has continued until the present day, from the beginning of this century there has been renewed interest in the investigation of pipe flow due to the emergence of ever more sophisticated numerical techniques and increased computational facilities. Many numerical flow models exist in the literature that have improved our knowledge of what happens inside a pipe for both single and multiphase flows. Numerical work has become of great importance not only to interpret experimental data but also to predict, under certain conditions, the resulting flow pattern. This aspect has been particularly important for complex multiphase flows where transitions to one or more flow patterns may occur. This Special Issue, entitled “Pipe Flow: Research and Applications”, is devoted to recent advances in experiments and numerical simulations of fluid flow in pipes of different cross-sectional shapes as well as geometries.
Dr. Leonardo Di G. Sigalotti
Dr. Carlos Enrique Alvarado-Rodríguez
Guest Editors
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Keywords
- pipe flow
- pressure drop
- curved pipes
- pipe bend
- laminar flow
- turbulent flow
- secondary flow
- flow separation
- particle image velocimetry
- flow measurement
- helically coiled pipes
- pulsatile flow
- computational fluid dynamics
- particle methods
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