Reprint

Environmental Hydraulics Research

Edited by
June 2021
268 pages
  • ISBN978-3-0365-0808-5 (Hardback)
  • ISBN978-3-0365-0809-2 (PDF)

This is a Reprint of the Special Issue Environmental Hydraulics Research that was published in

Biology & Life Sciences
Chemistry & Materials Science
Engineering
Environmental & Earth Sciences
Public Health & Healthcare
Summary

This book aims to provide research and engineering applications related to water and hydraulic problems. It is comprised of scientific papers in all topics of hydraulics, in particular, on sustainable water management, environmental hydraulics, ecohydraulics, water–energy nexus, and systems protection and efficiency. Safety and innovation issues, interdisciplinary problems, and linkage of theory to experimental and field applications can also be found within. Solutions of water problems in the form of prediction models, flow simulations, engineering systems, monitoring, management strategies covering scientific investigations and/or experimental or field studies of flow behaviour, hydrodynamics, and climate changes effects and adaptation, new design solutions, innovative approaches in the field of environment, hydraulics, techniques, methods, and analyses to address the new challenges in environmental hydraulics are alo presented and explored. This topic is studied both from a technical and environmental point of view, with the objective of protecting and enhancing the quality of the environment. In a cross-disciplinary field of study, this book comprises open channel/river flows and pressurised systems, combining, among others, new technological, social, and environmental hydraulic challenges, working in water-related fields with available information, new concepts and tools, new design solutions, eco-friendly technologies, and the advanced materials necessary to address the increasing challenges of ensuring a sustainable water environment by promoting the adaptation, flexibility, integration, and sustainability of recognised environmental solutions.

Format
  • Hardback
License and Copyright
© 2022 by the authors; CC BY-NC-ND license
Keywords
water well; hydraulic efficiency; degradation; engineering structure; well ageing; lifespan; well operation; water well management; sustainable efficiency; frozen soil; soil freezing curve; hydraulic conductivity; fractal model; Darcy’s law; dissolved phosphorus; hydrodynamic condition; Lattice Boltzmann method; release characteristics; stormwater reuse; SCS curve number; CFD; fecal indicator bacteria; E. coli; fish protection; head loss; intake; hydraulics of renewable energy systems; hydraulic structure design and management; scale model test; canal pool; delay time; volume compensation; feedforward control; downstream constant water level; toothed internal energy dissipaters (TIED); area contraction ratio; over-current capability; energy dissipation rate; time-averaged pressure; pulsating pressure; time-averaged velocity; pulsating velocity; water level; Three Gorges Dam; hydrodynamic model; river–lake system; Poyang Lake; jet falling; energy dissipation; surface disturbances; pressure fluctuations; water jet; physical modeling; water flow diversity; permeable spur dike; fish aggregation effect; channel regulation; suspended vegetation; FTW; ADV; velocity profile; submerge ratio; SVF; hydro-energy; CAES; transient flow; energy concept; energy storage; similarity law; erosion; cohesive sediments; rotating circular flume; mathematical modelling; fitting coefficients; sediment deposition; flocculation; bed shear stress; consolidation; hydrostatic pressure machine; micro hydropower; CFD; open source; sliding mesh; volume of fluid; caffa3d; pumped hydro storage (PHS); hybrid hydro-wind-solar solutions; technical feasibility; new power generation; new hydraulic concepts; sustainable developments; CFD models; water systems efficiency; hydropower systems; eco-design; environmentally-friendly solutions; hydrologic and ecologic challenges; hydraulic structures; free surface flows; pressurised flows; soil structure; groundwater; erosion and energy dissipaters; hydrodynamics

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