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200 00$aTurbulence in River and Maritime Hydraulics$fMichele Mossa, Peter A. Davies, Donatella Termini
210  1$aBasel, Switzerland :$cMDPI,$d2019.
215   $a1 online resource (1 p.)
330   $aUnderstanding of the role of turbulence in controlling transport processes is of paramount importance for the preservation and protection of aquatic ecosystems, the minimization of the deleterious consequences of anthropogenic activity, and the successful sustainable development of river and maritime areas. In this context, the present Special Issue collects 15 papers which provide a representation of the present understanding of turbulent processes and their effects in river and maritime environments. The presented collection of papers is not exhaustive, but it highlights the key priority areas and knowledge gaps in this field of research. The published papers present the state-of-the-art knowledge of complex environmental flows which are useful for researchers and practitioners. The paper contents are an overview of some recent topics of research and an exposure of the current and future challenges associated with these topics.
610 00$abreaking waves; turbulence invariants; laboratory experiments; flow-through system; tidal inlets; residence time; coastal lagoon; MIKE 3 FM (HD &amp; TR); MIKE 21 FM (HD); dense jet; current flow; velocity; trajectory; turbulence; dissipation; rivers; meanders; turbulence; secondary motion; prediction; bedrock canyon; ADCP; eddy viscosity; bed shear stress; spatial analysis; smoothed particle hydrodynamics models; physical modelling; plunging breaking waves; vorticity; turbulent jet; wave-current interaction; spectral dissipation; bottom friction; numerical model; hydrodynamic model; spectral model; wave attenuation; energy dissipation; drag coefficient; flexible vegetation; Spartina maritima; vegetation patch; wake region; submerged ratio; SVF; channel confluences; junction angle; flow deflection zone; flow retardation zone; flow separation zone; numerical modelling; PANORMUS; jets; waves; turbulence; mixing; diffusion; advection; river mouth; flow mixing; nonlinear shallow water equations; macrovortices; sub-grid turbulence; seabed friction; flow resistance; roughness; gravel-bed rivers; casting technique; CFD; Kelvin-Helmholtz; billow; lobe; cleft; gravity current; surface waves; inclined negatively buoyant jets; regular waves; dilution; sea discharges; rivers; maritime areas; turbulent processes
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200 12$aA Thermodynamic Approach to Water Geothermometry /$fby Roberto Cioni, Luigi Marini
205   $a1st ed. 2020.
210  1$aCham :$cSpringer International Publishing :$cImprint: Springer,$d2020.
215   $a1 online resource (XV, 415 p. 168 illus., 160 illus. in color.) 
225 1 $aSpringer Geochemistry,$x2366-6285
300   $aIncludes index.
311 08$a3-030-54317-X 
327   $aIntroduction -- Thermodynamics, geochemical modeling and related considerations -- The selected reservoir liquids -- The hydrothermal minerals -- The traditional water geothermometers and fCO2-indicators -- The activity-based theoretical Na-K geoindicators -- The activity-based theoretical K-Mg and Na-Mg geoindicators -- The activity-based theoretical K-Ca and Na-Ca geoindicators -- Conclusions and way forwards -- References.
330   $aThis book explores water geothermometry, a highly relevant topic in the exploration and exploitation of geothermal energy. Presenting theoretical geothermometers and indicators of CO2 fugacity, it describes a rigorous new approach entirely based on thermodynamics. The book will appeal to geothermal geoscientists, especially those working in research institutions and companies around the globe. It is also of interest to students on advanced courses in applied geochemistry, water?rock interaction and other related areas.
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606   $aThermodynamics$3https://scigraph.springernature.com/ontologies/product-market-codes/P21050
615  0$aGeochemistry.
615  0$aEarth sciences.
615  0$aThermodynamics.
615 14$aGeochemistry.
615 24$aEarth Sciences, general.
615 24$aThermodynamics.
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