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Tracer and Timescale Methods for Passive and Reactive Transport in Fluid Flows

Geophysical, environmental, and urban fluid flows (i.e., flows developing in oceans, seas, estuaries, rivers, aquifers, reservoirs, etc.) exhibit a wide range of reactive and transport processes. Therefore, identifying key phenomena, understanding their relative importance, and establishing causal r...

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Bibliographic Details
Main Author: Deleersnijder, Eric
Other Authors: Koszalka, Inga Monika, Lucas, Lisa V.
Format: eBook
Language:English
Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2022
Subjects:
Age
Boundary Conditions
Tritium (3h)
Marina
Partitioning
Mahakam Delta
Sub-basins
Flushing Time
Delft3d
Tracer
Coastal
San Francisco Estuary
Floodplain
Shallow Lake
English Channel
Ocean Drifters
Tributary Bay
Passive Tracers
Interpretation Methods
Wind Influence
Biscay Bay
Turbulence
Stable Isotopes
Research & Information: General / Bicssc
Biology, Life Sciences / Bicssc
Transport Timescales
Return Coefficient
Cart
Macro-tidal
Residence Time
Water Level Regulation
North Sea
Sacramento-san Joaquin Delta
Density Current
Estuary
Lagrangian Transport Modelling
Shallow Reservoir
Pearl River Estuary
Transport
Wave-induced Processes
Tidal Hydrodynamics
N/a
Dispersion
Source Water Fingerprinting
Reactive Transport
Reactive Tracers
Hydrogeological Tracer Test
Adcp Measurement
Ecological
Transport Time Scales
Biogeochemical
Exposure Time
Modeling
Model Skills
Data Collection
Water Renewal
Reynolds Stress
Kinetics
Geophysical And Environmental Fluid Flows
Return-flow
Floating Structures
Tailor-made Tracer Design
Wave Bias
Antimony 125 (125sb)
Hydrodynamic
Meteorological Influence
Radionuclide
Hydrodynamic Model
Partial Differential Equations
Terrestrial Dissolved Substances
Coupled Wave-ocean Models
Numerical Modeling
Timescale
Diagnostic Timescales
Age Distribution Function
Three Gorges Reservoir
Transport Process
Water Age
Online Access:
Collection: Directory of Open Access Books - Collection details see MPG.ReNa
Description
Summary:Geophysical, environmental, and urban fluid flows (i.e., flows developing in oceans, seas, estuaries, rivers, aquifers, reservoirs, etc.) exhibit a wide range of reactive and transport processes. Therefore, identifying key phenomena, understanding their relative importance, and establishing causal relationships between them is no trivial task. Analysis of primitive variables (e.g., velocity components, pressure, temperature, concentration) is not always conducive to the most fruitful interpretations. Examining auxiliary variables introduced for diagnostic purposes is an option worth considering. In this respect, tracer and timescale methods are proving to be very effective. Such methods can help address questions such as, "where does a fluid-born dissolved or particulate substance come from and where will it go?" or, "how fast are the transport and reaction phenomena controlling the appearance and disappearance such substances?" These issues have been dealt with since the 19th century, essentially by means of ad hoc approaches. However, over the past three decades, methods resting on solid theoretical foundations have been developed, which permit the evaluation of tracer concentrations and diagnostic timescales (age, residence/exposure time, etc.) across space and time and using numerical models and field data. This book comprises research and review articles, introducing state-of-the-art diagnostic theories and their applications to domains ranging from shallow human-made reservoirs to lakes, river networks, marine domains, and subsurface flows
Item Description:Creative Commons (cc), https://creativecommons.org/licenses/by/4.0/
Physical Description:1 electronic resource (364 p.)
ISBN:books978-3-0365-3522-7
9783036535210
9783036535227

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