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200 00$aEntropy Applications in Environmental and Water Engineering
210   $cMDPI - Multidisciplinary Digital Publishing Institute$d2019
215   $a1 online resource (512 p.)
311 08$a3-03897-222-3 
330   $aEntropy theory has wide applications to a range of problems in the fields of environmental and water engineering, including river hydraulic geometry, fluvial hydraulics, water monitoring network design, river flow forecasting, floods and droughts, river network analysis, infiltration, soil moisture, sediment transport, surface water and groundwater quality modeling, ecosystems modeling, water distribution networks, environmental and water resources management, and parameter estimation. Such applications have used several different entropy formulations, such as Shannon, Tsallis, Reacutenyi Burg, Kolmogorov, Kapur, configurational, and relative entropies, which can be derived in time, space, or frequency domains. More recently, entropy-based concepts have been coupled with other theories, including copula and wavelets, to study various issues associated with environmental and water resources systems. Recent studies indicate the enormous scope and potential of entropy theory in advancing research in the fields of environmental and water engineering, including establishing and explaining physical connections between theory and reality. The objective of this Special Issue is to provide a platform for compiling important recent and current research on the applications of entropy theory in environmental and water engineering. The contributions to this Special Issue have addressed many aspects associated with entropy theory applications and have shown the enormous scope and potential of entropy theory in advancing research in the fields of environmental and water engineering.
606   $aHistory of engineering and technology$2bicssc
610   $aaccelerating genetic algorithm
610   $aAnhui Province
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610   $aHexi corridor
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610   $ahydrological risk analysis
610   $ahydrology
610   $ahydrometeorological extremes
610   $ahydrometric network
610   $ainformation
610   $ainformation entropy
610   $ainformation theory
610   $ainformation transfer
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610   $ajoint entropy
610   $akernel density estimation
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610   $aLagrangian function
610   $aland suitability evaluation
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610   $amaximum entropy-copula method
610   $amaximum likelihood estimation
610   $amean annual runoff
610   $amethods of moments
610   $amodeling
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610   $amulti-events
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610   $anon-point source pollution
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610   $asubstitute
610   $atemperature
610   $atrend
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615  7$aHistory of engineering and technology
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200 10$aElectrochemistry of Immobilized Particles and Droplets $eExperiments with Three-Phase Electrodes /$fby Fritz Scholz, Uwe Schröder, Rubin Gulaboski, Antonio Doménech-Carbó
205   $a2nd ed. 2015.
210  1$aCham :$cSpringer International Publishing :$cImprint: Springer,$d2015.
215   $a1 online resource (341 p.)
300   $aDescription based upon print version of record.
311   $a3-319-10842-5 
320   $aIncludes bibliographical references and index.
327   $aEarlier Developed Techniques -- Electrodes with Immobilized Particles and Droplets - Three-Phase Electrodes -- The Experiment -- Hyphenated Techniques -- Immobilized Particles -- Immobilized Droplets -- Bibliography.
330   $aThis second edition of a successful and highly-accessed monograph has been extended by more than 100 pages. It includes an enlarged coverage of applications for materials characterization and analysis. Also a more detailed description of strategies for determining free energies of ion transfer between miscible liquids is provided. This is now possible with a ?third-phase strategy? which the authors explain from theoretical and practical points of view. The book is still the only one detailing strategies for solid state electroanalysis. It also features the specific potential of the techniques to use immobilized particles (for studies of solid materials) and of immobilized droplets of immiscible liquids for the purpose of studying the three-phase electrochemistry of these liquids. This also includes studies of ion transfer between aqueous and immiscible non-aqueous liquids. The bibliography of all published papers in this field of research has been expanded from 318 to now 444 references in this second edition. Not only are pertinent references provided at the end of each chapter, but the complete list of the cited literature is also offered as a separate chapter for easy reference.
606   $aElectrochemistry
606   $aMaterials science
606   $aPhase transformations (Statistical physics)
606   $aAnalytical chemistry
606   $aElectrochemistry$3https://scigraph.springernature.com/ontologies/product-market-codes/C21010
606   $aCharacterization and Evaluation of Materials$3https://scigraph.springernature.com/ontologies/product-market-codes/Z17000
606   $aPhase Transitions and Multiphase Systems$3https://scigraph.springernature.com/ontologies/product-market-codes/P25099
606   $aAnalytical Chemistry$3https://scigraph.springernature.com/ontologies/product-market-codes/C11006
615  0$aElectrochemistry.
615  0$aMaterials science.
615  0$aPhase transformations (Statistical physics)
615  0$aAnalytical chemistry.
615 14$aElectrochemistry.
615 24$aCharacterization and Evaluation of Materials.
615 24$aPhase Transitions and Multiphase Systems.
615 24$aAnalytical Chemistry.
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