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Physics of Lakes100%: Irina P. Chubarenko/ Kolumban Hutter/ Yongqi Wang/ Wang Yongqi: Physics of Lakes (ISBN: 9783319345055) Springer Nature, in Englisch, Band: 3.
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Physics of Lakes 0387%: Kolumban Hutter/ Irina P. Chubarenko/ Yongqi Wang: Physics of Lakes 03 (ISBN: 9783319004723) 2014, Erstausgabe, in Englisch, Broschiert.
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Physics of Lakes71%: Yongqi Wang/ Kolumban Hutter/ Irina P. Chubarenko: Physics of Lakes (ISBN: 9783319004730) 2014, in Englisch, Band: 3, auch als eBook.
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63%: Kolumban Hutter: Physics Of Lakes Volme 3: Methods Of Understanding Lakes As Components Of The Geophysical Environment (ISBN: 9783030352943) in Englisch, Taschenbuch.
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3319345052 - Irina P. Chubarenko/ Kolumban Hutter/ Yongqi Wang/ Wang Yongqi: Physics of Lakes
Irina P. Chubarenko/ Kolumban Hutter/ Yongqi Wang/ Wang Yongqi

Physics of Lakes (2014)

Lieferung erfolgt aus/von: Deutschland ~EN PB NW RP

ISBN: 3319345052 bzw. 9783319345055, Band: 3, vermutlich in Englisch, Springer Berlin, Taschenbuch, neu, Nachdruck.

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Physics of Lakes ab 10.49 € als Taschenbuch: Volume 3: Methods of Understanding Lakes as Components of the Geophysical Environment. Softcover reprint of the original 1st ed. 2014. Aus dem Bereich: Bücher, Wissenschaft, Geowissenschaft,.
2
9783319004723 - Kolumban Hutter: Physics of Lakes 03
Symbolbild
Kolumban Hutter

Physics of Lakes 03 (2014)

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ISBN: 9783319004723 bzw. 3319004727, in Deutsch, Springer-Verlag Gmbh Apr 2014, neu.

181,89 + Versand: 14,00 = 195,89
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Von Händler/Antiquariat, sparbuchladen [52968077], Göttingen, Germany.
Neuware - The ongoing thread in this volume of Physics of Lakes is the presentation of different methods of investigation for processes taking place in real lakes with a view to understanding lakes as components of the geophysical environment. It is divided into three parts. Part I is devoted to numerical modeling techniques and demonstrates that (i) wind-induced currents in depth-integrated models can only adequately predict current fields for extremely shallow lakes, and (ii) that classical multi-layered simulation models can only adequately reproduce current and temperature distributions when the lake is directly subjected to wind, but not the post-wind oscillating response. This makes shock capturing discretization techniques and Mellor-Yamada turbulence closure schemes necessary, as well as extremely high grid resolution to reduce the excessive numerical diffusion. Part II is devoted to the presentation of principles of observation and laboratory experimental procedures. It details the principles of operation for current, temperature, conductivity and other sensors applied in the field. It also discusses the advantages and limitations of common measuring methods like registration from stationary or drifting buoys, sounding and profiling from a boat, etc. Questions of data accuracy, quality, and reliability are also addressed. The use of laboratory experiments on a rotating platform is based on an exposition of dimensional analysis and model theory and illustrated using Lake Constance as an example. Part III gives an account of the dynamics of lake water as a particle-laden fluid, which, coupled with the transport of the bottom sediments, leads to morphodynamic changes of the bathymetry in estuarine and possibly whole lake regions. An elegant spatially one-dimensional theory makes it possible to derive analytic solutions of deltaic formations which are corroborated by laboratory experiments. A full three-dimensional description of the evolution of the alluvial bathymetry under prescribed tributary sediment input indicates a potential subject for future research. 605 pp. Englisch.
3
9783319004723 - Kolumban Hutter: Physics of Lakes 03
Symbolbild
Kolumban Hutter

Physics of Lakes 03

Lieferung erfolgt aus/von: Deutschland DE NW

ISBN: 9783319004723 bzw. 3319004727, in Deutsch, Springer-Verlag GmbH, neu.

Lieferung aus: Deutschland, Versandkostenfrei.
buchZ AG, [3859792].
Neuware - The ongoing thread in this volume of Physics of Lakes is the presentation of different methods of investigation for processes taking place in real lakes with a view to understanding lakes as components of the geophysical environment. It is divided into three parts. Part I is devoted to numerical modeling techniques and demonstrates that (i) wind-induced currents in depth-integrated models can only adequately predict current fields for extremely shallow lakes, and (ii) that classical multi-layered simulation models can only adequately reproduce current and temperature distributions when the lake is directly subjected to wind, but not the post-wind oscillating response. This makes shock capturing discretization techniques and Mellor-Yamada turbulence closure schemes necessary, as well as extremely high grid resolution to reduce the excessive numerical diffusion. Part II is devoted to the presentation of principles of observation and laboratory experimental procedures. It details the principles of operation for current, temperature, conductivity and other sensors applied in the field. It also discusses the advantages and limitations of common measuring methods like registration from stationary or drifting buoys, sounding and profiling from a boat, etc. Questions of data accuracy, quality, and reliability are also addressed. The use of laboratory experiments on a rotating platform is based on an exposition of dimensional analysis and model theory and illustrated using Lake Constance as an example. Part III gives an account of the dynamics of lake water as a particle-laden fluid, which, coupled with the transport of the bottom sediments, leads to morphodynamic changes of the bathymetry in estuarine and possibly whole lake regions. An elegant spatially one-dimensional theory makes it possible to derive analytic solutions of deltaic formations which are corroborated by laboratory experiments. A full three-dimensional description of the evolution of the alluvial bathy, Buch.
4
9783319345055 - Kolumban Hutter; Irina P. Chubarenko; Yongqi Wang: Physics of Lakes
Kolumban Hutter; Irina P. Chubarenko; Yongqi Wang

Physics of Lakes

Lieferung erfolgt aus/von: Mexiko DE PB NW

ISBN: 9783319345055 bzw. 3319345052, in Deutsch, Springer Shop, Taschenbuch, neu.

9,22 ($ 200)¹
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Lieferung aus: Mexiko, Lagernd, zzgl. Versandkosten.
The ongoing thread in this volume of Physics of Lakes is the presentation of different methods of investigation for processes taking place in real lakes with a view to understanding lakes as components of the geophysical environment. It is divided into three parts. Part I is devoted to numerical modeling techniques and demonstrates that (i) wind-induced currents in depth-integrated models can only adequately predict current fields for extremely shallow lakes, and (ii) that classical multi-layered simulation models can only adequately reproduce current and temperature distributions when the lake is directly subjected to wind, but not the post-wind oscillating response. This makes shock capturing discretization techniques and Mellor-Yamada turbulence closure schemes necessary, as well as extremely high grid resolution to reduce the excessive numerical diffusion. Part II is devoted to the presentation of principles of observation and laboratory experimental procedures. It details the principles of operation for current, temperature, conductivity and other sensors applied in the field. It also discusses the advantages and limitations of common measuring methods like registration from stationary or drifting buoys, sounding and profiling from a boat, etc. Questions of data accuracy, quality, and reliability are also addressed. The use of laboratory experiments on a rotating platform is based on an exposition of dimensional analysis and model theory and illustrated using Lake Constance as an example. Part III gives an account of the dynamics of lake water as a particle-laden fluid, which, coupled with the transport of the bottom sediments, leads to morphodynamic changes of the bathymetry in estuarine and possibly whole lake regions. An elegant spatially one-dimensional theory makes it possible to derive analytic solutions of deltaic formations which are corroborated by laboratory experiments. A full three-dimensional description of the evolution of the alluvial bathymetry under prescribed tributary sediment input indicates a potential subject for future research. Soft cover.
5
9783319004723 - Kolumban Hutter; Irina P. Chubarenko; Yongqi Wang: Physics of Lakes
Kolumban Hutter; Irina P. Chubarenko; Yongqi Wang

Physics of Lakes

Lieferung erfolgt aus/von: Deutschland ~EN HC NW

ISBN: 9783319004723 bzw. 3319004727, vermutlich in Englisch, Springer Shop, gebundenes Buch, neu.

Lieferung aus: Deutschland, Lagernd.
The ongoing thread in this volume of Physics of Lakes is the presentation of different methods of investigation for processes taking place in real lakes with a view to understanding lakes as components of the geophysical environment. It is divided into three parts. Part I is devoted to numerical modeling techniques and demonstrates that (i) wind-induced currents in depth-integrated models can only adequately predict current fields for extremely shallow lakes, and (ii) that classical multi-layered simulation models can only adequately reproduce current and temperature distributions when the lake is directly subjected to wind, but not the post-wind oscillating response. This makes shock capturing discretization techniques and Mellor-Yamada turbulence closure schemes necessary, as well as extremely high grid resolution to reduce the excessive numerical diffusion. Part II is devoted to the presentation of principles of observation and laboratory experimental procedures. It details the principles of operation for current, temperature, conductivity and other sensors applied in the field. It also discusses the advantages and limitations of common measuring methods like registration from stationary or drifting buoys, sounding and profiling from a boat, etc. Questions of data accuracy, quality, and reliability are also addressed. The use of laboratory experiments on a rotating platform is based on an exposition of dimensional analysis and model theory and illustrated using Lake Constance as an example. Part III gives an account of the dynamics of lake water as a particle-laden fluid, which, coupled with the transport of the bottom sediments, leads to morphodynamic changes of the bathymetry in estuarine and possibly whole lake regions. An elegant spatially one-dimensional theory makes it possible to derive analytic solutions of deltaic formations which are corroborated by laboratory experiments. A full three-dimensional description of the evolution of the alluvial bathymetry under prescribed tributary sediment input indicates a potential subject for future research. Hard cover.
6
9783319004723 - Kolumban Hutter: Physics of Lakes 03 - Methods of Understanding Lakes as Components of the Geophysical Environment
Kolumban Hutter

Physics of Lakes 03 - Methods of Understanding Lakes as Components of the Geophysical Environment

Lieferung erfolgt aus/von: Deutschland DE HC NW

ISBN: 9783319004723 bzw. 3319004727, in Deutsch, Springer-Verlag Gmbh, gebundenes Buch, neu.

Physics of Lakes 03: The ongoing thread in this volume of Physics of Lakes is the presentation of different methods of investigation for processes taking place in real lakes with a view to understanding lakes as components of the geophysical environment. It is divided into three parts. Part I is devoted to numerical modeling techniques and demonstrates that (i) wind-induced currents in depth-integrated models can only adequately predict current fields for extremely shallow lakes, and (ii) that classical multi-layered simulation models can only adequately reproduce current and temperature distributions when the lake is directly subjected to wind, but not the post-wind oscillating response. This makes shock capturing discretization techniques and Mellor-Yamada turbulence closure schemes necessary, as well as extremely high grid resolution to reduce the excessive numerical diffusion. Part II is devoted to the presentation of principles of observation and laboratory experimental procedures. It details the principles of operation for current, temperature, conductivity and other sensors applied in the field. It also discusses the advantages and limitations of common measuring methods like registration from stationary or drifting buoys, sounding and profiling from a boat, etc. Questions of data accuracy, quality, and reliability are also addressed. The use of laboratory experiments on a rotating platform is based on an exposition of dimensional analysis and model theory and illustrated using Lake Constance as an example. Part III gives an account of the dynamics of lake water as a particle-laden fluid, which, coupled with the transport of the bottom sediments, leads to morphodynamic changes of the bathymetry in estuarine and possibly whole lake regions. An elegant spatially one-dimensional theory makes it possible to derive analytic solutions of deltaic formations which are corroborated by laboratory experiments. A full three-dimensional description of the evolution of the alluvial bathymetry under prescribed tributary sediment input indicates a potential subject for future research. Englisch, Buch.
7
9783319004723 - Kolumban Hutter: Physics of Lakes 03
Kolumban Hutter

Physics of Lakes 03 (2014)

Lieferung erfolgt aus/von: Deutschland DE NW

ISBN: 9783319004723 bzw. 3319004727, in Deutsch, Springer-Verlag GmbH, neu.

181,89 + Versand: 4,50 = 186,39
unverbindlich
buchversandmimpf2000, [3715720].
Neuware - The ongoing thread in this volume of Physics of Lakes is the presentation of different methods of investigation for processes taking place in real lakes with a view to understanding lakes as components of the geophysical environment. It is divided into three parts. Part I is devoted to numerical modeling techniques and demonstrates that (i) wind-induced currents in depth-integrated models can only adequately predict current fields for extremely shallow lakes, and (ii) that classical multi-layered simulation models can only adequately reproduce current and temperature distributions when the lake is directly subjected to wind, but not the post-wind oscillating response. This makes shock capturing discretization techniques and Mellor-Yamada turbulence closure schemes necessary, as well as extremely high grid resolution to reduce the excessive numerical diffusion. Part II is devoted to the presentation of principles of observation and laboratory experimental procedures. It details the principles of operation for current, temperature, conductivity and other sensors applied in the field. It also discusses the advantages and limitations of common measuring methods like registration from stationary or drifting buoys, sounding and profiling from a boat, etc. Questions of data accuracy, quality, and reliability are also addressed. The use of laboratory experiments on a rotating platform is based on an exposition of dimensional analysis and model theory and illustrated using Lake Constance as an example. Part III gives an account of the dynamics of lake water as a particle-laden fluid, which, coupled with the transport of the bottom sediments, leads to morphodynamic changes of the bathymetry in estuarine and possibly whole lake regions. An elegant spatially one-dimensional theory makes it possible to derive analytic solutions of deltaic formations which are corroborated by laboratory experiments. A full three-dimensional description of the evolution of the alluvial bathymetry under prescribed tributary sediment input indicates a potential subject for future research. Buch.
8
9783319345055 - Kolumban Hutter; Irina P. Chubarenko; Wang Yongqi: Physics of Lakes
Kolumban Hutter; Irina P. Chubarenko; Wang Yongqi

Physics of Lakes

Lieferung erfolgt aus/von: Deutschland EN NW

ISBN: 9783319345055 bzw. 3319345052, in Englisch, neu.

Lieferung aus: Deutschland, Versandfertig innerhalb von 3 Wochen.
This book describes methods of investigation for processes taking place in real lakes, as components of the geophysical environment. Covers numerical modeling, observation and experimental procedures, and the dynamics of lake water as a particle-laden fluid. The ongoing thread in this volume of Physics of Lakes is the presentation of different methods of investigation for processes taking place in real lakes with a view to understanding lakes as components of the geophysical environment. It is divided into three parts. Part I is devoted to numerical modeling techniques and demonstrates that (i) wind-induced currents in depth-integrated models can only adequately predict current fields for extremely shallow lakes, and (ii) that classical multi-layered simulation models can only adequately reproduce current and temperature distributions when the lake is directly subjected to wind, but not the post-wind oscillating response. This makes shock capturing discretization techniques and Mellor-Yamada turbulence closure schemes necessary, as well as extremely high grid resolution to reduce the excessive numerical diffusion. Part II is devoted to the presentation of principles of observation and laboratory experimental procedures. It details the principles of operation for current, temperature, conductivity and other sensors applied in the field. It also discusses the advantages and limitations of common measuring methods like registration from stationary or drifting buoys, sounding and profiling from a boat, etc. Questions of data accuracy, quality, and reliability are also addressed. The use of laboratory experiments on a rotating platform is based on an exposition of dimensional analysis and model theory and illustrated using Lake Constance as an example. Part III gives an account of the dynamics of lake water as a particle-laden fluid, which, coupled with the transport of the bottom sediments, leads to morphodynamic changes of the bathymetry in estuarine and possibly whole lake regions. An elegant spatially one-dimensional theory makes it possible to derive analytic solutions of deltaic formations which are corroborated by laboratory experiments. A full three-dimensional description of the evolution of the alluvial bathymetry under prescribed tributary sediment input indicates a potential subject for future research.
9
9783319345055 - Kolumban Hutter, Irina P. Chubarenko, Yongqi Wang: Physics Of Lakes: Volume 3: Methods Of Understanding Lakes As Components Of The Geophysical Environment
Kolumban Hutter, Irina P. Chubarenko, Yongqi Wang

Physics Of Lakes: Volume 3: Methods Of Understanding Lakes As Components Of The Geophysical Environment

Lieferung erfolgt aus/von: Kanada DE NW

ISBN: 9783319345055 bzw. 3319345052, Band: 3, in Deutsch, Springer Nature, neu.

182,74 (C$ 275,95)¹
unverbindlich
Lieferung aus: Kanada, Lagernd, zzgl. Versandkosten.
Kolumban Hutter, Irina P. Chubarenko, Yongqi Wang, Books, Science and Nature, Physics Of Lakes: Volume 3: Methods Of Understanding Lakes As Components Of The Geophysical Environment, The ongoing thread in this volume of Physics of Lakes is the presentation of different methods of investigation for processes taking place in real lakes with a view to understanding lakes as components of the geophysical environment. It is divided into three parts. Part I is devoted to numerical modeling techniques and demonstrates that (i) wind-induced currents in depth-integrated models can only adequately predict current fields for extremely shallow lakes, and (ii) that classical multi-layered simulation models can only adequately reproduce current and temperature distributions when the lake is directly subjected to wind, but not the post-wind oscillating response. This makes shock capturing discretization techniques and Mellor-Yamada turbulence closure schemes necessary, as well as extremely high grid resolution to reduce the excessive numerical diffusion. Part II is devoted to the presentation of principles of observation and laboratory experimental procedures. It details the principles of operation for current, temperature, conductivity and other sensors applied in the field. It also discusses the advantages and limitations of common measuring methods like registration from stationary or drifting buoys, sounding and profiling from a boat, etc. Questions of data accuracy, quality, and reliability are also addressed. The use of laboratory experiments on a rotating platform is based on an exposition of dimensional analysis and model theory and illustrated using Lake Constance as an example. Part III gives an account of the dynamics of lake water as a particle-laden fluid, which, coupled with the transport of the bottom sediments, leads to morphodynamic changes of the bathymetry in estuarine and possibly whole lake regions. An elegant spatially one-dimensional theory makes it possible to derive analytic solutions of deltaic formations which are corroborated by laboratory experiments. A full three-dimensional description of the evolution of the alluvial bathymetry under prescribed tributary sediment input indicates a potential subject for future research.
10
9783319345055 - Hutter: / Chubarenko / Wang | Physics of Lakes | Springer | Softcover reprint of the original 1st ed. 2014 | 2016
Hutter

/ Chubarenko / Wang | Physics of Lakes | Springer | Softcover reprint of the original 1st ed. 2014 | 2016

Lieferung erfolgt aus/von: Deutschland DE PB NW

ISBN: 9783319345055 bzw. 3319345052, in Deutsch, Springer, Taschenbuch, neu.

The ongoing thread in this volume of Physics of Lakes is the presentation of different methods of investigation for processes taking place in real lakes with a view to understanding lakes as components of the geophysical environment. It is divided into three parts. Part I is devoted to numerical modeling techniques and demonstrates that (i) wind-induced currents in depth-integrated models can only adequately predict current fields for extremely shallow lakes, and (ii) that classical multi-layered simulation models can only adequately reproduce current and temperature distributions when the lake is directly subjected to wind, but not the post-wind oscillating response. This makes shock capturing discretization techniques and Mellor-Yamada turbulence closure schemes necessary, as well as extremely high grid resolution to reduce the excessive numerical diffusion. Part II is devoted to the presentation of principles of observation and laboratory experimental procedures. It details the principles of operation for current, temperature, conductivity and other sensors applied in the field. It also discusses the advantages and limitations of common measuring methods like registration from stationary or drifting buoys, sounding and profiling from a boat, etc. Questions of data accuracy, quality, and reliability are also addressed. The use of laboratory experiments on a rotating platform is based on an exposition of dimensional analysis and model theory and illustrated using Lake Constance as an example. Part III gives an account of the dynamics of lake water as a particle-laden fluid, which, coupled with the transport of the bottom sediments, leads to morphodynamic changes of the bathymetry in estuarine and possibly whole lake regions. An elegant spatially one-dimensional theory makes it possible to derive analytic solutions of deltaic formations which are corroborated by laboratory experiments. A full three-dimensional description of the evolution of the alluvial bathymetry under prescribed tributary sediment input indicates a potential subject for future research.
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