Page: Main.S2 - Last Modified : Sun, 29 Jun 08

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(:cell bgcolor=#b0c4de :) [[S02-07-Mihailovic_et_al-IEMSS2008.pdf | 'Two Interacting Environmental Interfaces: Folded Bifurcation in Coupled Asymmetric Logistic Maps']]

to:

(:cell bgcolor=#b0c4de :) [[Attach: S02-07-Mihailovic_et_al-IEMSS2008.pdf | 'Two Interacting Environmental Interfaces: Folded Bifurcation in Coupled Asymmetric Logistic Maps']]

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(:cell :) [[S02-08-Lopes_et_al-IEMSS2008.pdf | 'Validation of the hydrodynamic model of a 3D ecological']]

to:

(:cell :) [[Attach: S02-08-Lopes_et_al-IEMSS2008.pdf | 'Validation of the hydrodynamic model of a 3D ecological']]

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(:cell bgcolor=#b0c4de :) [[S02-09-Gualtieri_et_al-IEMSS2008.pdf | 'Numerical simulation of flow patterns and mass exchange processes in dead zones']]

to:

(:cell bgcolor=#b0c4de :) [[Attach: S02-09-Gualtieri_et_al-IEMSS2008.pdf | 'Numerical simulation of flow patterns and mass exchange processes in dead zones']]

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(:cell :) [[S02-10-Dimas_et_al-IEMSS2008.pdf | 'Spatial Development of Viscous Flow Induced by Wave Propagation over Vortex Ripples']]

to:

(:cell :) [[Attach: S02-10-Dimas_et_al-IEMSS2008.pdf | 'Spatial Development of Viscous Flow Induced by Wave Propagation over Vortex Ripples']]

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(:cell bgcolor=#b0c4de :) [[S02-11-Pulci_Doria_et_al-IEMSS2008.pdf | 'A simplified experimental method to evaluate equivalent roughness of vegetated river beds']]

to:

(:cell bgcolor=#b0c4de :) [[Attach: S02-11-Pulci_Doria_et_al-IEMSS2008.pdf | 'A simplified experimental method to evaluate equivalent roughness of vegetated river beds']]

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(:cell :) [[S02-12-Cardoso_et_al-IEMSS2008.pdf | '3D ecological modelling of the Aveiro coastal']]

to:

(:cell :) [[Attach: S02-12-Cardoso_et_al-IEMSS2008.pdf | '3D ecological modelling of the Aveiro coastal']]

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(:cell bgcolor=#b0c4de :) [[S02-13-Lopez_et_al-IEMSS2008.pdf | 'Modelling external intrusion into water distribution systems']]

to:

(:cell bgcolor=#b0c4de :) [[Attach: S02-13-Lopez_et_al-IEMSS2008.pdf | 'Modelling external intrusion into water distribution systems']]

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(:cell bgcolor=#b0c4de :) ~~ ~~[[Attach: S02-01-Fuka_et_al-IEMSS2008.pdf |

'Implicit Large Eddy Simulation - a Promising Method for Turbulence Modelling in High Resolution Models']]

'Implicit Large Eddy Simulation - a Promising Method for Turbulence Modelling in High Resolution Models']]

to:

(:cell bgcolor=#b0c4de :) [[Attach: S02-01-Fuka_et_al-IEMSS2008.pdf | 'Implicit Large Eddy Simulation - a Promising Method for Turbulence Modelling in High Resolution Models']]

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'Implicit Large Eddy Simulation - a Promising Method for Turbulence Modelling in High Resolution Models~~ ~~']]

to:

'Implicit Large Eddy Simulation - a Promising Method for Turbulence Modelling in High Resolution Models']]

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(:cell bgcolor=#b0c4de :) ~~'Implicit Large Eddy Simulation ~~-~~ a Promising Method for Turbulence Modelling in High Resolution Models ~~'

to:

(:cell bgcolor=#b0c4de :) [[Attach: S02-01-Fuka_et_al-IEMSS2008.pdf |

'Implicit Large Eddy Simulation - a Promising Method for Turbulence Modelling in High Resolution Models ']]

'Implicit Large Eddy Simulation - a Promising Method for Turbulence Modelling in High Resolution Models ']]

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(:cell :) ~~'Iterative Inverse Modelling Method for Locating a Source of Air Pollution and its~~ Robustness'

to:

(:cell :) [[Attach: S02-02-Rajkovic_et_al-IEMSS2008.pdf | 'Iterative Inverse Modelling Method for Locating a Source of Air Pollution and its Robustness']]

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(:cell bgcolor=#b0c4de :) ~~'Evolvable Biological Interfaces: Outline of the New Computing~~ System'

to:

(:cell bgcolor=#b0c4de :) [[Attach: S02-03-Balaz_et_al-IEMSS2008.pdf | 'Evolvable Biological Interfaces: Outline of the New Computing System']]

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(:cell :) ~~'The Impact of Geometrical Effects on Calculated Value of Albedo on the Heterogeneous Environmental~~ Interfaces'

to:

(:cell :) [[Attach: S02-04-Kapor_et_al-IEMSS2008.pdf | 'The Impact of Geometrical Effects on Calculated Value of Albedo on the Heterogeneous Environmental Interfaces']]

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(:cell bgcolor=#b0c4de :) ~~'Integration of Environmental Models Based on Fluid Mechanics in Spatial Information~~ Systems'

to:

(:cell bgcolor=#b0c4de :) [[Attach: S02-05-Matejicek_et_al-IEMSS2008.pdf | 'Integration of Environmental Models Based on Fluid Mechanics in Spatial Information Systems']]

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(:cell :) ~~'Locating a Source of Air Pollution Using Inverse Modelling and Precomputed~~ Scenarios'

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(:cell :) [[Attach: S02-06-Vujadinovic_et_al-IEMSS2008.pdf | 'Locating a Source of Air Pollution Using Inverse Modelling and Precomputed Scenarios']]

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(:cell bgcolor=#b0c4de :) ~~'Two Interacting Environmental~~ Interfaces: Folded Bifurcation in Coupled Asymmetric Logistic Maps'

to:

(:cell bgcolor=#b0c4de :) [[S02-07-Mihailovic_et_al-IEMSS2008.pdf | 'Two Interacting Environmental Interfaces: Folded Bifurcation in Coupled Asymmetric Logistic Maps']]

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(:cell :) ~~'Validation of the hydrodynamic model of a 3D~~ ecological'

to:

(:cell :) [[S02-08-Lopes_et_al-IEMSS2008.pdf | 'Validation of the hydrodynamic model of a 3D ecological']]

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(:cell bgcolor=#b0c4de :) ~~'Numerical simulation of flow patterns and mass exchange processes in dead~~ zones'

to:

(:cell bgcolor=#b0c4de :) [[S02-09-Gualtieri_et_al-IEMSS2008.pdf | 'Numerical simulation of flow patterns and mass exchange processes in dead zones']]

Changed line 70 from:

(:cell :) ~~'Spatial Development of Viscous Flow Induced by Wave Propagation over Vortex~~ Ripples'

to:

(:cell :) [[S02-10-Dimas_et_al-IEMSS2008.pdf | 'Spatial Development of Viscous Flow Induced by Wave Propagation over Vortex Ripples']]

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(:cell bgcolor=#b0c4de :) ~~'A simplified experimental method to evaluate equivalent roughness of vegetated river~~ beds'

to:

(:cell bgcolor=#b0c4de :) [[S02-11-Pulci_Doria_et_al-IEMSS2008.pdf | 'A simplified experimental method to evaluate equivalent roughness of vegetated river beds']]

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(:cell :) ~~'3D ecological modelling of the Aveiro~~ coastal'

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(:cell :) [[S02-12-Cardoso_et_al-IEMSS2008.pdf | '3D ecological modelling of the Aveiro coastal']]

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(:cell bgcolor=#b0c4de :) ~~'Modelling external intrusion into water distribution~~ systems'

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(:cell bgcolor=#b0c4de :) [[S02-13-Lopez_et_al-IEMSS2008.pdf | 'Modelling external intrusion into water distribution systems']]

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(:cellnr colspan=5 align=center :) %blue% [++'''Monday 7'''++]\\

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(:cell bgcolor=#b0c4de :) '~~'~~

(:cell bgcolor=#b0c4de :) ''''' ''''',

(:cell bgcolor=#b0c4de :) ''''' ''''',

to:

(:cell bgcolor=#b0c4de :) 'Implicit Large Eddy Simulation - a Promising Method for Turbulence Modelling in High Resolution Models '

(:cell bgcolor=#b0c4de :) '''''V. Fuka''''' and J. Brechler

(:cell bgcolor=#b0c4de :) '''''V. Fuka''''' and J. Brechler

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(:cell :) '~~'~~

(:cell :) ''''' ''''',

(:cell :) ''''' ''''',

to:

(:cell :) 'Iterative Inverse Modelling Method for Locating a Source of Air Pollution and its Robustness'

(:cell :) '''''B. Rajkovic''''', M. Vujadinovic and Z. Grsic

(:cell :) '''''B. Rajkovic''''', M. Vujadinovic and Z. Grsic

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(:cell bgcolor=#b0c4de :) '~~'~~

(:cell bgcolor=#b0c4de:~~) ''''' ~~'~~'''',~~

(:cell bgcolor=#b0c4de

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(:cell bgcolor=#b0c4de :) 'Evolvable Biological Interfaces: Outline of the New Computing System'

(:cell bgcolor=#b0c4de :) '''''I.Balaz''''' and D.T.Mihailovic

(:cell bgcolor=#b0c4de :) '''''I.Balaz''''' and D.T.Mihailovic

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(:cell :) '~~'~~

(:cell :) ''''' ''''',

(:cell :) ''''' ''''',

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(:cell :) 'The Impact of Geometrical Effects on Calculated Value of Albedo on the Heterogeneous Environmental Interfaces'

(:cell :) '''''D.V.Kapor''''' A.M.Cirisan and D.T.Mihailovic

(:cell :) '''''D.V.Kapor''''' A.M.Cirisan and D.T.Mihailovic

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(:cell bgcolor=#b0c4de :) '~~'~~

(:cell bgcolor=#b0c4de :) ''''' ''''',

(:cell bgcolor=#b0c4de :) ''''' ''''',

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(:cell bgcolor=#b0c4de :) 'Integration of Environmental Models Based on Fluid Mechanics in Spatial Information Systems'

(:cell bgcolor=#b0c4de :) '''''L.Matejicek''''', Z. Janour and L. Benes

(:cell bgcolor=#b0c4de :) '''''L.Matejicek''''', Z. Janour and L. Benes

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(:cell :) '~~'~~

(:cell :) ''''''''''~~,~~

(:cell :) '''''

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(:cell :) 'Locating a Source of Air Pollution Using Inverse Modelling and Precomputed Scenarios'

(:cell :) '''''M. Vujadinovic''''', B. Rajkovic and Z. Grsic

(:cell :) '''''M. Vujadinovic''''', B. Rajkovic and Z. Grsic

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(:cell bgcolor=#b0c4de :) '~~'~~

(:cell bgcolor=#b0c4de:~~) ''''' ~~'~~'''',~~

(:cell bgcolor=#b0c4de

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(:cell bgcolor=#b0c4de :) 'Two Interacting Environmental Interfaces: Folded Bifurcation in Coupled Asymmetric Logistic Maps'

(:cell bgcolor=#b0c4de :) '''''D.T.Mihailovic'''''

(:cell bgcolor=#b0c4de :) '''''D.T.Mihailovic'''''

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(:cell :) '~~'~~

(:cell :) ''''''~~'''',~~

(:cell :) '''''

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(:cell :) 'Validation of the hydrodynamic model of a 3D ecological'

(:cell :) C.I.Silva and '''''J.F.Lopes'''''

(:cell :) C.I.Silva and '''''J.F.Lopes'''''

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(:cell bgcolor=#b0c4de :) '~~'~~

(:cell bgcolor=#b0c4de :) '''''''''',

(:cell bgcolor=#b0c4de :) '''''

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(:cell bgcolor=#b0c4de :) 'Numerical simulation of flow patterns and mass exchange processes in dead zones'

(:cell bgcolor=#b0c4de :) '''''C.Gualtieri''''',

(:cell bgcolor=#b0c4de :) '''''C.Gualtieri''''',

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(:cell :) '~~'~~

(:cell :) '''''''''',

(:cell :) '''''

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(:cell :) 'Spatial Development of Viscous Flow Induced by Wave Propagation over Vortex Ripples'

(:cell :) '''''A.Dimas''''',

(:cell :) '''''A.Dimas''''',

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(:cell bgcolor=#b0c4de :) '~~'~~

(:cell bgcolor=#b0c4de :) ''''' ''''',

(:cell bgcolor=#b0c4de :) ''''' ''''',

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(:cell bgcolor=#b0c4de :) 'A simplified experimental method to evaluate equivalent roughness of vegetated river beds'

(:cell bgcolor=#b0c4de :) S.De Felice, P.Gualtieri and '''''G.Pulci Doria'''''

(:cell bgcolor=#b0c4de :) S.De Felice, P.Gualtieri and '''''G.Pulci Doria'''''

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(:cell :) '~~'~~

(:cell :)'''''~~ ~~'''''~~,~~

(:cell :)

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(:cell :) '3D ecological modelling of the Aveiro coastal'

(:cell :) '''''A.Cardoso''''' and J.F.Lopes

(:cell :) '''''A.Cardoso''''' and J.F.Lopes

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(:cell bgcolor=#b0c4de :) '~~'~~

(:cell bgcolor=#b0c4de :)'~~'''' ~~''''',

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(:cell bgcolor=#b0c4de :) 'Modelling external intrusion into water distribution systems'

(:cell bgcolor=#b0c4de :) '''''P.A.Lopez''''', J.J.Mora, V.Fuertes and F.J.Martinez

(:cell bgcolor=#b0c4de :) '''''P.A.Lopez''''', J.J.Mora, V.Fuertes and F.J.Martinez

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(:cell align=center width=43% :) '''Authors'''

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(:cellnr colspan=5 align=center :) [+'''Monday 7'''+]

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->'''Dragutin T. Mihailovic, University Novi Sad, Serbia'''

to:

->'''Prof. Dragutin T. Mihailovic, University Novi Sad, Serbia'''

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->'''~~Prof. ~~Dragutin T. Mihailovic, University Novi Sad, Serbia'''

to:

->'''Dragutin T. Mihailovic, University Novi Sad, Serbia'''

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->'''Prof.Dragutin T.Mihailovic, University Novi Sad, Serbia'''

to:

->'''Prof. Dragutin T. Mihailovic, University Novi Sad, Serbia'''

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Environmental Fluid Mechanics (EFM) is the scientific study of transport, dispersion and transformation processes in natural fluid flows on our planet Earth, from the microscale to the planetary scale. Stratification and turbulence are two essential ingredients of EFM. Stratification occurs when the density of the fluid varies spatially, as in a sea breeze where masses of warm and cold air lie next to each other or in an estuary where fresh river water flows over saline seawater. Turbulence is the term used to characterize the complex, seemingly random motions that continually result from instabilities in fluid flows. Turbulence is ubiquitous in natural fluid flows because of the large scales that these flows typically occupy. The processes studied by EFM greatly affect the quality of natural ecosystems and are largely studied using also modeling techniques and software packages. For this session papers reporting observational, experimental, modeling and theoretical investigations would be welcome.

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Diffusion, turbulent dispersion and mixing in natural waters~~.~~ Contaminants transport in surface and subsurface waters, including water-sediments interactions, vegetated flows and air-water exchanges in natural waters~~.~~ Stratified flows~~.~~ Modelling of transport of water and chemicals in the soil~~.~~ Modelling of flux exchanges between non-homogeneous surfaces and atmosphere~~.~~ Modelling of planetary boundary layer land surface processes~~.~~ Modelling of planetary boundary climatic change and future state in agriculture and forestry~~. ~~Uncertainties in environmental modelling and occurrence of deterministic chaos~~.~~ Predicting the occurrence of plant diseases~~.~~ Turbulent jet and plumes~~.~~ Two-phase and multiphase flows

to:

*Diffusion, turbulent dispersion and mixing in natural waters

*Contaminants transport in surface and subsurface waters, including water-sediments interactions, vegetated flows and air-water exchanges in natural waters

*Stratified flows

*Modelling of transport of water and chemicals in the soil

*Modelling of flux exchanges between non-homogeneous surfaces and atmosphere

*Modelling of planetary boundary layer land surface processes

*Modelling of planetary boundary climatic change and future state in agriculture and forestry

*Uncertainties in environmental modelling and occurrence of deterministic chaos

*Predicting the occurrence of plant diseases

*Turbulent jet and plumes

*Two-phase and multiphase flows

!!Description

Environmental Fluid Mechanics (EFM) is the scientific study of transport, dispersion and transformation processes in natural fluid flows on our planet Earth, from the microscale to the planetary scale. Stratification and turbulence are two essential ingredients of EFM. Stratification occurs when the density of the fluid varies spatially, as in a sea breeze where masses of warm and cold air lie next to each other or in an estuary where fresh river water flows over saline seawater. Turbulence is the term used to characterize the complex, seemingly random motions that continually result from instabilities in fluid flows. Turbulence is ubiquitous in natural fluid flows because of the large scales that these flows typically occupy. The processes studied by EFM greatly affect the quality of natural ecosystems and are largely studied using also modeling techniques and software packages. For this session papers reporting observational, experimental, modeling and theoretical investigations would be welcome.

*Contaminants transport in surface and subsurface waters, including water-sediments interactions, vegetated flows and air-water exchanges in natural waters

*Stratified flows

*Modelling of transport of water and chemicals in the soil

*Modelling of flux exchanges between non-homogeneous surfaces and atmosphere

*Modelling of planetary boundary layer land surface processes

*Modelling of planetary boundary climatic change and future state in agriculture and forestry

*Uncertainties in environmental modelling and occurrence of deterministic chaos

*Predicting the occurrence of plant diseases

*Turbulent jet and plumes

*Two-phase and multiphase flows

!!Description

Environmental Fluid Mechanics (EFM) is the scientific study of transport, dispersion and transformation processes in natural fluid flows on our planet Earth, from the microscale to the planetary scale. Stratification and turbulence are two essential ingredients of EFM. Stratification occurs when the density of the fluid varies spatially, as in a sea breeze where masses of warm and cold air lie next to each other or in an estuary where fresh river water flows over saline seawater. Turbulence is the term used to characterize the complex, seemingly random motions that continually result from instabilities in fluid flows. Turbulence is ubiquitous in natural fluid flows because of the large scales that these flows typically occupy. The processes studied by EFM greatly affect the quality of natural ecosystems and are largely studied using also modeling techniques and software packages. For this session papers reporting observational, experimental, modeling and theoretical investigations would be welcome.

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(:title S2: Environmental Fluid Mechanics:)

!!Organisers:

->'''Carlo Gualtieri, University of Napoli, Italy''' (contact: [[mailto:carlo.gualtieri@unina.it|carlo.gualtieri@unina.it]])

->'''Prof.Dragutin T.Mihailovic, University Novi Sad, Serbia'''

!!Description

Environmental Fluid Mechanics (EFM) is the scientific study of transport, dispersion and transformation processes in natural fluid flows on our planet Earth, from the microscale to the planetary scale. Stratification and turbulence are two essential ingredients of EFM. Stratification occurs when the density of the fluid varies spatially, as in a sea breeze where masses of warm and cold air lie next to each other or in an estuary where fresh river water flows over saline seawater. Turbulence is the term used to characterize the complex, seemingly random motions that continually result from instabilities in fluid flows. Turbulence is ubiquitous in natural fluid flows because of the large scales that these flows typically occupy. The processes studied by EFM greatly affect the quality of natural ecosystems and are largely studied using also modeling techniques and software packages. For this session papers reporting observational, experimental, modeling and theoretical investigations would be welcome.

!!Topics

Diffusion, turbulent dispersion and mixing in natural waters. Contaminants transport in surface and subsurface waters, including water-sediments interactions, vegetated flows and air-water exchanges in natural waters. Stratified flows. Modelling of transport of water and chemicals in the soil. Modelling of flux exchanges between non-homogeneous surfaces and atmosphere. Modelling of planetary boundary layer land surface processes. Modelling of planetary boundary climatic change and future state in agriculture and forestry. Uncertainties in environmental modelling and occurrence of deterministic chaos. Predicting the occurrence of plant diseases. Turbulent jet and plumes. Two-phase and multiphase flows

----

!!Schedule

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!!Organisers:

->'''Carlo Gualtieri, University of Napoli, Italy''' (contact: [[mailto:carlo.gualtieri@unina.it|carlo.gualtieri@unina.it]])

->'''Prof.Dragutin T.Mihailovic, University Novi Sad, Serbia'''

!!Description

Environmental Fluid Mechanics (EFM) is the scientific study of transport, dispersion and transformation processes in natural fluid flows on our planet Earth, from the microscale to the planetary scale. Stratification and turbulence are two essential ingredients of EFM. Stratification occurs when the density of the fluid varies spatially, as in a sea breeze where masses of warm and cold air lie next to each other or in an estuary where fresh river water flows over saline seawater. Turbulence is the term used to characterize the complex, seemingly random motions that continually result from instabilities in fluid flows. Turbulence is ubiquitous in natural fluid flows because of the large scales that these flows typically occupy. The processes studied by EFM greatly affect the quality of natural ecosystems and are largely studied using also modeling techniques and software packages. For this session papers reporting observational, experimental, modeling and theoretical investigations would be welcome.

!!Topics

Diffusion, turbulent dispersion and mixing in natural waters. Contaminants transport in surface and subsurface waters, including water-sediments interactions, vegetated flows and air-water exchanges in natural waters. Stratified flows. Modelling of transport of water and chemicals in the soil. Modelling of flux exchanges between non-homogeneous surfaces and atmosphere. Modelling of planetary boundary layer land surface processes. Modelling of planetary boundary climatic change and future state in agriculture and forestry. Uncertainties in environmental modelling and occurrence of deterministic chaos. Predicting the occurrence of plant diseases. Turbulent jet and plumes. Two-phase and multiphase flows

----

!!Schedule

----