Presentation is loading. Please wait.

Presentation is loading. Please wait.

Moving Boundary Problems are Us The development and application of numerical methods for transport models towards an integrated frame-work for modeling.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Moving Boundary Problems are Us The development and application of numerical methods for transport models towards an integrated frame-work for modeling."— Presentation transcript:

1 Moving Boundary Problems are Us The development and application of numerical methods for transport models towards an integrated frame-work for modeling earth surface dynamics from source to sink Voller, Paola, Mohrig, Parker Wolinsky, Jerolmack Kim, Qian, Sittoni Stefan, Swenson SA2Reconstructing delta dynamics from cores and other records SR2Determine how physical channel attributes affect nutrient & contaminant dynamics, productivity, and species diversity

2 Interactions Between Flow and Fan Topography Some JT Questions: How Does topography influence the flow over fans? Is there fan geometry that crates a bypassing condition ? Investigate by solving Exner + Shallow Water Eq Over Different Tops. FlatLong ComboTran. SA2Reconstructing delta dynamics from cores and other records

3 Transport exchange between a stream and its gravel bed is greatly enhanced by surface waves and/or bed forms. 2-D Advection Dispersion A Depth dependent dispersion can Be obtained from problem par. Hence an easy to use meaningful management tool Can be used to answer questions What restoration devices can be in place to create conditions to increase (dissolved oxygen for fish eggs) or decrease (organic carbon) exchange with the bed. Further work compare with Clark Stream-Lab exp. SR2Determine how physical channel attributes affect nutrient & contaminant dynamics, productivity, and species diversity Through Solution of a transient advection-dispersion can be shown that the laterally averaged concentration penetration CAN Be described by a 1-D Dispersion Equation y

4 Increasing Flexibility GRID---FIN-DIFF Efficient solution Ax=b — Difficult to Fit Geometry MESH---FEM Less Efficient solution Ax=b — Easy to Fit Geometry Difficult to adapt “CLOUD”---SPH Even Less Efficient solution Ax=b — Very Easy to Fit Geometry Easy to adapt Application of Meshless Methods

Download ppt "Moving Boundary Problems are Us The development and application of numerical methods for transport models towards an integrated frame-work for modeling."

Similar presentations

Introduction to Plasma-Surface Interactions Lecture 6 Divertors.

Introduction to Plasma-Surface Interactions Lecture 6 Divertors.
Subsurface Fate and Transport of Contaminants

Subsurface Fate and Transport of Contaminants
Numerical Simulation of Wave-Seawall Interaction Clive Mingham, Derek Causon, David Ingram and Stephen Richardson Centre for Mathematical Modelling and.

Numerical Simulation of Wave-Seawall Interaction Clive Mingham, Derek Causon, David Ingram and Stephen Richardson Centre for Mathematical Modelling and.
Oceans.

Oceans.
2L 2aL s h T Introduction Zach Frye, University of Wisconsin-Eau Claire Faculty Advisors: Mohamed Elgindi, and John Drost, Department of Mathematics Funded.

2L 2aL s h T Introduction Zach Frye, University of Wisconsin-Eau Claire Faculty Advisors: Mohamed Elgindi, and John Drost, Department of Mathematics Funded.
Moving Boundaries in Earthscapes Damien T. Kawakami, V.R. Voller, C. Paola, G. Parker, J. B. Swenson NSF-STC www.nced.umn.edu.

Moving Boundaries in Earthscapes Damien T. Kawakami, V.R. Voller, C. Paola, G. Parker, J. B. Swenson NSF-STC
National Center for Earth-surface Dynamics Modeling physical and ecological dynamics of channel systems that shape Earth’s surface Moving boundary problems.

National Center for Earth-surface Dynamics Modeling physical and ecological dynamics of channel systems that shape Earth’s surface Moving boundary problems.
National Center for Earth-surface Dynamics Modeling physical and ecological dynamics of channel systems that shape Earth’s surface Moving boundary problems.

National Center for Earth-surface Dynamics Modeling physical and ecological dynamics of channel systems that shape Earth’s surface Moving boundary problems.
Validation and Verification of Moving Boundary Models of Land Building Processes Vaughan R. Voller National Center for Earth-surface Dynamics Civil Engineering,

Validation and Verification of Moving Boundary Models of Land Building Processes Vaughan R. Voller National Center for Earth-surface Dynamics Civil Engineering,
Influence of Geomorphic Complexity on Hyporheic Flow and Nutrient Processing Prepared by Dan Baker for CE 413.

Influence of Geomorphic Complexity on Hyporheic Flow and Nutrient Processing Prepared by Dan Baker for CE 413.
Scouring—↑flashiness of the hydrograph → scour and gravel shift.

Scouring—↑flashiness of the hydrograph → scour and gravel shift.
Numerical analysis of simultaneous heat and mass transfer during absorption of polluted gases by cloud droplets T. Elperin, A. Fominykh and B. Krasovitov.

Numerical analysis of simultaneous heat and mass transfer during absorption of polluted gases by cloud droplets T. Elperin, A. Fominykh and B. Krasovitov.
Non-local Transport in Channel Networks Vaughan Voller Civil Engineering University of Minnesota Tetsuji Muto, Wonsuck Kim, Gary Parker, John Swenson,

Non-local Transport in Channel Networks Vaughan Voller Civil Engineering University of Minnesota Tetsuji Muto, Wonsuck Kim, Gary Parker, John Swenson,
10.2 Oxygen Dissociation Curves

10.2 Oxygen Dissociation Curves
Chapter 20 Section 1 Review Page 500

Chapter 20 Section 1 Review Page 500
Chapter 20 Section 1 Review Page 500

Chapter 20 Section 1 Review Page 500
Unit 2.4: Currents and Tides. Vocabulary: 1.Current: a large stream of moving water that flows through oceans Unlike waves, currents carry water from.

Unit 2.4: Currents and Tides. Vocabulary: 1.Current: a large stream of moving water that flows through oceans Unlike waves, currents carry water from.
OPTIMAL STRATEGIES FOR ECOLOGICAL RESTORATION UNDER CLIMATE CHANGE Koel Ghosh, James S. Shortle, and Carl Hershner * Agricultural Economics and Rural Sociology,

OPTIMAL STRATEGIES FOR ECOLOGICAL RESTORATION UNDER CLIMATE CHANGE Koel Ghosh, James S. Shortle, and Carl Hershner * Agricultural Economics and Rural Sociology,
What Causes Acid Precipitation?

What Causes Acid Precipitation?
Ryan Johnson Earth and Physical Science Department Western Oregon University Monmouth, Oregon

Ryan Johnson Earth and Physical Science Department Western Oregon University Monmouth, Oregon

Similar presentations

Ads by Google